Please refer to RP-200938 for detailed scope of the WI
Note: although for now this WI has its own separate agenda, it is expected to be managed jointly under a single agenda with 8.6 when RedCap becomes a WI.
R1-2005614 Work plan for UE power saving enhancements MediaTek Inc.
Focusing on potential evaluation methodology updates and high-level concepts
R1-2005388 Discussion on paging enhancements for idle/inactive mode UE power saving vivo
· Proposal 1: Adopt power model in Table 1 (except the power of PDCCH-only of cross-slot scheduling) for power saving evaluation in idle/inactive mode.
· Proposal 2: The evaluation should assume the number of SSBs for IDLE mode loop convergence / time-frequency tracking can be 1 or 3.
· Proposal 3: Paging assumptions in Table 2 in R1-2005388 should be adopted.
· Proposal 4: UE grouping indication for sequence based WUS and PDCCH based WUS should be studied and evaluated.
· Proposal 5: Sequence based WUS before PO reception should be supported for paging enhancement.
Decision: The document is noted.
R1-2005615 Evaluation methodology and paging enhancement for idle/inactive mode UE power saving MediaTek
· Proposal 1: Power consumption evaluation for idle/inactive mode should base on calculation for ease of utilization by RAN1 and RAN2 work groups.
· Proposal 2: Power consumption evaluation for idle/inactive mode should at least include different SINR conditions and different group paging rates.
· Proposal 3: Power consumption evaluation for idle/inactive mode should be able to cover both normal capability and reduced capability UEs in order to develop unified paging enhancement scheme(s) for both type of UEs in the same network.
· Proposal 4: FR1 with SCS 30 KHz is prioritized
· Proposal 5: For idle/inactive mode power consumption analysis, the power consumption values in Table 1 are utilized, which covers both normal capability and reduced capability UEs.
· Proposal 6: For paging related settings, consider
o 1.28 second idle-mode paging DRX cycle
o Group paging rates of 10% and 60%, corresponding to around 10 and 100 UEs sharing the same PO
· Proposal 7: For measurement related settings, assume
o SS burst periodicity of 20 ms
o SMTC periodicity of 20 ms
o SMTC window duration: 2 ms for intra-band measurement and 5 ms for inter-band measurement
o No neighbour cell measurement in high SINR condition
· Proposal 8: For UE paging monitoring/reception within a paging cycle, the following operations should be specified for different SINR conditions:
o SS burst processing before PO for synchronization as well as measurement of serving cell and, if needed, intra-band neighbour cell(s)
o PO processing, including Paging PDCCH monitoring, and paging PDSCH processing (subject to group paging rate)
o SS burst processing after PO for inter-band neighbour cell measurement
·
Proposal 9: When SINR is not high, or for reduced capability UE, the
processing timeline in Figure 1 is assumed,
where
o Three SS bursts before PO are utilized for synchronization; one is also used for serving cell and intra-band neighbour cell measurement
o 4-ms PO processing is assumed for paging monitoring/reception across multiple beams
o One 5-ms SMTC window after PO is utilized for inter-band neighbour cell measurement
Figure 1: UE processing timeline for paging monitoring/reception when SINR is not high
· Proposal 10: For high SINR condition, the processing timeline in Figure 2 is assumed, where
o One SS burst before PO is sufficient for synchronization and serving cell measurement.
o 1-ms PO processing is assumed for paging monitoring/reception only over the best beam(s)
o No neighbour cell measurement after PO
o Note that, due to potential SINR change for each paging DRX cycle, an early SS burst is assumed so that UE can process the following SS bursts if identifying lower SINR condition from the first SS burst
Figure 2: UE processing timeline for paging monitoring/reception in high SINR
· Proposal 11: Rel-17 paging enhancements should aim for minimizing UE wake-up energy overhead, particularly when there is no paging to the UE.
· Proposal 12: Introduce paging early indication (PEI) before PO for idle/inactive mode power saving.
o PEI indicates UE whether to decode paging PDCCH/PDSCH in the PO
o PEI should be located near SS bursts to reduce UE wakeup overhead
o FFS PEI with UE subgrouping
· Proposal 13: Due to the limited time of WI and large specification efforts, new signal/channel design for paging early indication(s) is not supported in Rel-17.
· Proposal 14: FFS the following existing signal/channel for paging early indication.
o PDCCH channel
o Existing RS, e.g., SSS and TRS/CSI-RS
· Proposal 15: RAN1 should follow the physical requirements of PEI from RAN2 if any. RAN1 can additionally take the following performance metrics into consideration.
o Network resource overhead
o Detection complexity and power consumption
o Detection performance requirement
o Specification effort
Decision: The document is noted.
R1-2005262 Paging enhancement(s) for UE power saving in IDLE/inactive mode Huawei, HiSilicon
R1-2005520 Discussion on power saving enhancements for paging ZTE
R1-2005582 Considerations on paging enhancements Sony
R1-2005719 Paging enhancement for UE power saving CATT
R1-2005738 Paging enhancement for power saving Beijing Xiaomi Software Tech
R1-2005773 Potential paging enhancements TCL Communication Ltd.
R1-2005884 On paging enhancements for UE power saving Intel Corporation
R1-2005935 Power efficient paging Lenovo, Motorola Mobility
R1-2006041 Paging enhancements for power saving OPPO
R1-2006157 On potential paging enhancements Samsung
R1-2006221 Discussion on paging enhancement CMCC
R1-2006291 Discussion on potential paging enhancements Spreadtrum Communications
R1-2006311 Discussion on potential paging enhancements LG Electronics
R1-2006385 Potential paging enhancements for idle/inactive-mode UE power saving Panasonic
R1-2006527 Potential paging enhancements for idle/inactive-mode UE power saving Apple
R1-2006544 Paging enhancements for UE power saving InterDigital, Inc.
R1-2006665 Discussion on potential paging enhancements for UE power savings Ericsson
R1-2006736 Discussion on paging enhancements NTT DOCOMO, INC.
R1-2006815 Paging enhancements and evaluation methodology Qualcomm Incorporated
R1-2006896 On paging enhancements for UE power saving Nokia, Nokia Shanghai Bell
[102-e-NR-UE_pow_sav_enh-01] – Weide (MTK)
Email discussiona/approval
· By 8/21 – high priority
· By 8/27 – medium
R1-2007063 Summary for potential paging enhancements MediaTek
Agreements:
For study of Rel-17 paging enhancement, the following are assumed as a baseline for FR1 and FR2:
· Reference configuration for FR1/FR2 as specified in Section 8.1.1/8.1.2 of TR 38.840
o Note: the setting for some PDSCH parameters may not be applicable for RedCap UEs
· Baseline paging cycle length: [1.28] second
· SS burst related assumptions:
o 20 ms periodicity
o 2 ms duration for serving cell RRM measurement, which can overlap with the one for synchronization before PO
o FFS time/frequency tracking
· Measurement related assumptions:
o 20 ms SMTC periodicity
o 2 ms SMTC window for intra-frequency RRM measurement, assuming synchronized deployment
o [5 ms SMTC window and 6 ms measurement gap for inter-frequency RRM measurement]
§ Note: RAN4 requirement assumes one frequency layer per measurement gap, and 0.5 ms is assumed for switch in/out a frequency layer
· Note: the inclusion of potential TRS/CSI-RS occasions can be considered
From GTW session on August 24th,
Agreements:
The following power consumption model for FR1 is utilized for the evaluations of Rel-17 UE power saving enhancements in idle/inactive mode.
· FFS: FR2 power consumption model for idle/inactive mode operations
|
Power State |
Relative Power (FR1 reference from TR 84.840) |
Relative Power |
|
Deep Sleep (PDS) |
1 |
1 |
|
Light Sleep (PLS) |
20 |
20 |
|
Micro sleep (PMS) |
45 |
45 |
|
PDCCH-only (PPDCCH) |
100 |
50Note |
|
PDCCH + PDSCH (PPDCCH+PDSCH) |
300 |
120 |
|
PDSCH-only (PPDSCH) |
280 |
112 |
|
SSB/CSI-RS proc. (PSSB) |
100 (synchronization or serving cell measurement) |
50 |
|
Intra-frequency RRM measurement (Pintra) |
· 150 (synchronous case, N=8, measurement only; Pintra, meas-only) · 200 (combined search and measurement; Pintra, search+meas) |
· [60] (synchronous case, N=8, measurement only; Pintra, meas-only) · [80] (combined search and measurement; Pintra, search+meas) |
|
Inter-frequency RRM measurement (Pinter) |
· 150 (measurement only per freq. layer; Pinter, meas-only) · 150 (neighbor cell search power per freq. layer; Pinter, search-only) · Micro sleep power assumed for switch in/out a freq. layer |
· [60] (measurement only per freq. layer; Pinter, meas-only) · [150] (neighbor cell search power per freq. layer; Pinter, search-only) · Micro sleep power assumed for switch in/out a freq. layer |
|
Note: Power scaling to 20MHz reception bandwidth follows the rule in Section 8.1.3 of TR 38.840, i.e., max{reference power * 0.4, 50}. |
||
Agreements:
Group paging rate of 10% is assumed for the evaluation of Rel-17 paging enhancement
· FFS: Another group paging rate > 10%
· Note: If UE sub-grouping is applied, the sub-group paging rate can be reduced w.r.t. the total sub-group number for a PO
Agreements:
For the study on paging enhancements to reduce unnecessary paging reception, the following metrics are considered:
· UE power saving gain (relative to a given feature or overall)
· Impact to UE paging detection probability
o FFS: Link level simulation assumptions
· System impact, including
o Additional resource overhead and its implications
o Impact to Rel-15/Rel-16 idle/inactive-mode UEs and connected-mode UEs
o Impact to other legacy functionalities, including SI change and ETWS indication
o [Note: NW energy consumption evaluation is not precluded]
Agreements:
· For the study of paging enhancement, 1, 2, or 3 SS burst processing is assumed before PO
o Note: in choosing one or more values (1, 2, or 3) for the evaluations, companies to provide justification
From GTW session on August 28th,
Agreement
Send a LS with for evaluation methodology updates related to paging enhancement(s) to RAN2
R1-2007355 Draft LS on evaluation methodology for UE power saving enhancements MediaTek
Decision: The draft LS is endorsed. Final LS is approved in R1-2007425.
Agreements:
For the study on paging enhancements, the following LLS assumptions are considered.
· For investigating the residual frequency error after one or multiple SS burst processing, at least -6 dB SNR should be considered
|
Parameters |
Values |
Note |
|
Carrier Frequency |
4GHz (FR1) |
|
|
Transmission BW |
20MHz (FR1) |
|
|
Antenna Configuration |
1/2TX and 2/4 RX |
Companies to report |
|
Channels |
TDL-C or CDL-C 300 ns delay spread 100 Hz Doppler shift |
|
|
Frequency error |
Uniform distribution in the range [-X, +X]ppm
Companies to report the utilized X value(s) with justification |
Modelled at the input of the considered paging channel/early indication design(s) |
|
Paging PDCCH configuration |
AL8, 41 info + 24 CRC bits, REG bundle size 6 |
Companies to report additional setting(s), e.g., CORESET duration, etc. |
|
Paging PDSCH configuration |
Mapping type A, MCS 0, 48 PRB, TB scaling 1, DMRS type 1 with 2 additional DMRS |
Companies to report additional setting(s), e.g., other TB scaling factor, other DMRS type(s), etc. |
|
Paging early indication design(s) |
Companies to report |
Agreements:
For potential paging enhancements, RAN1 to study the following candidate schemes:
o Multiple P-RNTIs
Focusing on high-level concepts
R1-2006158 On TRS/CSI-RS occasion(s) for idle/inactive Ues Samsung
· Proposal #1: Support functionalities of TRS/CSI-RS for idle/inactive UEs, including
o Synchronization
o FFS: RRM measurement or indication for paging reception
· Proposal #2: Support configuration of cell-specific TRS/CSI-RS resources included in SIB1.
· Proposal #3: Support time alignment between TRS/CSI-RS reception occasion and PO.
· Proposal # 4: Support activation or deactivation of TRS/CSI-RS reception for idle/inactive mode UEs based on physical layer signal/channel.
·
Proposal #5: Support relative
power for TRS/CSI-RS reception, 
, such that 
, where x is occupied symbols of TRS/CSI-RS per slot, and 
is relative power for micro-sleep.
Decision: The document is noted.
R1-2006386 Potential enhancements for TRS/CSI-RS occasion(s) for idle/inactive Ues Panasonic
· Proposal 1: For RRC INACTIVE/IDLE mode UE, new TRS/CSI-RS occasions can be studied to enhance the synchronization and beam tracking before paging monitoring.
· Proposal 2: To shorten the UE active time for paging monitoring, the additional TRS/CSI-RS location in time and frequency domain and how to configure should be studied.
· Proposal 3: The influence/interaction with UE's periodic frequency/time tracking should be checked for additional TRS/CSI-RS.
Decision: The document is noted.
R1-2005263 Assistance RS occasions for IDLE/inactive mode Huawei, HiSilicon
R1-2005389 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs vivo
R1-2005521 Reference signal for RRC idle and inactive UEs ZTE
R1-2005583 On the usage of TRS/CSI-RS for the UE in Idle Mode Sony
R1-2005616 On TRS/CSI-RS occasion(s) for idle/inactive mode UE power saving MediaTek Inc.
R1-2005720 Configuration of TRS/CSI-RS for paging enhancement CATT
R1-2005739 Discussion on TRS CSI-RS occasions for idle/inactive UEs Beijing Xiaomi Software Tech
R1-2005885 Discussion on TRS/CSI-RS reception during idle/inactive mode Intel Corporation
R1-2006042 RS occasion for idle/inactive UEs OPPO
R1-2006222 Discussion on potential TRS CSI-RS occasion(s) for idle/inactive UEs CMCC
R1-2006269 Consideration on TRS/CSI-RS occasion(s) for idle/inactive UEs Spreadtrum Communications
R1-2006312 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs LG Electronics
R1-2006528 Indication of TRS/CSI-RS for idle/inactive-mode UE power saving Apple
R1-2006666 Provisioning of potential TRS/CSI-RS occasion(s) for Idle/Inactive UEs Ericsson
R1-2006737 Discussion on TRS/CSI-RS occasion for idle/inactive UEs NTT DOCOMO, INC.
R1-2006816 TRS/CSI-RS for idle/inactive UE power saving Qualcomm Incorporated
R1-2006897 On RS information to IDLE/Inactive mode Ues Nokia, Nokia Shanghai Bell
[102-e-NR-UE_pow_sav_enh-02] – Taehyoung (Samsung)
Email discussiona/approval
· By 8/21 – high priority
· By 8/27 – medium
R1-2007475 Summary for TRS/CSI-RS occasion(s) for idle/inactive Ues Moderator (Samsung)
From GTW session on August 25th,
Agreement:
· New types/patterns of TRS/CSI-RS are not introduced specifically for idle/inactive mode UE.
Decision: As per email decision posted on August 28th,
Agreements:
The TRS/CSI-RS occasion(s) that may be for connected mode UEs can be shared to idle/inactive mode UEs.
· Note: It is understood that gNB can potentially share the occasions to idle/inactive (which would just mean it up to NW whether to share or not share).
· Note: It is understood that TRS/CSI-RS in the TRS/CSI-RS occasion(s) may or may not be transmitted.
· Note: Always-on TRS/CSI-RS transmission by gNodeB is not required
· At least TRS/CSI-RS occasion(s) corresponding to periodic TRS is supported
o FFS for other RS types
· FFS: Whether UE blind detection is required or not.
Agreements:
Idle/inactive UE may use the TRS/CSI-RS occasion(s) that are shared to it for functionalities such as:
· AGC, time/frequency tracking
· FFS: RRM measurement for serving cell, RRM measurement for neighbor cell, paging reception indication
Observation:
It is up to gNB implementation whether or not to transmit a TRS/CSI-RS to idle/inactive UEs even when the TRS/CSI-RS is not needed by connected UEs (e.g., when there is a connected mode UE in a cell but the UE is no longer using the TRS/CSI-RS, or when there is no longer connected mode UE in a cell, etc.)
Agreements:
The configuration of TRS/CSI-RS occasion(s) for idle/inactive mode UE(s) is provided by higher layer signalling
· FFS higher layer signalling candidates (e.g., SIB, dedicated RRC, RRC release message, etc.)
· FFS for other signalling candidates (e.g., pre-configuration, etc.)
· FFS for detailed configuration parameters (e.g., whether and how to reduce the signalling overhead for configuration, etc.)
Decision: As per email decision posted on August 28th,
Agreement:
Further study whether and how to inform the availability of TRS/CSI-RS to idle/inactive mode UE (implicitly or explicitly).
· Note: Availability corresponds to the information for whether TRS/CSI-RS is actually transmitted or not.
R1-2005390 Discussion on paging grouping vivo
R1-2005522 Additional simulation results of UE power consumption in RRC idle and inactive state ZTE
R1-2006412 Initial analysis on power consumption for IDLE mode UE Huawei, HiSilicon
R1-2006667 High-level UE energy consumption profiling Ericsson
Focusing on potential evaluation methodology updates and high-level concepts
R1-2006738 Discussion on extension to DCI-based power saving adaptation NTT DOCOMO, INC.
· Proposal 1: It should be discussed first on what Rel-16 DCI-based power saving adaptation(s) the enhancements will be considered.
· Proposal 2: Consider following Rel-16 DCI-based power saving adaptation(s) as the candidates for enhancements to reduce PDCCH monitoring.
o Rel-16 cross-slot scheduling enhancements, i.e., minimum scheduling offset of K0/K2
o Search space set group switching
Decision: The document is noted.
R1-2005264 Extension(s) to Rel-16 DCI-based power saving adaptation for an active BWP Huawei, HiSilicon
R1-2005391 Discussion on DCI-based power saving adaptation vivo
R1-2005523 Extension to Rel-16 DCI-based power saving adaptation during DRX Active Time ZTE
R1-2007032 Evaluation methodology and enhancement for connected mode UE power saving MediaTek Inc. (rev of R1-2005617)
R1-2005721 PDCCH monitoring adaptation CATT
R1-2005886 On PDCCH monitoring reduction techniques during active time Intel Corporation
R1-2005936 Potential enhancement to DCI based power saving adaptation Lenovo, Motorola Mobility
R1-2006043 DCI-based adaptation for PDCCH OPPO
R1-2006159 On enhancements of power saving techniques during DRX active time Samsung
R1-2006223 Discussion on PDCCH monitoring reduction during DRX active time CMCC
R1-2006271 Discussion on power saving techniques for connected-mode UE Spreadtrum Communications
R1-2006313 Discussion on DCI-based power saving adaptation during DRX ActiveTime LG Electronics
R1-2006387 Potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime Panasonic
R1-2006529 PDCCH based power saving enhancements for connected-mode Ues Apple
R1-2006548 PDCCH-based power saving signal design considerations InterDigital, Inc.
R1-2006668 Discussion on potential enhancements for power savings during active time Ericsson
R1-2006755 Power saving adaptation during Active Time ASUSTEK COMPUTER (SHANGHAI)
R1-2006817 DCI-based power saving adaptation during DRX ActiveTime Qualcomm Incorporated
R1-2006898 UE power saving enhancements for Active Time Nokia, Nokia Shanghai Bell
R1-2006946 Power saving enhancements for connected mode UEs Sony
[102-e-NR-UE_pow_sav_enh-03] Email discussiona/approval – Xiaodong (vivo)
· By 8/21 – high priority
· By 8/27 – medium
R1-2007065 FL summary of potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime Moderator (vivo)
R1-2007117 FL summary#2 of potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime Moderator (vivo)
From GTW session on August 24th,
Agreements:
· Reusing power model in TR38.840 for evaluation of DCI-based power saving adaptation schemes.
o Note: company reporting additional power model for missing state or update is not precluded.
Agreements:
R1-2007225 FL summary#3 of potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime Moderator (vivo)
From GTW session on August 28th,
Agreements:
· The performance metrics described in TR38.840 section 8.2 is reused for power saving evaluation of Rel-17 DCI-based power saving adaptation during ActiveTime.
· The following Rel-15 / 16 features is recommended of the power consumption as reference for baseline. Company can report the feature(s) being used in the baseline.
o DRX
§ C-DRX cycle 40msec for VoIP
· 10ms IAT, 8ms On-duration
· Assume max two packets bundled
§ C-DRX cycle 160msec for FTP
· Alt 1: 20 msec IAT, 8ms On-duration
· Alt 2: short DRX
o 20 ms [or 40ms as optional] IAT, 8ms On-duration
o 20 ms for short DRX cycle, 4 cycles
· Note: 100 msec IAT, 8ms On-duration can also be used with sufficient justifications that available Rel-15/16 Techniques being used to reduce UE power saving
Agreements:
Legacy traffic models in TR38.840 can be considered for Rel-17 DCI-based power saving adaptation evaluation, other traffic models can be optionally modelled and company report which traffic model(s) is used.
R1-2007419 LS on evaluation methodology for connected mode UE power saving enhancement RAN1, vivo, MediaTek
Decision: The LS is approved.
Final summary in:
R1-2007400 FL summary#4 of potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime Moderator (vivo)
R1-2005392 Discussion on RLM/BFD relaxation vivo
R1-2005524 Further discussion on potential power saving schemes for RRC connected UEs ZTE
R1-2006044 Discussion on RLM Relaxation OPPO
R1-2006404 Other considerations on power saving in Rel-17 Huawei, HiSilicon
R1-2006669 Evaluation of UE power saving schemes Ericsson
Please refer to RP-200938 for detailed scope of the WI
Note: although for now this WI has its own separate agenda, it is expected to be managed jointly under a single agenda with 8.6 when RedCap becomes a WI.
R1-2008964 Paging enhancements for idle/inactive-mode UE power saving MediaTek Inc.
· Proposal 1: For paging enhancement study, consider at least UE processing timelines using 3 SS bursts and 1 SS burst for synchronization.
· Proposal 2: For UE processing timelines, it should be assumed that one early SS burst is processed to check channel condition so that sufficient number of SS bursts can be utilized if poor channel condition is identified.
· Proposal 3: For Rel-17 paging enhancement study, RAN1 to prioritize (UE-Group) paging early indication scheme, where UE is notified before paging occasion whether UE (sub)group is paged or not.
o LS to RAN2 for inquiring the potential subgroup number if UE grouping is considered
· Proposal 4: To avoid paging early indication to content resource with existing channels, UE is required to monitor legacy PO if PEI is not detected.
· Proposal 5: Decide whether to include SI change and ETWS indications in paging early indication after the physical layer design is decided.
· Proposal 6: For Rel-17 paging enhancement, UE-group paging early indication is supported.
o UE is required to monitor legacy PO if paging early indication is not detected.
o FFS: PDCCH/DCI-based or sequence-based physical layer design
Decision: The document is noted.
R1-2007600 Paging enhancement(s) for UE power saving in IDLE/inactive mode Huawei, HiSilicon
R1-2007673 Paging enhancements for idle/inactive mode UE power saving vivo
R1-2007867 Paging enhancement for UE power saving CATT
R1-2007890 Potential paging enhancements TCL Communication Ltd.
R1-2007898 Paging enhancement for power saving Beijing Xiaomi Software Tech
R1-2007971 Discussion on power saving enhancements for paging ZTE
R1-2008021 Discussion on paging enhancement CMCC
R1-2008053 Discussion on potential paging enhancements LG Electronics
R1-2008103 Discussion on potential paging enhancements Spreadtrum Communications
R1-2008175 Discussion on paging enhancements Samsung
R1-2008265 Further discussion on Paging enhancements for power saving OPPO
R1-2008287 Potential paging enhancements for idle/inactive-mode UE power saving Panasonic
R1-2008368 Paging enhancement for idle/inactive mode UE Sony
R1-2008474 Paging enhancements for idle/inactive-mode UE power saving Apple
R1-2008689 Paging enhancements for UE power saving InterDigital, Inc.
R1-2008933 On paging enhancements for UE power saving Nokia, Nokia Shanghai Bell
R1-2009488 On paging enhancements for UE power saving Intel Corporation (rev of R1-2008992)
R1-2009105 Paging enhancement for UE power saving Lenovo, Motorola Mobility
R1-2009187 Discussion on paging enhancements NTT DOCOMO, INC.
R1-2009200 Discussion on potential paging enhancements for UE power savings Ericsson
R1-2009266 Paging enhancements and evaluation methodology Qualcomm Incorporated
[103-e-NR-PowSav-Enh-01] – Weide (MediaTek)
Email discussion/approval for potential paging enhancements
R1-2009753 Summary for Potential Paging Enhancements Moderator (MediaTek)
Decision: As per email decision posted on Nov. 10th,
Agreements:
Observation: For NR idle/inactive-mode UEs, UE sub-grouping indication within a PO can provide the following power saving gains w.r.t. Rel-16:
The number of UE sub-groups evaluated ranges from 2 to 16.
Some companies show concern on assuming group paging rate larger than 60%.
Note: It is FFS in RAN1 another group paging rate > 10% for the evaluation of Rel-17 paging enhancement.
Agreements:
Observation: For NR idle/inactive-mode UEs, UE sub-grouping indication carried in paging early indication can provide the following power saving gains w.r.t Rel-16:
The additional power saving gains w.r.t. paging early indication without UE sub-grouping are given as follows:
The number of UE sub-groups evaluated ranges from 2 to 16.
The power saving gains are dependent on the assumptions about placement of PEI and PO relative to SSB.
Note: It is FFS in RAN1 another group paging rate > 10% for the evaluation of Rel-17 paging enhancement.
Note: Not all sources providing results for paging early indication without UE sub-grouping also provide results for paging early indication with UE sub-grouping.
Agreements:
Observation: For NR idle/inactive-mode UEs with 10% group paging rate, cross-slot scheduling with K0 = 1, which can be supported by Rel-15/Rel-16 for Type 2 CSS, can provide the following power saving gains w.r.t. same-slot scheduling (K0 = 0):
One source shows that cross-slot scheduling with K0 = 32, which cannot be supported by Rel-15/Rel-16 for Type 2 CSS, can provide the following power saving gains w.r.t. same-slot scheduling (K0 = 0):
The power saving gain will become lower with higher group paging rate.
Agreements: For NR idle/inactive-mode paging enhancement, paging early indication before paging occasion is supported from RAN1 perspective
Decision: As per email decision posted on Nov. 12th,
Agreements:
Observation: For NR idle/inactive-mode UEs with 10% group paging rate, paging early indication without UE sub-grouping can achieve the following power saving gains w.r.t. Rel-16:
The power saving gains will become lower for higher group paging rate.
The power saving gains are dependent on the assumptions about placement of PEI and PO relative to SSB.
The power saving gains may vary with different paging early indication design.
R1-2009754 Draft LS on Paging Enhancement MediaTek Inc.
Decision: As per email decision posted on Nov. 13th, the draft LS is endorsed. Final LS is approved in R1-2009801.
R1-2008934 On RS information to IDLE/Inactive mode Ues Nokia, Nokia Shanghai Bell
· Proposal: Do not consider the potential TRS/CSI-RS occasions(s) for RRM measurements of serving cell mobility evaluations.
· Proposal: Do not consider the potential TRS/CSI-RS occasions(s) for RRM measurements of neighbour cell mobility evaluations.
· Proposal: Do not consider the potential TRS/CSI-RS occasion(s) for IDLE/INACTIVE mode UEs as early paging indication.
· Proposal: Focus the RAN1 work on WID objective 1b on designing the mechanism to provide IDLE/INACTIVE mode UEs the information on potential periodic TRS occasions. Do not support additional RS types.
· Proposal: Prior agreeing to support of presence indication, RAN1 should discuss and conclude the side conditions associated with the presence indication.
· In section 3 we discussed the mechanism to singal the TRS configuration for the IDLE/INACTIVE mode UEs and also look that the parameters needed for the configuration:-
· Proposal: Once RAN1 has concluded on principles on the desired main functionality and extend of the signaling, RAN1 should send a LS to RAN2 asking RAN2 to design the higher layer signaling mechanism to deliver the TRS configuration to IDLE/INACTIVE mode UEs.
· Proposal: Configuration of TRS occasion related parameters informed to the IDLE/INACTIVE mode UE(s) should be assumed to support similar flexibility as required by Connected Mode UE(s).
· Proposal: The configuration of TRS to the IDLE/INACTIVE mode UEs needs to support independent configuration for each broadcast/SSB beam.
Decision: The document is noted.
R1-2007601 Assistance RS occasions for IDLE/inactive mode Huawei, HiSilicon
R1-2007674 TRS/CSI-RS occasion(s) for idle/inactive UEs vivo
R1-2007868 Configuration of TRS/CSI-RS for paging enhancement CATT
R1-2007891 TRS/CSI-RS occasion(s) for idle/inactive UEs TCL Communication Ltd.
R1-2007899 TRS CSI-RS occasion(s) for idle inactive UEs Beijing Xiaomi Software Tech
R1-2007972 Reference signal for RRC idle and inactive UEs ZTE
R1-2008022 Discussion on TRS/CSI-RS occasion(s) for idle/inactive-mode UEs CMCC
R1-2008054 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs LG Electronics
R1-2008176 Discussion on TRS/CSI-RS occasion(s) for idle/inactive Ues Samsung
R1-2008266 Further discussion on RS occasion for idle/inactive UEs OPPO
R1-2008288 Potential enhancements for TRS/CSI-RS occasion(s) for idle/inactive Ues Panasonic
R1-2008369 Considerations on TRS/CSI-RS occasion(s) for idle/inactive mode UE Sony
R1-2008475 Indication of TRS/CSI-RS for idle/inactive-mode UE power saving Apple
R1-2008690 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs InterDigital, Inc.
R1-2008965 On TRS/CSI-RS occasion(s) for idle/inactive mode UE power saving MediaTek Inc.
R1-2008993 Discussion on TRS/CSI-RS reception during idle/inactive mode Intel Corporation
R1-2009106 Provision of TRS/CSI-RS for idle/inactive UEs Lenovo, Motorola Mobility
R1-2009151 Consideration on TRS/CSI-RS occasion(s) for idle/inactive UEs Spreadtrum Communications
R1-2009188 Discussion on TRS/CSI-RS occasion for idle/inactive UEs NTT DOCOMO, INC.
R1-2009201 Provisioning of potential TRS/CSI-RS occasion(s) for Idle/Inactive UEs Ericsson
R1-2009267 TRS CSI-RS for idle and inactive UE power saving Qualcomm Incorporated
[103-e-NR-PowSav-Enh-02] – Taehyoung (Samsung)
Email discussion/approval for TRS/CSI-RS occasion(s) for idle/inactive UEs
R1-2008178 Moderator summary for TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
Decision: As per email decision posted on Nov. 10th,
Agreement:
· Functionality of RRM measurement for neighbour cell is not supported for TRS/CSI-RS for idle/inactive UE(s).
Agreements:
· SIB signalling provides the configuration of TRS/CSI-RS occasion(s) for idle/inactive UE(s).
o Up to RAN2 to decide which SIB is to be used.
o Whether or not to additionally support other high-layer signalling methods (e.g., dedicated RRC, RRC release message, etc.) is up to RAN2
Send an LS to RAN2 informing the above agreements, and
· To further add that RAN1 is working on the detailed physical layer design
R1-2009791 [draft] LS on signalling method for TRS/CSI-RS occasion(s) for idle/inactive UE(s) Samsung
Decision: As per email decision posted on Nov. 13th, the draft LS is endorsed. Final LS is approved in R1-2009848.
Agreement:
· Aperiodic TRS and semi-persistent/aperiodic CSI-RS are not used as TRS/CSI-RS occasion(s) for idle/inactive UEs.
Agreements:
· Target sending an LS to RAN2 and RAN4 to ask whether it is feasible to allow a UE to use the potential TRS/CSI-RS occasion to enhance the SSB based IDLE/Inactive mode evaluations of the serving cell. (to also include agreements from last meeting)
· Further discussion whether any additional information needs to be included in the LS or not, including potential re-wording of the leading sentence
Decision: As per email decision posted on Nov. 13th,
Agreements:
how to minimize extra UE implementation complexity
Conclusion:
· TRS/CSI-RS based PEI is discussed in AI 8.7.1.1.
· PEI functionality is not further discussed under AI 8.7.1.2.
· Note: This does not prevent to potentially use PEI to carry the indication for TRS/CSI-RS presence.
R1-2007675 Discussion on paging grouping vivo
R1-2007869 Link level performance of IDLE UE for UE power saving CATT
R1-2007973 Additional simulation results of UE power consumption in RRC idle and inactive state ZTE
R1-2008335 Analysis on power consumption for IDLE mode UE Huawei, HiSilicon
R1-2009202 High-level UE energy consumption profiling Ericsson
R1-2009300 On network power consumption model Nokia, Nokia Shanghai Bell
R1-2008267 Discussion on DCI-based power saving adaptation OPPO
· Proposal 1: The new FTP models 3 for Gaming and Short Video IM could use 0.05 Mbytes packet size and 15ms mean inter-arrival time. Smaller Packet size like 0.01Mbytes can be also considered.
· Proposal 2: Power saving enhancement consider the PDCCH monitoring adaptation schemes including:
o Indicating Search Space group adaptation.
o Indicating skipping of PDCCH monitoring occasions.
o Autonomous PDCCH monitoring adaptation.
· Proposal 3: In power saving mode with cross-slot minimum k0, The UE specific PDCCH search space monitoring periodicity can be matched to the current applicable minimum K0 values.
o Considering the (min(K0)+1) as the monitoring periodicity.
Decision: The document is noted.
R1-2007602 Extension(s) to Rel-16 DCI-based power saving adaptation for an active BWP Huawei, HiSilicon
R1-2007676 Discussion on DCI-based power saving adaptation in connected mode vivo
R1-2007701 Extension to Rel-16 DCI-based power sabing adaptation during DRX Active Time GDCNI
R1-2007870 PDCCH monitoring adaptation CATT
R1-2007974 Extension to Rel-16 DCI-based power saving adaptation during DRX Active Time ZTE
R1-2008023 Discussion on PDCCH monitoring reduction during DRX active time CMCC
R1-2008055 Discussion on DCI-based power saving adaptation during DRX ActiveTime LG Electronics
R1-2008177 Discussion on DCI-based power saving techniques Samsung
R1-2008289 Potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime Panasonic
R1-2008476 Enhanced DCI-based power saving adapation Apple
R1-2008691 PDCCH-based power saving signal design considerations InterDigital, Inc.
R1-2008711 DCI-based Power Saving Enhancements Fraunhofer HHI, Fraunhofer IIS
R1-2008714 Power saving adaptation during Active Time ASUSTeK
R1-2008935 UE power saving enhancements for Active Time Nokia, Nokia Shanghai Bell
R1-2008966 Discussion on DCI-based power saving adaptation during DRX active time MediaTek Inc.
R1-2008994 On PDCCH monitoring reduction techniques during active time Intel Corporation
R1-2009056 Discussion on extension(s) to Rel-16 DCI-based power saving adaptation Asia Pacific Telecom co. Ltd
R1-2009107 Enhanced DCI based power saving adaptation Lenovo, Motorola Mobility
R1-2009150 Discussion on power saving techniques for connected-mode UE Spreadtrum Communications
R1-2009189 Discussion on extension to DCI-based power saving adaptation NTT DOCOMO, INC.
R1-2009203 Discussion on potential enhancements for power savings during active time Ericsson
R1-2009268 DCI-based power saving adaptation during DRX ActiveTime Qualcomm Incorporated
R1-2009299 On power saving adaptation during the DRX active time Sony
R1-2009501 FL summary#1 of power saving for Active Time Moderator (vivo)
[103-e-NR-PowSav-Enh-03] – Xiaodong (vivo)
Email discussion/approval for potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime
R1-2009655 FL summary#2 of power saving for Active Time Moderator (vivo)
R1-2009656 FL summary#3 of power saving for Active Time Moderator (vivo)
Agreements:
Observation:
· Each of the following schemes is individually shown to be beneficial for UE power saving compared to the baseline.
o Dynamically switching search space set
o Dynamically skipping PDCCH monitoring for a certain duration or until next DRX ON
· At least the following Rel-15 and/or Rel-16 power saving solutions have been utilized for baseline,
o For eMBB traffic,
§ DRX setting(including using short DRX or long DRX with a short IAT or long IAT), Wake-up signal, Cross-slot scheduling, CA/Scell dormancy, MAC-CE skipping, BWP switching
o For VoIP traffic,
§ DRX setting(only long DRX cycle with a short IAT), Wake-up signal, Cross-slot scheduling, MAC-CE skipping
o For IM traffic,
§ DRX setting(long DRX cycle [with a short IAT]), Wake-up signal
o For intensive eMBB traffic,
§ DRX setting(including using short DRX or long DRX with a short IAT), Wake-up signal, Cross-slot scheduling, [CA/Scell dormancy], MAC-CE skipping, BWP switching
§ Note: intensive eMBB traffic is optional and companies may use FTP model 3 with different packet size and mean data arrival time, e.g., 15ms, 30ms, 50ms or 100ms.
· Note 1: For Search space switching, switching from 1slot monitoring to 2, 4, 8, 10, 16 or 32 slot with 30kHz SCS (FR1) and 120kHz (FR2) is utilized.
· Note 2: For PDCCH skipping , skipping 2ms, 4ms, 5ms, 8ms, 15ms, 16ms, 32ms, 64ms or to next DRX cycle is utilized
· Note 3: the baseline assumed may vary across companies
Decision: As per email decision posted on Nov. 13th,
Agreements:
·
Specify at least one of the following options for Rel-17 dynamic PDCCH
adaptation in time-domain for active
time,
o
Option 1: Search space set group switching,e.g., potential adjustments/enhancements forincluding explicit and implicit search spaceset group switching specified
in R16 for NR-U
o Option 2: PDCCH skipping for a certain duration / DRX cycle
·
FFS: which option(s)(e.g. taking into
account additional gain of option 1 over option 2, or vice-versa)
· Candidate DCI formats for dynamic PDCCH adaptation include DCI formats 1_1(including scheduling and non-scheduling DCI), 0_1, 1_2, 0_2, 2_0, 2_6.
· Note:
o Companies are encouraged to provide analysis on specification impact, power saving benefit and system impact (e.g., packet latency, system overhead)
· FFS: other schemes are not precluded for further study
Final summary in:
R1-2009804 FL summary#4 of power saving for Active Time Moderator (vivo)
R1-2007677 Discussion on RAN2 and RAN4 related power saving relaxation vivo
R1-2007871 Feature interaction between Secondary DRX group and DCP/SCell dormancy CATT
R1-2007975 Further discussion on potential power saving schemes for RRC connected UEs ZTE
R1-2008268 Discussion on RLM relaxation OPPO
R1-2008330 Other considerations on power saving in Rel-17 Huawei, HiSilicon
R1-2008477 Power saving evaluation for RLM/BFD relaxation Apple
R1-2009204 Evaluation of additional UE power saving schemes Ericsson
Please refer to RP-200938 for detailed scope of the WI
From AI5
[104-e-NR-R17-PowSav-LS-01] – Weide (MediaTek)
Email discussion regarding LS in R1-2100020, including a possible reply LS till 2/1
R1-2101940 [Draft] Reply LS on Paging Enhancement MediaTek
Decision: As per email decision posted on Feb 4th, the draft LS is endorsed. Final LS is approved in R1-2102136.
R1-2100392 Paging enhancement for UE power saving CATT
· Proposal 1: The sequence-based PEI should be adopted in Rel-17 for UE in IDLE/Inactive mode for UE power saving.
· Proposal 2: The sequence-based PEI with sub-grouping does not provide much power saving gain over that without sub-grouping and require large additional overhead. Supporting sub-grouping should be further study.
· Proposal 3: For the sequence-based PEI with sub-grouping, the number of sub-groups should be up to 8 sub-groups considering the trade-off between power saving gain and system overhead.
· Proposal 4: The sequence-based PEI configuration and procedure could be calculated by reference signal/channel, e.g., reusing the procedure of paging occasion computation for 38.304.
· Proposal 5: For Idle/Inactive mode, multiple beams of PEI should be supported.
· Proposal 6: For Idle/Inactive mode, the spatial channel property of PEI is QCLed with the beams of SSB corresponding to paging PDCCH/PDSCH.
· Proposal 7: The PEI design should consider a trade-off between the ratio of the number of PEI to PO and resource collision.
Decision: The document is noted.
R1-2100523 Discussion on power saving enhancements for paging ZTE , Sanechips
· Proposal 1: The combination of PEI and sub-grouping indication should be supported.
· Proposal 3: Adopt DCI-based PEI to reduce the paging reception for RRC idle/inactive state UE.
Decision: The document is noted.
R1-2100168 Further discussion on Paging enhancements for power saving OPPO
R1-2100216 Paging enhancement(s) for UE power saving in IDLE/inactive mode Huawei, HiSilicon
R1-2100452 Paging enhancements for idle/inactive mode UE power saving vivo
R1-2100544 Potential paging enhancements TCL Communication Ltd.
R1-2100591 Design of paging early indication for idle/inactive-mode UE power saving MediaTek Inc.
R1-2100662 On paging enhancements for UE power saving Intel Corporation
R1-2100824 Discussion on potential paging enhancements Spreadtrum Communications
R1-2100866 Paging enhancement in Idle/Inactive state Sony
R1-2100903 Discussion on potential paging enhancements LG Electronics
R1-2100998 Paging enhancement for UE power saving Lenovo, Motorola Mobility
R1-2101052 Discussion on paging early indication design CMCC
R1-2101125 Paging enhancement for power saving Xiaomi
R1-2101217 Discussion on paging enhancements Samsung
R1-2101300 On paging enhancement Panasonic
R1-2101392 Paging early indication for idle/inactive-mode UE Apple
R1-2101474 Paging enhancements for idle/inactive UE power saving Qualcomm Incorporated
R1-2101787 Paging enhancements for UE power saving InterDigital, Inc. (rev of R1-2101503)
R1-2101555 Design of Paging Enhancements Ericsson
R1-2101622 Discussion on paging enhancements NTT DOCOMO, INC.
R1-2101664 On paging enhancements for UE power saving Nokia, Nokia Shanghai Bell
[104-e-NR-R17-PowSav-01] – Weide (MediaTek)
Email discussion on potential paging enhancements
- 1st check point: Jan 28
- 2nd check point: Feb 2
- 3rd check point: Feb 4
R1-2101948 Summary for Paging Enhancements Moderator (MediaTek)
Agreement:
· Carrying UE subgroups information is considered in physical layer design for paging enhancement
Agreements:
For the evaluation and comparison of PEI candidate designs based on PDCCH, TRS/CSI-RS and SSS, the following are assumed:
Agreements:
For the evaluation and comparison of PEI candidate designs, companies to report
· Description of how PEI design can co-exist with existing channels/signals, and impact to legacy UEs.
o Rel-15 designs for multiplexing PEI with legacy channels/signals are assumed as baseline
o Other multiplexing method with legacy channels/signals can be additionally reported with justification
Agreements:
Alt 1: For the performance evaluations of PEI candidate designs based on PDCCH, TRS/CSI-RS and SSS,
1. The following are assumed, at the SNR where the Miss-Detection Rate (MDR) of paging PDSCH is 1%,
a. When Behv-A is assumed:
i. The joint miss-detection rate (MDR) of PEI and paging PDCCH defined below should be no worse than 1%: MDR_Joint_A = MDR_PEI + (1 – MDR_PEI) MDR_PagingPDCCH
ii. The False-Alarm Rate (FAR) of PEI should be no larger than [1%]
b. When Behv-B is assumed:
i. The joint miss-detection rate (MDR) of PEI and paging PDCCH defined below should be no worse than 1%: MDR_Joint_B = FAR_PEI + (1 – FAR_PEI) MDR_PagingPDCCH
ii. The MDR of PEI should be no larger than [1%]
c. Note: The CFO is modeled at the input of PEI detection and based on LLS assumptions agreed in RAN1 #102-e. Companies should justify the applied random range for the CFO.
2. Companies to provide:
a. Information on the utilized detection method for each PEI candidate design (e.g., non-coherent detection or coherent detection)
b. The required #REs to comply with the performance assumptions
c. The maximum number of subgroups that can be carried in PEI, subject to the performance assumptions
Alt 2: For the performance evaluations of PEI candidate designs based on PDCCH, TRS/CSI-RS and SSS,
1. The following are assumed, at the SNR where the Miss-Detection Rate (MDR) of paging DCI is 1%,
a. When Behv-A is assumed:
i. The MDR of PEI should be no larger than 0.1%
ii. The False-Alarm Rate (FAR) of PEI should be no larger than 1%
b. When Behv-B is assumed:
i. The FAR of PEI should be no larger than 0.1%
ii. The MDR of PEI should be no larger than 1%
c. Note: The CFO is modeled at the input of PEI detection and based on LLS assumptions agreed in RAN1 #102-e. Companies should justify the applied random range for the CFO.
2. Companies to provide:
a. Information on the utilized detection method for each PEI candidate design (e.g., non-coherent detection or coherent detection)
b. The required #REs to comply with the performance assumptions
c. The maximum number of subgroups that can be carried in PEI, subject to the performance assumptions
Agreements:
For the evaluation of resource overhead with PEI candidate designs based on PDCCH, TRS/CSI-RS and SSS, companies to provide estimated overheads for PEI candidate designs based on the following factors:
a. Assumption of Behv-A/B
b. Required #REs from performance evaluations
c. 10% group paging rate per PO as baseline; other group paging rates can be optionally considered
and based on the following assumptions with justification (up to each company)
d. Whether and how coexistence with legacy UEs is considered
e. Whether and how indication(s) to multiple POs and/or UE subgroups by one PEI is considered
f. Whether and how multi-beam transmission is considered
Decision: As per email posted on Feb 5th,
Agreements:
Further study the design on how to provide the indications for UE subgroups over PEI and/or paging PDCCH, subject to the metrics agreed in RAN1 102e.
R1-2100169 Further discussion on RS occasion for idle/inactive UEs OPPO
R1-2100217 Assistance RS occasions for IDLE/inactive mode Huawei, HiSilicon
R1-2100393 Configuration of TRS/CSI-RS for paging enhancement CATT
R1-2100453 TRS/CSI-RS occasion(s) for idle/inactive UEs vivo
R1-2100524 TRS for RRC idle and inactive UEs ZTE , Sanechips
R1-2100545 TRS/CSI-RS occasion(s) for idle/inactive UEs TCL Communication Ltd.
R1-2100592 On TRS/CSI-RS occasion(s) for idle/inactive mode UE power saving MediaTek Inc.
R1-2100663 TRS/CSI-RS functionality during idle/inactive mode Intel Corporation
R1-2100814 Consideration on TRS/CSI-RS occasion(s) for idle/inactive UEs Spreadtrum Communications
R1-2100867 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Sony
R1-2100904 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs LG Electronics
R1-2100999 Provision of TRS/CSI-RS for idle/inactive UEs Lenovo, Motorola Mobility
R1-2101053 Discussion on TRS/CSI-RS occasion(s) for IDLE/INACTIVE-mode UEs CMCC
R1-2101126 On TRS/CSI-RS occasion(s) for idle/inactive UEs Xiaomi
R1-2101219 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Samsung
R1-2101301 Potential enhancements for TRS/CSI-RS occasion(s) for idle/inactive UEs Panasonic
R1-2101393 Indication of TRS/CSI-RS for idle/inactive-mode UE power saving Apple
R1-2101475 TRS/CSI-RS for idle/inactive UE power saving Qualcomm Incorporated
R1-2101504 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs InterDigital, Inc.
R1-2101544 On TRS/CSI-RS occasions for idle/inactive UEs Sharp
R1-2101556 Provisioning of TRS occasions to Idle/Inactive UEs Ericsson
R1-2101623 Discussion on TRS/CSI-RS occasion for idle/inactive UEs NTT DOCOMO, INC.
R1-2101665 On RS information to IDLE/Inactive mode Ues Nokia, Nokia Shanghai Bell
[104-e-NR-R17-PowSav-02] – Qiongjie (Samsung)
Email discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs
- 1st check point: Jan 28
- 2nd check point: Feb 2
- 3rd check point: Feb 4
R1-2101218 Moderator summary for TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
Decision: As per email posted on Jan 29th,
Agreements:
Configuration of TRS/CSI-RS occasion(s) for idle/inactive Ues include at least:
· powerControlOffsetSS,
· scramblingID
· firstOFDMSymbolInTimeDomain,
· startingRB.
· nrofRBs,
· FFS other parameters
· FFS applicable values
Agreements:
The SCS configuration of TRS/CSI-RS occasion(s) for idle/inactive UEs can be discussed and down-selected from following alternatives at RAN1#104b-e:
· Alt1: same as initial BWP
· Alt2: configurable parameter
Agreements:
Multiple RS resources can be configured for TRS/CSI-RS occasion(s) for idle/inactive UEs.
· FFS details (including whether or not to restrict the RS to be TRS only)
Decision: As per email posted on Jan 31st,
Agreements:
For a cell with TRS/CSI-RS occasions configured for IDLE/Inactive UEs, IDLE/Inactive UE’s assumption on the availability of TRS/CSI-RS at the configured occasion(s) is informed to the idle/inactive UE based on explicit indication.
· FFS details (e.g., the signalling, detailed information for the TRS/CSI-RS, etc.)
· There is no intended blind detection of the presence/absence of TRS/CSI-RS at the UE side in this feature. That is, the UE assumes TRS/CSI-RS is not present if the network does not indicate it is available (or indicates it is unavailable).
Conclusion
From RAN1 perspective, there is no consensus on supporting RRM measurement for serving cell functionality for TRS/CSI-RS occasion(s) for idles/inactive UEs.
Agreements:
The configuration of the frequency location of TRS/CSI-RS occasion(s) for idle/inactive UEs are discussed and down-selected from following alternatives at RAN1#104bis-e:
Decision: As per email posted on Feb 4th,
Agreements:
To study QCL information of TRS/CSI-RS occasion(s) for idle/inactive UEs from following alternatives:
Conclusion:
Decide at RAN1#104b-e, whether or not to support periodic CSI-RS in addition to periodic TRS for TRS/CSI-RS occasion(s) for idle/inactive UEs.
R1-2100394 Details of PEI configuration CATT
R1-2100454 Discussion on paging grouping vivo
R1-2100525 Additional simulation results of UE power consumption in RRC idle and inactive state ZTE , Sanechips
R1-2101557 Modeling of Network Power Consumption Ericsson
R1-2101740 Analysis on power consumption for IDLE mode UE Huawei, HiSilicon
R1-2100170 DCI-based power saving adaptation solutions OPPO
R1-2100218 Extension(s) to Rel-16 DCI-based power saving adaptation for an active BWP Huawei, HiSilicon
R1-2100395 PDCCH monitoring adaptation CATT
R1-2100455 Discussion on DCI-based power saving adaptation in connected mode vivo
R1-2100498 Extension to Rel-16 DCI-based power sabing adaptation during DRX Active Time GDCNI
R1-2100526 Extension to Rel-16 DCI-based power saving adaptation during DRX Active Time ZTE , Sanechips
R1-2100593 On enhancements to DCI-based UE power saving during DRX active time MediaTek Inc.
R1-2100664 Discussion on PDCCH monitoring reduction techniques during active time Intel Corporation
R1-2100815 Discussion on power saving techniques for connected-mode UEs Spreadtrum Communications
R1-2100905 Discussion on DCI-based power saving adaptation during DRX ActiveTime LG Electronics
R1-2100980 Discussion on extension(s) to Rel-16 DCI-based power saving adaptation Asia Pacific Telecom, FGI
R1-2101000 Enhanced DCI based power saving adaptation Lenovo, Motorola Mobility
R1-2101054 Discussion on PDCCH monitoring reduction during DRX active time CMCC
R1-2101220 Discussion on DCI-based power saving techniques Samsung
R1-2101285 DCI-based Power Saving Enhancements Fraunhofer HHI, Fraunhofer IIS
R1-2101302 Potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime Panasonic
R1-2101394 Enhanced DCI-based power saving adaptation Apple
R1-2101476 DCI-based power saving adaptation during DRX ActiveTime Qualcomm Incorporated
R1-2101505 PDCCH monitoring reduction in Active Time InterDigital, Inc.
R1-2101558 Design of active time power savings mechanisms Ericsson
R1-2101567 Power saving adaptation during Active Time ASUSTeK
R1-2101624 Discussion on extension to DCI-based power saving adaptation NTT DOCOMO, INC.
R1-2101666 UE power saving enhancements for Active Time Nokia, Nokia Shanghai Bell
[104-e-NR-R17-PowSav-03] – Xiaodong (vivo)
Email discussion on potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime
- 1st check point: Jan 28
- 2nd check point: Feb 2
- 3rd check point: Feb 4
R1-2101893 FL summary#1 of power saving for Active Time Moderator (vivo)
Agreements:
· Strive for a common design for DCI based PDCCH monitoring adaptation in active time for an active BWP to support functionalities inclusive of both SSSG switching and PDCCH skipping for a duration.
o Details FFS
Agreements:
· Further study whether and how to minimize the impact to data scheduling for new transmissions and retransmissions.
o FFS details
· Further study the application delay for PDCCH adaptation indication
Agreements:
· For DCI based PDCCH skipping in active time for an active BWP (if supported), the following can be further considered,
o Explicit indication of PDCCH adaptation
§ Scheduling DCI
· Format 1_1
· Format 0_1
· Format 0_2/1_2
§ Non-scheduling DCI
· Format 2_6 in active time
· Format 2_0
· Format 1_1 (SCell dormancy case 2)
§ additional indication mechanism
· By reusing Rel-16 SCell dormancy indication when CA is configured, FFS details
· By reusing Rel-16 cross-slot scheduling indication when R16 cross-slot scheduling is configured, FFS details
o DCI dynamically indicates a duration/periodic interval for skipping
§ FFS: how to indicate the duration/period interval, e.g., number of slots or skipping current DRX
o PDCCH skipping for a duration indicated by minimum scheduling offset
o Others are not precluded
Agreements
· For DCI based SSSG switching in active time for an active BWP (if supported), the following can be further considered,
o Explicit indication of PDCCH adaptation
§ Scheduling DCI based
· Format 1_1,
· Format 0_1,
· Format 0_2/1_2
·
Format 1_0
§ Non-scheduling DCI
· Format 2_6 in active time
· Format 2_0
·
Format 1_0
· Format 1_1 (SCell dormancy case 2)
§ additional indication mechanism
· By reusing Rel-16 SCell dormancy indication when CA is configured, FFS details
· By associating Rel-16 cross-slot scheduling indication when R16 cross-slot scheduling is configured, FFS details
§ DCI dynamically indicates a duration for the switched SSSG, UE switch back to previous/default SSSG after duration ends
o Timer-based SSSG switching, including RRC configured a timer, UE switch back after timer expired.
o SSSG activation/deactivation
o FFS: Implicit SSSG switching
§ SSSG switching triggered by SR
§ SSSG switching triggered by RACH
§ Default SSSG that a UE monitors when coming out of DRX to monitor an ON duration.
· FFS: whether/how to support SSSG switching for multiple groups of cell(s).
· FFS: whether/how to support SSSG switching in active time with DCP outside active time
· FFS: whether / how to support more than 2 SSSGs,
o FFS: number of SSSGs
· FFS: a search space set group to emulate PDCCH skipping
· Others are not precluded
Decision: As per email posted on Feb 5th,
Agreements:
Final summary in R1-2101894.
R1-2100171 Discussion on RLM relaxation OPPO
R1-2100396 System overhead analysis of PEI and TRS/CSI-RS for IDLE mode UE CATT
R1-2100456 Discussion on RLM/BFD/RRM relaxation vivo
R1-2100527 Further discussion on potential power saving schemes for RRC connected UEs ZTE , Sanechips
R1-2100816 Discussion on other power saving techniques Spreadtrum Communications
R1-2101257 Other considerations on power saving in Rel-17 Huawei, HiSilicon
R1-2101559 Evaluation results for UE power saving schemes Ericsson
R1-2101720 Paging indication based on sub-time units InterDigital, Inc.
Please refer to RP-200938 for detailed scope of the WI
//Handled under NWM – See RAN1-104b-e-NWM-NR-R17-PowSav-01 as the document name
R1-2102316 Paging enhancements for UE power saving in IDLE/inactive mode Huawei, HiSilicon
R1-2102405 Further discussion on Paging enhancements for power saving OPPO
R1-2102463 Discussion on potential paging enhancements Spreadtrum Communications
R1-2102532 Paging enhancements for idle/inactive mode UE power saving vivo
R1-2102565 Discussion on power saving enhancements for paging ZTE,Sanechips
R1-2102641 Paging enhancement for UE power saving CATT
R1-2102681 On paging enhancements for idle/inactive mode UE power saving MediaTek Inc.
R1-2102805 On paging enhancement Panasonic
R1-2102892 Discussion on paging early indication design CMCC
R1-2103768 Paging enhancement for power saving Xiaomi (rev of R1-2102991)
R1-2103041 On Paging Enhancements for UE Power Saving Intel Corporation
R1-2103115 Paging early indication for idle/inactive-mode UE Apple
R1-2103177 Paging enhancements for idle/inactive UE power saving Qualcomm Incorporated
R1-2103249 Discussion on paging enhancements Samsung
R1-2103310 Discussion on potential paging enhancements Sony
R1-2103355 Discussion on potential paging enhancements LG Electronics
R1-2103405 On paging enhancements for UE power saving Nokia, Nokia Shanghai Bell
R1-2103424 Paging enhancements for UE power saving InterDigital, Inc.
R1-2103586 Discussion on paging enhancements NTT DOCOMO, INC.
R1-2103614 Paging enhancement for UE power saving Lenovo, Motorola Mobility
R1-2103642 Design of Paging Enhancements Ericsson
R1-2103653 On paging early indication Nordic Semiconductor ASA
[104b-e-NR-R17-PowSav-01] – Weide (MediaTek)
Email discussion on potential paging enhancements
- 1st check point: 4/15
- 2nd check point: 4/19
- 3rd check point: 4/20
R1-2103848 Summary of paging enhancements Moderator (MediaTek)
Agreement:
Observation 1a:
For the evaluation and comparison of PEI candidate designs, the following observations for coexistence with legacy PDSCH are identified:
a) For coexistence with legacy PDSCH, semi-static resouce sharing by configuring RB-symbol-level or RE-level rate-matching patterns covering PEI REs is supported for all PEI candidate designs.
b) For coexistence with legacy PDSCH, dynamic resource sharing can be realized for all PEI candidates if PDSCH is scheduled by DCI format 1_1
o For PDCCH based PEI, CORESET-level rate matching can be realized for the PDSCH as per mandatory capability
o For SSS-based PEI, CORESET-level rate matching may be realized for the PDSCH as per mandatory capability, depending on the design of SSS-based PEI and UE capability regarding number of supported CORESETs
o For TRS/CSI-RS based PEI, RE-level rate matching can be realized for the PDSCH as per mandatory capability
o When PDSCH is not scheduled by DCI format 1_1, it is up to gNB implementation whether and how PEI is transmitted in PDSCH resource
Observation 2a:
For the evaluation and comparison of PEI candidate designs, the following summarize the identified configurations of PEI candidate designs, including pairs of the minimum required resource and maximum UE (sub)group indication capacity per PEI, that can comply with the mandatory performance metrics agreed in RAN1 #104-e:
· If Behv-A is assumed,
|
Paging Setting |
PEI candidate design |
Physical-layer configuration and resource |
UE (sub)group indication capcity |
Number of companies providing performance results |
|
PDSCH:
MCS0, TB scaling 1.0 |
PDCCH-based PEI |
AL4 PDCCH with 12-bit payload, occupying 288 REs |
12 bits |
5 |
|
AL8 PDCCH with 12-bit payload, occupying 576 REs |
12 bits |
7 |
||
|
AL8 PDCCH with 41-bit payload, occupies 576 REs |
41 bits |
1 (CATT) |
||
|
SSS-based PEI |
1-symbol
SSS, occupying 132 REs |
3 bits |
1 (IDCC) |
|
|
2-symbol
SSS, occupying 264 REs |
1 bit |
6 |
||
|
3 bits |
1 (IDCC) |
|||
|
3-symbol
SSS, occupying 396 REs |
4 bits |
1 (MTK) |
||
|
TRS/CSI-RS-based PEI |
1-slot 24-RB TRS, occupying 144 REs (24 RB x 3 REs per RB x 2 symbols) |
≥ 8 bits |
1 (Intel) |
|
|
1-slot 28-RB TRS, occupying 168 REs (28 RB x 3 REs per RB x 2 symbols) |
1 bit |
1 (HW/HiSi) |
||
|
1-slot 36-RB TRS, occupying 216 REs (36 RB x 3 REs per RB x 2 symbols) |
1 bit |
1 (Samsung) |
||
|
1-slot 48-RB TRS, occupying 288 REs (48 RB x 3 REs per RB x 2 symbols) |
1 bit |
3 |
||
|
6 bits |
1 (CATT) |
|||
|
1-slot 50-RB TRS, occupying 300 REs (50 RB x 3 REs per RB x 2 symbols) |
1 bit |
2 |
||
|
4 bits |
1 (MTK) |
|||
|
|
||||
|
PDSCH:
MCS0, TB scaling 0.5; |
PDCCH-based PEI |
AL8 PDCCH with 12-bit payload, occupying 576 REs |
12 bits |
4 |
|
SSS-based PEI |
3-symbol
SSS, occupying 396 REs |
4 bits |
1 (MTK) |
|
|
TRS/CSI-RS-based PEI |
1-slot 24-RB TRS, occupying 144 REs (24 RB x 3 REs per RB x 2 symbols) |
3 bits |
1 (Intel) |
|
|
1-slot 36-RB TRS, occupying 216 REs (36 RB x 3 REs per RB x 2 symbols) |
8 bits |
1 (Intel) |
||
|
1-slot 50-RB TRS, occupying 300 REs (50 RB x 3 REs per RB x 2 symbols) |
1 bit |
1 (OPPO) |
||
|
4 bits |
1 (MTK) |
|||
· If Behv-B is assumed,
|
Paging Setting |
PEI candidate design |
Physical-layer configuration |
UE (sub)group indication capcity |
Number of companies providing performance results |
|
PDSCH:
MCS0, TB scaling 1.0 |
PDCCH-based PEI |
AL4 PDCCH with 12-bit payload, occupying 288 REs |
12 bits |
4 |
|
AL8 PDCCH with 12-bit payload, occupying 576 REs |
12 bits |
2
|
||
|
SSS-based PEI |
2-symbol
SSS, occupying 264 REs |
1 bit |
3
|
|
|
3-symbol
SSS, occupying 396 REs |
1 bit |
1 (MTK) |
||
|
TRS/CSI-RS-based PEI |
1-slot 28-RB TRS, occupying 168 REs (28 RB x 3 REs per RB x 2 symbols) |
1 bit |
1 (HW/HiSi) |
|
|
1-slot 48-RB TRS, occupying 288 REs (48 RB x 3 REs per RB x 2 symbols) |
1 bit |
2 (vivo, ZTE) |
||
|
6 bits |
1 (CATT) |
|||
|
1-slot 50-RB TRS, occupying 300 REs (50 RB x 3 REs per RB x 2 symbols) |
1 bit |
1 (OPPO) |
||
|
2 bits |
1 (MTK) |
|||
|
|
||||
|
PDSCH:
MCS0, TB scaling 0.5 |
PDCCH-based PEI |
AL8 PDCCH with 12-bit payload, occupying 576 REs |
12 bits |
3
|
|
SSS-based PEI |
3-symbol
SSS, occupying 396 REs |
1 bit |
1 (MTK) |
|
|
TRS/CSI-RS-based PEI |
1-slot 50-RB TRS, occupying 300 REs (50 RB x 3 REs per RB x 2 symbols) |
1 bit |
1 (OPPO) |
|
|
2 bits |
1 (MTK) |
|||
Observation 3a:
For the evaluation and comparison of PEI candidate designs, the following summarize average resource overheads per PO for PEI candidate designs, considering the configurations identified from performance observation.
· The average overhead results are based on PO settings without impact from UE sub-grouping indication within the PO.
· Note: For comparison purpose, single-beam transmission for PEI is assumed, and results with multi-beam transmission for PEI is scaled. This doesn’t preclude any beam-forming related design for PEI.
· If Behv-A is assumed:
|
Paging Setting |
PEI candidate design |
Physical-layer configuration and resource |
UE (sub)group indication capacity |
Number of companies providing performance results |
Average resource overhead per PO (REs) |
PO and PEI related assumptions |
Resource sharing assumption |
|||||
|
PDSCH:
MCS0, TB scaling 1.0 |
PDCCH-based PEI |
AL4 PDCCH with 12-bit payload, occupying 288 REs |
12 bits |
5 |
17.2 |
OPPO |
1 PEI for up to 12 PO's |
PEI is transmitted as a Rel-15 PDCCH in a CORESET when a UE group is paged |
||||
|
17.2 |
ZTE |
1 PEI for up to 12 PO's |
||||||||||
|
17.6 |
HW/HiSi |
1 PEI for up to 12 PO's |
||||||||||
|
21.8 |
MTK |
1 PEI for up to 12 PO's; averaged all PO settings for 1.28-sec cycle |
||||||||||
|
28.8 |
CATT |
1 PEI for 1 PO |
Dynamic rate-matching in PDSCH |
|||||||||
|
288.0 |
CATT |
1 PEI for 1 PO |
Semi-static rate-matching in PDSCH |
|||||||||
|
AL8 PDCCH with 12-bit payload, occupying 576 REs |
12 bits |
7 |
49.5 |
vivo |
1 PEI for 4 PO |
PEI is transmitted as a Rel-15 PDCCH in a CORESET when a UE group is paged |
||||||
|
57.6 |
vivo |
1 PEI for 1 PO |
||||||||||
|
57.6 |
QC |
1 PEI for 1 PO |
||||||||||
|
57.6 |
Samsung |
1 PEI for 1
PO; |
||||||||||
|
AL8 PDCCH with 41-bit payload, occupies 576 REs |
41 bits |
1 (CATT) |
57.6 |
CATT |
1 PEI for 1 PO |
Dynamic rate-matching in PDSCH |
||||||
|
576.0 |
CATT |
1 PEI for 1 PO |
Semi-static rate-matching in PDSCH |
|||||||||
|
SSS-based PEI |
1-symbol
SSS, occupying 132 REs |
3 bits |
1 (IDCC) |
|
|
|
|
|||||
|
2-symbol
SSS, occupying 264 REs |
1 bit |
6 |
25.4 |
Samsung |
1 PEI for 1
PO; |
Dynamic rate-matching in PDSCH |
||||||
|
25.4 |
vivo |
1 PEI for 1 PO |
||||||||||
|
26.4 |
ZTE |
1 PEI for 1 PO |
||||||||||
|
28.8 |
CATT |
1 PEI for 1 PO |
||||||||||
|
28.8 |
QC |
1 PEI for 1 PO |
||||||||||
|
254.0 |
HW/HiSi |
1 PEI for 1 PO |
Semi-static rate-matching in PDSCH |
|||||||||
|
264.0 |
ZTE |
1 PEI for 1 PO |
||||||||||
|
288.0 |
QC |
1 PEI for 1 PO |
||||||||||
|
3 bits |
1 (IDCC) |
|
|
|
|
|||||||
|
3-symbol
SSS, occupying 396 REs |
4 bits |
1 (MTK) |
34.0 |
MTK |
1 PEI for up to 4 PO's; averaged all PO settings for 1.28-sec cycle |
Dynamic rate-matching in PDSCH |
||||||
|
437.0 |
MTK |
1 PEI for up to 4 PO's; averaged all PO settings for 1.28-sec cycle; RB-symbol rate-matching pattern period up to 40 ms |
Semi-static rate-matching in PDSCH |
|||||||||
|
TRS/CSI-RS-based PEI |
1-slot 24-RB TRS, occupying 144 REs (24 RB x 3 REs per RB x 2 symbols) |
≥ 8 bits |
1 (Intel) |
14.4 |
Intel |
1 PEI for 1 PO |
Dynamic rate-matching in PDSCH |
|||||
|
1-slot 28-RB TRS, occupying 168 REs (28 RB x 3 REs per RB x 2 symbols) |
1 bit |
1 (HW/HiSi) |
123.4 |
HW/HiSi |
1 PEI for 1 PO |
Dynamic rate-matching in PDSCH |
||||||
|
168.0 |
HW/HiSi |
1 PEI for 1 PO |
Semi-static rate-matching in PDSCH |
|||||||||
|
1-slot 36-RB TRS, occupying 216 REs (36 RB x 3 REs per RB x 2 symbols) |
1 bit |
1 (Samsung) |
21.6 |
Samsung |
1 PEI for 1
PO; |
Dynamic rate-matching in PDSCH |
||||||
|
1-slot 48-RB TRS, occupying 288 REs (48 RB x 3 REs per RB x 2 symbols) |
1 bit |
3 |
28.8 |
vivo |
1 PEI for 1 PO |
Dynamic rate-matching in PDSCH |
||||||
|
28.8 |
ZTE |
1 PEI for 1 PO |
||||||||||
|
1-slot 48-RB TRS, occupying 288 REs (48 RB x 3 REs per RB x 2 symbols) |
6 bits |
1 (CATT) |
28.8 |
CATT |
1 PEI for 1 PO |
Dynamic rate-matching in PDSCH |
||||||
|
288.0 |
CATT |
1 PEI for 1 PO |
Semi-static rate-matching in PDSCH |
|||||||||
|
1-slot 50-RB TRS, occupying 300 REs (50 RB x 3 REs per RB x 2 symbols) |
1 bit |
2 |
30.0 |
OPPO |
1 PEI for 1 PO |
Dynamic rate-matching in PDSCH |
||||||
|
30.0 |
QC |
1 PEI for 1 PO |
||||||||||
|
300.0 |
QC |
1 PEI for 1 PO |
Semi-static rate-matching in PDSCH |
|||||||||
|
4 bits |
1 (MTK) |
26.0 |
MTK |
1 PEI for up to 4 PO's |
Dynamic rate-matching in PDSCH |
|||||||
|
|
||||||||||||
|
PDSCH:
MCS0, TB scaling 0.5; |
PDCCH-based PEI |
AL8 PDCCH with 12-bit payload, occupying 576 REs |
12 bits |
4 |
34.4 |
OPPO |
1 PEI for up to 12 PO's |
PEI is transmitted as a Rel-15 PDCCH in a CORESET when a UE group is paged |
||||
|
43.6 |
MTK |
1 PEI for up to 12 PO's; averaged all PO settings for 1.28-sec cycle |
||||||||||
|
57.6 |
Intel |
1 PEI for 1 PO |
PEI is transmitted as a Rel-15 PDCCH in a CORESET when a UE group is paged |
|||||||||
|
SSS-based PEI |
3-symbol
SSS, occupying 396 REs |
4 bits |
1 (MTK) |
34.0 |
MTK |
1 PEI for up to 4 PO's; averaged all PO settings for 1.28-sec cycle |
Dynamic rate-matching in PDSCH |
|||||
|
437.0 |
MTK |
1 PEI for up to 4 PO's; averaged all PO settings for 1.28-sec cycle; RB-symbol rate-matching pattern period up to 40 ms |
Semi-static rate-matching in PDSCH |
|||||||||
|
TRS/CSI-RS-based PEI |
1-slot 24-RB TRS, occupying 144 REs (24 RB x 3 REs per RB x 2 symbols) |
3 bits |
1 (Intel) |
14.4 |
Intel |
1 PEI for 1 PO |
Dynamic rate-matching in PDSCH |
|||||
|
1-slot 36-RB TRS, occupying 216 REs (36 RB x 3 REs per RB x 2 symbols) |
8 bits |
1 (Intel) |
21.6 |
Intel |
1 PEI for 1 PO |
Dynamic rate-matching in PDSCH |
||||||
|
1-slot 50-RB TRS, occupying 300 REs (50 RB x 3 REs per RB x 2 symbols) |
1 bit |
1 (OPPO) |
30.0 |
OPPO |
1 PEI for 1 PO |
Dynamic rate-matching in PDSCH |
||||||
|
4 bits |
1 (MTK) |
26.0 |
MTK |
1 PEI for up to 4 PO's; averaged all PO settings for 1.28-sec cycle |
Dynamic rate-matching in PDSCH |
|||||||
· If Behv-B is assumed:
|
Paging Setting |
PEI candidate design |
Physical-layer configuration |
UE (sub)group indication capacity |
Number of companies providing performance results |
Average resource overhead per PO (REs) |
PO and PEI related assumptions |
Coexistence assumption |
|
|
PDSCH:
MCS0, TB scaling 1.0 |
PDCCH-based PEI |
AL4 PDCCH with 12-bit payload, occupying 288 REs |
12 bits |
4 |
24.0 |
HW/HiSi |
1 PEI for up to 12 PO's |
PEI is ALWAYS transmitted as a Rel-15 PDCCH in a CORESET |
|
24.0 |
OPPO |
1 PEI for up to 12 PO's |
||||||
|
24.0 |
ZTE |
1 PEI for up to 12 PO's |
||||||
|
51.0 |
MTK |
1 PEI for up to 12 PO's; averaged all PO settings for 1.28-sec cycle |
||||||
|
AL8 PDCCH with 12-bit payload, occupying 576 REs |
12 bits |
2 |
518.4 |
vivo |
1 PEI for 1 PO |
PEI is ALWAYS transmitted as a Rel-15 PDCCH in a CORESET |
||
|
518.4 |
Samsung |
1 PEI for 1
PO; |
||||||
|
SSS-based PEI |
2-symbol
SSS, occupying 264 REs |
1 bit |
3 |
228.6 |
vivo |
1 PEI for 1 PO |
Dynamic rate-matching in PDSCH |
|
|
228.6 |
ZTE |
1 PEI for 1 PO |
||||||
|
254.0 |
HW/HiSi |
1 PEI for 1 PO |
Semi-static rate-matching in PDSCH |
|||||
|
264.0 |
ZTE |
1 PEI for 1 PO |
||||||
|
3-symbol
SSS, occupying 396 REs |
1 bit |
1 (MTK) |
561.0 |
MTK |
1 PEI for 1
PO; |
Semi-static rate-matching in PDSCH |
||
|
TRS/CSI-RS-based PEI |
1-slot 28-RB TRS, occupying 168 REs (28 RB x 3 REs per RB x 2 symbols) |
1 bit |
1 (HW/HiSi) |
168.0 |
HW/HiSi |
1 PEI for 1 PO |
Semi-static rate-matching in PDSCH |
|
|
1-slot 48-RB TRS, occupying 288 REs (48 RB x 3 REs per RB x 2 symbols) |
1 bit |
2 |
259.2 |
ZTE |
1 PEI for 1 PO |
Dynamic rate-matching in PDSCH |
||
|
259.2 |
vivo |
1 PEI for 1 PO |
||||||
|
6 bits |
1 (CATT) |
288.0 |
CATT |
1 PEI for 1 PO |
Semi-static rate-matching in PDSCH |
|||
|
1-slot 50-RB TRS, occupying 300 REs (50 RB x 3 REs per RB x 2 symbols) |
1 bit |
1 (OPPO) |
279.0 |
OPPO |
1 PEI for 1 PO |
Semi-static rate-matching in PDSCH |
||
|
2 bits |
1 (MTK) |
150.0 |
MTK |
1 PEI for 2 PO's |
Semi-static rate-matching in PDSCH |
|||
|
|
||||||||
|
PDSCH:
MCS0, TB scaling 0.5 |
PDCCH-based PEI |
AL8 PDCCH with 12-bit payload, occupying 576 REs |
12 bits |
3 |
48.0 |
OPPO |
1 PEI for up to 12 POs |
PEI is ALWAYS transmitted as a Rel-15 PDCCH in a CORESET |
|
102.0 |
MTK |
1 PEI for up to 12 POs |
||||||
|
SSS-based PEI |
3-symbol
SSS, occupying 396 REs |
1 bit |
1 (MTK) |
561.0 |
MTK |
1 PEI for 1
PO; |
Semi-static rate-matching in PDSCH |
|
|
TRS/CSI-RS-based PEI |
1-slot 50-RB TRS, occupying 300 REs (50 RB x 3 REs per RB x 2 symbols) |
1 bit |
1 (OPPO) |
270.0 |
OPPO |
1 PEI for 1 PO |
Semi-static rate-matching in PDSCH |
|
|
2 bits |
1 (MTK) |
150.0 |
MTK |
1 PEI for 2 PO's |
Semi-static rate-matching in PDSCH |
|||
R1-2102317 Assistance RS occasions for IDLE/inactive mode Huawei, HiSilicon
R1-2102406 Further discussion on RS occasion for idle/inactive UEs OPPO
R1-2102464 Consideration on TRS/CSI-RS occasion(s) for idle/inactive UEs Spreadtrum Communications
R1-2102478 TRS/CSI-RS occasions for idle/inactive UE TCL Communication Ltd.
R1-2102533 TRS/CSI-RS occasion(s) for idle/inactive UEs vivo
R1-2102566 TRS for RRC idle and inactive UEs ZTE,Sanechips
R1-2102642 Configuration of TRS/CSI-RS for paging enhancement CATT
R1-2102682 On TRS/CSI-RS occasion(s) for idle/inactive mode UE power saving MediaTek Inc.
R1-2102806 Potential enhancements for TRS/CSI-RS occasion(s) for idle/inactive UEs Panasonic
R1-2102893 Discussion on TRS/CSI-RS occasion(s) for IDLE/INACTIVE-mode UEs CMCC
R1-2102992 On TRS/CSI-RS configuration and indication for idle/inactive UEs Xiaomi
R1-2103042 TRS/CSI-RS functionality during idle/inactive mode Intel Corporation
R1-2103116 Indication of TRS/CSI-RS for idle/inactive-mode UE power saving Apple
R1-2103178 TRS/CSI-RS for idle/inactive UE power saving Qualcomm Incorporated
R1-2103250 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Samsung
R1-2103311 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Sony
R1-2103356 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs LG Electronics
R1-2103406 On RS information to IDLE/Inactive mode Ues Nokia, Nokia Shanghai Bell
R1-2103425 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs InterDigital, Inc.
R1-2103479 On TRS/CSI-RS occasions for idle/inactive UEs Sharp
R1-2103587 Discussion on TRS/CSI-RS occasion for idle/inactive Ues NTT DOCOMO, INC.
R1-2103615 Provision of TRS/CSI-RS for idle/inactive UEs Lenovo, Motorola Mobility
R1-2103643 Provisioning of TRS occasions to Idle/Inactive UEs Ericsson
R1-2103654 On TRS design for idle/inactive UEs Nordic Semiconductor ASA
[104b-e-NR-R17-PowSav-02] – Qiongjie (Samsung)
Email discussion on TRS/CSI-RS occasions(s) for idle/inactive UEs
- 1st check point: 4/15
- 2nd check point: 4/19
- 3rd check point: 4/20
R1-2103251 Moderator summary for TRS/CSI-RS occasion(s) for idle/inactive Ues Moderator (Samsung)
Agreement:
SCS of TRS/CSI-RS occasion(s) for idle/inactive UEs is same as SCS of CORESET#0.
Agreement:
Support higher layer configuration of the QCL information of TRS/CSI-RS occasion(s) for idle/inactive UEs.
· FFS details of the QCL information, e.g. associated SSB index
Agreement:
IDLE/INACTIVE mode UE is not expected to receive TRS/CSI-RS outside the initial DL BWP.
· Configuration of the frequency location of TRS/CSI-RS occasion(s) for idle/inactive UEs is not restricted by initial BWP.
Working assumption:
Support at least L1 based signaling for the availability indication of TRS/CSI-RS at the configured occasion(s) to the idle/inactive UEs.
· FFS details, including paging DCI and/or PEI for L1 based signaling
· FFS SIB-based signaling/configuration
Agreement:
Configuration for TRS/CSI-RS occasion(s) for idle/inactive UEs is based on periodic TRS only, including following limitations
· Configuration parameters that are necessary to provide configuration of periodic TRS for idle/inactive UEs
· Applicable values that are necessary to provide configuration of periodic TRS for idle/inactive UEs
· If the configuration is provided, idle/inactive UEs can always implicitly assume that trs-info is configured.
o The parameter trs-info does not need to be provided in the configuration
Agreement:
For the information provided by a physical layer availability indication of TRS/CSI-RS at the configured occasion(s) to the idle/inactive UEs, one or more alternatives from the following can be supported:
R1-2104115 Final summary for TRS/CSI-RS occasion(s) for idle/inactive Ues Moderator (Samsung)
R1-2102407 Paging and TRS indication in idle/inactive modes OPPO
R1-2102534 Discussion on paging grouping vivo
R1-2102567 Additional simulation results of UE power consumption in RRC idle and inactive state ZTE,Sanechips
R1-2102643 Details of PEI configuration CATT
R1-2103389 Analysis on power consumption for IDLE mode and RedCap Huawei, HiSilicon
R1-2103426 Paging indication based on sub-time units InterDigital, Inc.
R1-2103644 Modeling of Network Power Consumption Ericsson
Void (not be handled during this e-meeting). No contributions please.
The following is withdrawn.
R1-2103634 Discussion on DCI-based power saving adaptation ITRI
Void (not be handled during this e-meeting). No contributions please.
Please refer to RP-200938 for detailed scope of the WI
R1-2104221 Discussion on power saving enhancements for paging ZTE, Sanechips
R1-2104251 Paging enhancements for UE power saving in IDLE/inactive mode Huawei, HiSilicon
R1-2106011 Paging enhancements for idle/inactive mode UE power saving vivo (rev of R1-2104371)
R1-2104432 Discussion on potential paging enhancements for UE Power Saving Spreadtrum Communications
R1-2104532 Paging enhancement for UE power saving CATT
R1-2104622 Discussion on paging early indication design CMCC
R1-2104682 Paging enhancements for idle/inactive UE power saving Qualcomm Incorporated
R1-2104787 Further discussion on Paging enhancements for power saving OPPO
R1-2104916 On Paging Enhancements for UE Power Saving Intel Corporation
R1-2105116 Paging early indication for idle/inactive-mode UE Apple
R1-2105174 Considerations on potential paging enhancements Sony
R1-2105321 Discussion on paging enhancements Samsung
R1-2105386 On Paging Enhancements for Idle/Inactive Mode UE Power Saving MediaTek Inc.
R1-2105434 Discussion on potential paging enhancements LG Electronics
R1-2105474 On paging enhancement Panasonic
R1-2105504 On paging enhancements for UE power saving Nokia, Nokia Shanghai Bell
R1-2105573 Paging enhancements for power saving Xiaomi
R1-2105708 Discussion on paging enhancements NTT DOCOMO, INC.
R1-2105742 Paging enhancements for UE power saving InterDigital, Inc.
R1-2105770 Paging enhancement for UE power saving Lenovo, Motorola Mobility
R1-2105791 Design of Paging Enhancements Ericsson
R1-2105886 On paging early indication Nordic Semiconductor ASA
[105-e-NR-R17-PowSav-01] – Weide (MediaTek)
Email discussion regarding potential paging enhancements
R1-2106076 Summary of paging enhancements Moderator (MediaTek)
Agreement:
For UE subgroups indication in physical layer, maximum of 8 subgroups per PO is supported.
Conclusion:
To down-select one solution for PEI physical-layer channel/signal in RAN1 #106-e, using below as a starting point:
· PDCCH-based PEI
· SSS-based PEI
· TRS/CSI-RS-based PEI
Note: Additional details for each of the above 3 solutions are encouraged for more informed down-selection
Note: further refinement of the above list is possible, e.g., by merging/further splitting, depending on significance of the commonality and/or differences
Agreement:
Observation:
Dynamically sharing PDCCH resources of Rel-15 UEs (whether or not this is an important aspect to consider for PEI is FFS)
Ÿ For PDCCH-based PEI,
o PEI can dynamically share resources with PDCCH for Rel-15 UEs within a PDCCH CORESET at granularity of one or more candidates
§ Exact number of multiplexed/impacted Rel-15 PDCCH candidates depends on AL used for PDCCH-based PEI and relative size of PDCCH CORESET, etc.
Ÿ For SSS-based PEI and for the case of partial overlap of CORESET and PEI
o For interleaved CORESET (such as CORESET#0), SSS-based PEI can dynamically share resources with PDCCH for Rel-15 UEs only at CORESET-level granularity
o For non-interleaved CORESET, SSS-based PEI can dynamically share resources with PDCCH for Rel-15 UEs within a PDCCH CORESET at granularity of one or more candidates
§ Exact number of impacted Rel-15 PDCCH candidates depends on relative size and location of PDCCH CORESET, etc.
Ÿ For TRS/CSI-RS-based PEI and for the case of partial overlap of CORESET and PEI
o For interleaved CORESET (such as CORESET#0), TRS/CSI-RS-based PEI can dynamically share resources with PDCCH for Rel-15 UEs only at CORESET-level granularity
o For non-interleaved CORESET, TRS/CSI-RS-based can dynamically share resources with PDCCH for Rel-15 UEs within a PDCCH CORESET at candidate level granularity
§ Exact number of impacted Rel-15 PDCCH candidates depends on CSI-RS mapping pattern, relative size and location of PDCCH CORESET, etc.)
Agreement:
For paging indication to the subgroups in a PO,
Ÿ For PDCCH-based PEI, subgroups in a PO are indicated by one PEI
o One bit in the DCI payload indicating one UE subgroup is supported
§ FFS: Whether code-point based mapping is utilized, and, if so, how to map to the subgroups in a PO
Ÿ For SSS-based PEI, subgroups in a PO are indicated by a set of sequence realizations
o FFS: Sequence mapping design for supporting up to 8 subgroups per PO
o Physical-layer configuration(s) and sequence generation design are subject to no impact to initial access and RRM measurements of legacy UEs
Ÿ For TRS/CSI-RS-based PEI, subgroups in a PO can be indicated by the following alternatives
o Alt 1: One TRS sequence with orthogonal cover as PEI transmitted in the PEI monitoring occasion where one orthogonal cover of the PEI indicates one subgroup or combination of subgroups
§ FFS: Design details for the orthogonal cover
o Alt 2: A set of TRS sequences indicating the subgroups with one selected sequence transmitting in one TRS resource
§ FFS: Sequence mapping design for supporting up to 8 subgroups per PO and combination of subgroups
o Alt 3: Multiple TRS/CSI-RS resources FDMed/TDMed /CDMed in the same monitoring occasion where one TRS/CSI-RS resource indicates one subgroup
§ Reuse Rel-15/16 CSI-RS FDM/TDM/CDM patterns for supporting up to 8 subgroups per PO
Ÿ Note : It is RAN1 understanding that Physical-layer configuration(s) for paging early indication to the subgroups is subject to the same idle-mode reception bandwidth as CORESET-0 frequency span
Agreement
Observation:
For the comparison of PEI candidate designs, the following table summarizes average power saving gains based on companies contributions:
|
UE subgroups in a PO
|
PEI candidate type (PDCCH, SSS, TRS/CSI-RS) |
#SS burst(s) before PO in Rel-16 baseline |
PO paging rate |
Power Saving Gain |
Company |
Assumed #SS burst(s) before PEI |
Assumed #SS burst(s) between PEI and PO when UE is paged |
|
1 |
PDCCH |
1 |
10% |
8.95% |
Samsung |
1 |
0 |
|
10% |
11.09% |
QC |
1 |
0 |
|||
|
10% |
14.8% |
MTK |
1 |
0 |
|||
|
10% |
15.7% |
ZTE |
1 |
0 |
|||
|
10% |
|
Intel |
1 |
|
|||
|
40%-60% |
6.2% - 9.8% |
ZTE |
1 |
0 |
|||
|
2 |
10% |
2.16% |
Samsung |
2 |
0 |
||
|
10% |
5.0% |
QC |
1 |
1 |
|||
|
10% |
15.60% |
Intel |
2 |
0 |
|||
|
10% |
15.64% |
Samsung |
1 |
1 |
|||
|
10% |
19.5% |
MTK |
1 |
1 |
|||
|
10% |
22.5% |
ZTE |
1 |
1 |
|||
|
10% |
|
Intel |
1 |
1 |
|||
|
40%-60% |
9.3% - 14.4% |
ZTE |
1 |
1 |
|||
|
3 |
10% |
1.88% |
Samsung |
3 |
0 |
||
|
10% |
5.83% |
CATT |
3 |
0 |
|||
|
10% |
13.92% |
Intel |
3 |
0 |
|||
|
10% |
15.7% |
QC |
1 |
2 |
|||
|
10% |
25.5% |
MTK |
1 |
2 |
|||
|
10% |
25.33% |
Samsung |
1 |
2 |
|||
|
10% |
26.3% |
Apple |
1 |
2 |
|||
|
10% |
29.6% |
DoCoMo |
1 |
2 |
|||
|
10% |
31.4% |
ZTE |
1 |
2 |
|||
|
10% |
33% - 37% |
Ericsson |
1 |
2 |
|||
|
10% |
|
Intel |
1 |
2 |
|||
|
40%-60% |
12.5% |
DoCoMo |
1 |
2 |
|||
|
40%-60% |
13.2% - 20.3% |
ZTE |
1 |
2 |
|||
|
SSS or TRS/CSI-RS (same results) |
1 |
10% |
11.09% |
QC |
1 |
0 |
|
|
10% |
14.8% |
MTK |
1 |
0 |
|||
|
10% |
15.4% |
Samsung |
1 |
0 |
|||
|
10% |
15.7% |
ZTE |
1 |
0 |
|||
|
10% |
17.67% |
Intel |
1 |
0 |
|||
|
40%-60% |
6.2% - 9.8% |
ZTE |
1 |
0 |
|||
|
2 |
10% |
5.0% |
QC |
1 |
0 |
||
|
10% |
6.3% |
QC |
0 |
1 |
|||
|
10% |
20.49% |
Samsung |
1 |
0 |
|||
|
10% |
20.7% |
MTK |
1 |
0 |
|||
|
10% |
22.5% |
ZTE |
1 |
0 |
|||
|
10% |
27.33% |
Intel |
1 |
0 |
|||
|
40%-60% |
9.3% - 14.4% |
ZTE |
1 |
0 |
|||
|
3 |
10% |
15.7% |
QC |
1 |
0 |
||
|
10% |
17.8% |
QC |
0 |
1 |
|||
|
10% |
26.6% |
MTK |
1 |
1 |
|||
|
10% |
27.9% |
Apple |
1 |
0 |
|||
|
10% |
30.19% |
CATT |
1 |
0 |
|||
|
10% |
30.84% |
Samsung |
1 |
0 |
|||
|
10% |
31.4% |
ZTE |
1 |
2 |
|||
|
10% |
34.96% |
Intel |
1 |
0 |
|||
|
40%-60% |
13.2% - 20.3% |
ZTE |
1 |
2 |
|||
|
8 |
PDCCH |
1 |
10% |
11.31% |
Samsung |
1 |
0 |
|
10% |
11.9% |
CMCC |
1 |
0 |
|||
|
10% |
12.5% |
QC |
1 |
0 |
|||
|
10% |
18.0% |
MTK |
1 |
0 |
|||
|
20%-35% |
11.89% |
Samsung |
1 |
0 |
|||
|
20%-35% |
12.04% |
CMCC |
1 |
0 |
|||
|
20%-35% |
18.40% |
MTK |
1 |
0 |
|||
|
40%-60% |
19.20% - 20.00% |
MTK |
1 |
0 |
|||
|
2 |
10% |
6.3% |
QC |
1 |
1 |
||
|
10% |
20.36% - 31.70% |
HW |
1 |
1 |
|||
|
10% |
22.40% |
MTK |
1 |
1 |
|||
|
10% |
25.40% |
ZTE |
1 |
1 |
|||
|
20%-35% |
22.50% |
MTK |
1 |
1 |
|||
|
20%-35% |
20.71% - 31.95% |
HW |
1 |
1 |
|||
|
40%-60% |
20.73% - 31.64% |
HW |
1 |
1 |
|||
|
40%-60% |
22.80% - 23.20% |
MTK |
1 |
1 |
|||
|
40%-60% |
25.40% - 25.70% |
ZTE |
1 |
1 |
|||
|
3 |
10% |
17.9% |
QC |
1 |
2 |
||
|
10% |
22.65% |
CMCC |
1 |
2 |
|||
|
10% |
28.70% |
MTK |
1 |
2 |
|||
|
10% |
30.65% - 42.19% |
HW |
1 |
2 |
|||
|
10% |
35.1% |
ZTE |
1 |
2 |
|||
|
20%-35% |
23.08% |
CMCC |
1 |
2 |
|||
|
20%-35% |
28.80% |
MTK |
1 |
2 |
|||
|
20%-35% |
30.72% - 42.12% |
HW |
1 |
2 |
|||
|
40%-60% |
29.00% - 29.10% |
MTK |
1 |
2 |
|||
|
40%-60% |
29.42% - 42.11% |
HW |
1 |
2 |
|||
|
40%-60% |
33.6% - 34.5% |
ZTE |
1 |
2 |
|||
|
SSS |
1 |
10% |
12.5% |
QC |
1 |
0 |
|
|
10% |
15.80% |
MTK |
1 |
0 |
|||
|
20%-35% |
14.10% |
MTK |
1 |
0 |
|||
|
40%-60% |
7.60% - 10.80% |
MTK |
1 |
0 |
|||
|
2 |
10% |
6.3% |
QC |
1 |
0 |
||
|
10% |
7.7% |
QC |
0 |
1 |
|||
|
10% |
18.53%- 28.90% |
HW |
1 |
1 |
|||
|
10% |
21.40% |
MTK |
1 |
0 |
|||
|
10% |
23.50% - 25.40% |
ZTE |
1 |
0 |
|||
|
20%-35% |
16.98% - 26.18% |
HW |
1 |
1 |
|||
|
20%-35% |
20.60% |
MTK |
1 |
0 |
|||
|
40%-60% |
10.70% - 20.77% |
HW |
1 |
1 |
|||
|
40%-60% |
15.00% - 25.70% |
ZTE |
1 |
0 |
|||
|
40%-60% |
17.50% - 19.00% |
MTK |
1 |
0 |
|||
|
3 |
10% |
17.9% |
QC |
1 |
0 |
||
|
10% |
20.2% |
QC |
0 |
1 |
|||
|
10% |
27.20% |
MTK |
1 |
1 |
|||
|
10% |
27.69% - 38.11% |
HW |
1 |
2 |
|||
|
10% |
35.1% |
ZTE |
1 |
2 |
|||
|
20%-35% |
25.15% - 34.49% |
HW |
1 |
2 |
|||
|
20%-35% |
25.80% |
MTK |
1 |
1 |
|||
|
40%-60% |
14.30% - 26.7% |
HW |
1 |
2 |
|||
|
40%-60% |
20.30% - 23.00% |
MTK |
1 |
1 |
|||
|
40%-60% |
33.6% - 34.5% |
ZTE |
1 |
2 |
|||
|
TRS/CSI-RS |
1 |
10% |
12.5% |
QC |
1 |
0 |
|
|
10% |
15.80% |
MTK |
1 |
0 |
|||
|
10% |
18.08% |
Samsung |
1 |
0 |
|||
|
20%-35% |
14.10% |
MTK |
1 |
0 |
|||
|
20%-35% |
18.54% |
Samsung |
1 |
0 |
|||
|
40%-60% |
7.60% - 10.80% |
MTK |
1 |
0 |
|||
|
2 |
10% |
6.3% |
QC |
1 |
0 |
||
|
10% |
7.7% |
QC |
0 |
1 |
|||
|
10% |
19.99% - 30.66% |
HW |
1 |
0 |
|||
|
10% |
21.40% |
MTK |
1 |
0 |
|||
|
10% |
23.50% - 25.40% |
ZTE |
1 |
0 |
|||
|
20%-35% |
19.93% - 29.79% |
HW |
1 |
0 |
|||
|
20%-35% |
20.60% |
MTK |
1 |
0 |
|||
|
40%-60% |
15.00% - 25.70% |
ZTE |
1 |
0 |
|||
|
40%-60% |
17.50% - 19.00% |
MTK |
1 |
0 |
|||
|
40%-60% |
19.34% - 26.11% |
HW |
1 |
0 |
|||
|
3 |
10% |
17.9% |
QC |
1 |
0 |
||
|
10% |
20.2% |
QC |
0 |
1 |
|||
|
10% |
27.20% |
MTK |
1 |
1 |
|||
|
10% |
29.05% - 39.74% |
HW |
1 |
1 |
|||
|
10% |
31.55% |
CATT |
1 |
0 |
|||
|
10% |
35.1% |
ZTE |
1 |
2 |
|||
|
20%-35% |
25.80% |
MTK |
1 |
1 |
|||
|
20%-35% |
27.72% - 37.54% |
HW |
1 |
1 |
|||
|
40%-60% |
20.30% - 23.00% |
MTK |
1 |
1 |
|||
|
40%-60% |
21.90% - 32.78% |
HW |
1 |
1 |
|||
|
40%-60% |
33.6% - 34.5% |
ZTE |
1 |
2 |
Final summary in:
R1-2106143 Summary#2 of paging enhancements Moderator (MediaTek)
R1-2104222 TRS for RRC idle and inactive UEs ZTE, Sanechips
R1-2104252 Assistance RS occasions for IDLE/inactive mode Huawei, HiSilicon
R1-2104308 TRS/CSI-RS occasions for idle/inactive UE TCL Communication Ltd.
R1-2104372 TRS/CSI-RS occasion(s) for idle/inactive UEs vivo
R1-2104433 Consideration on TRS/CSI-RS occasion(s) for idle/inactive UEs Spreadtrum Communications
R1-2104533 Configuration of TRS/CSI-RS for paging enhancement CATT
R1-2104623 Discussion on TRS/CSI-RS occasion(s) for IDLE/INACTIVE-mode UEs CMCC
R1-2104683 TRS/CSI-RS for idle/inactive UE power saving Qualcomm Incorporated
R1-2104788 Further discussion on RS occasion for idle/inactive UEs OPPO
R1-2104917 Discussion on TRS/CSI-RS Design in idle/inactive mode Intel Corporation
R1-2105117 Indication of TRS configurations for idle/inactive-mode UE power saving Apple
R1-2105175 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Sony
R1-2105322 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Samsung
R1-2105387 On TRS/CSI-RS occasion(s) for idle/inactive mode UE power saving MediaTek Inc.
R1-2105435 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs LG Electronics
R1-2105475 Potential enhancements for TRS/CSI-RS occasion(s) for idle/inactive UEs Panasonic
R1-2105506 On RS information to IDLE/Inactive mode Ues Nokia, Nokia Shanghai Bell
R1-2105574 On TRS/CSI-RS configuration and indication for idle/inactive UEs Xiaomi
R1-2105639 Discussion on TRS/CSI-RS occasions for idle/inactive UEs Sharp
R1-2105709 Discussion on TRS CSI-RS occasion for idleinactive UEs NTT DOCOMO, INC.
R1-2105743 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs InterDigital, Inc.
R1-2105771 Provision of TRS/CSI-RS for idle/inactive UEs Lenovo, Motorola Mobility
R1-2105792 Provisioning of TRS occasions to Idle/Inactive UEs Ericsson
R1-2105887 On TRS design for idle/inactive UEs Nordic Semiconductor ASA
//Handled under NWM – See RAN1-105-e-NWM-NR-R17-PowSav-02 as the document name
[105-e-NR-R17-PowSav-02] – Qiongjie (Samsung)
Email discussion regarding TRS/CSI-RS occasions for idle/inactive UEs
R1-2105323 Moderator summary for TRS/CSI-RS occasion(s) for idle/inactive Ues Moderator (Samsung)
Decision: As per email decision posted on May 22nd,
Agreement:
Confirm the following working assumption:
Ÿ Support at least L1 based signaling for the availability indication of TRS/CSI-RS at the configured occasion(s) to the idle/inactive UEs.
o FFS details, including paging DCI and/or PEI for L1 based signaling
o FFS SIB-based signaling/configuration
§ Note: It is RAN1 understanding that existing SI update procedure is used for SIB based signalling
Agreement:
For the information provided by a physical layer availability indication of TRS/CSI-RS at the configured occasion(s) to the idle/inactive UEs, support availability/unavailability information for configured RS resources using a bitmap or codepoint
Ÿ e.g. using bitmap, where each bit is associated with at least one resource/configuration or a set/group of resources
Ÿ e.g. a codepoint to indicate a state of availability/unavailability for all or some of configured RS resources
Ÿ FFS maximum number of configured RS resources per physical layer availability indication to support.
Ÿ FFS whether availability/unavailability information is for all or some of configured RS resources
Agreement:
Support applicable values for the following configuration parameters as below.
Ÿ powerControlOffsetSS: {-3, 0, 3, 6}dB
Ÿ scramblingID: 0 to 1023
Ÿ firstOFDMSymbolInTimeDomain: 0 to 9
o firstOFDMSymbolInTimeDomain indicates first symbol in a slot, a second symbol in the same slot can be derived implicitly with symbol index as firstOFDMSymbolInTimeDomain+4
Ÿ startingRB: 0 to 274
Ÿ nrofRBs: 24 to 276
Agreement:
The QCL information of TRS/CSI-RS occasion(s) for idle/inactive UEs is indicated as a SSB index in range of 0 to 63.
· FFS: how the QCL information can be configured, e.g. per RS resource set or per configuration
· FFS: QCL type, which is predetermined
From GTW session:
Working assumption:
Support paging PDCCH based availability indication of TRS/CSI-RS occasions for idle/inactive UEs.
Support PEI based availability indication of TRS/CSI-RS occasions for idle/inactive UEs at least if PDCCH-based PEI is down-selected.
Agreement:
Configuration of TRS/CSI-RS occasion(s) for idle/inactive UEs include:
· periodicityAndOffset {10, 20, 40, 80} ms
· frequencyDomainAllocation for row1 with applicable values from {0, 1, 2, 3} to indicate the offset of the first RE to RE#0 in a RB
· FFS Configuration index
o details,
§ E.g. Per resource or resource set or group of resource sets
§ E.g. explicit or implicit indication based on QCL source
Agreement:
Further study supporting SIB based signalling for availability information of TRS/CSI-RS occasions for idle/inactive UEs at least based on the presence/absence of the configuration of the TRS/CSI-RS occasion in SIB_X in case L1 based availability indication is not configured.
Final summary in:
R1-2106117 Summary#2 for TRS/CSI-RS occasion(s) for idle/inactive Ues Moderator (Samsung)
R1-2104223 Additional simulation results of UE power consumption in RRC idle and inactive state ZTE, Sanechips
R1-2104373 Discussion on paging grouping vivo
R1-2104534 Details of PEI configuration CATT
R1-2104789 Paging and TRS indication in idle/inactive modes OPPO
R1-2105527 Analysis on power consumption for IDLE mode UE Huawei, HiSilicon
R1-2105793 Modeling of Network Power Consumption Ericsson
R1-2104224 Extension to Rel-16 DCI-based power saving adaptation during DRX Active Time ZTE, Sanechips
R1-2104253 Extensions to Rel-16 DCI-based power saving adaptation for an active BWP Huawei, HiSilicon
R1-2104374 Discussion on DCI-based power saving adaptation in connected mode vivo
R1-2104434 Discussion on power saving techniques for connected-mode UEs Spreadtrum Communications
R1-2104535 PDCCH monitoring adaptation CATT
R1-2104624 Discussion on PDCCH monitoring reduction during DRX active time CMCC
R1-2104684 DCI-based power saving adaptation during DRX ActiveTime Qualcomm Incorporated
R1-2104790 DCI-based power saving adaptation solutions OPPO
R1-2104918 Discussion on DCI-based UE Power Saving Schemes during active time Intel Corporation
R1-2105118 Enhanced DCI-based power saving adaptation Apple
R1-2105263 DCI-based Power Saving Enhancements Fraunhofer HHI, Fraunhofer IIS
R1-2105324 Discussion on DCI-based power saving techniques Samsung
R1-2105388 On enhancements to DCI-based UE power saving during DRX active time MediaTek Inc.
R1-2105436 Discussion on DCI-based power saving adaptation during DRX ActiveTime LG Electronics
R1-2105476 Potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime Panasonic
R1-2105505 UE power saving enhancements for Active Time Nokia, Nokia Shanghai Bell
R1-2105710 Discussion on extension to DCI-based power saving adaptation NTT DOCOMO, INC.
R1-2105744 PDCCH monitoring reduction in Active Time InterDigital, Inc.
R1-2105758 Discussion on DCI-based power saving adaptation ITRI
R1-2105772 Enhanced DCI based power saving adaptation Lenovo, Motorola Mobility
R1-2105794 Design of active time power savings mechanisms Ericsson
R1-2105824 Discussion on extension(s) to Rel-16 DCI-based power saving adaptation Asia Pacific Telecom, FGI
R1-2105850 A common framework for SSSG switching and PDCCH skipping ASUSTeK
R1-2105888 On PDCCH monitoring adaptation Nordic Semiconductor ASA
[105-e-NR-R17-PowSav-03] – Xiaodong (vivo)
Email discussion regarding potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime
R1-2106040 FL summary#1 of DCI-based power saving adaptation Moderator (vivo)
R1-2106041 FL summary#2 of DCI-based power saving adaptation Moderator (vivo)
Agreement:
Ÿ PDCCH schedules data and also indicates PDCCH monitoring adaptation by SSSG switching and PDCCH skipping for a duration is supported.
o At least DCI format(s) 1-1, 0-1, 1-2 and 0-2 can be used for the indication(s)
Agreement:
Ÿ
At
least One of Alt 1 and Alt
2 is supported, to be decided in RAN1#106,
Ÿ Alt 1: Supporting SSSG switching to emulate PDCCH skipping functionality,
o Alt 1-1: by an ‘empty’ SSSG which no SS set(s) is configured for the ‘empty’ SSSG, UE does not monitoring PDCCH on the ‘empty’ SSSG,
o Alt1-2: by a ‘dormant SSSG’ which may have associated SS sets, and monitored conditionally (e.g., depending on HARQ NACK or RTT/ReTx timers)
Ÿ Alt 2: PDCCH schedules data and also indicates PDCCH monitoring adaptation by PDCCH skipping for a duration is supported.
o FFS details, including
§ e.g., joint / separate indication of SSSG switching and PDCCH skipping
§ Determination of the duration(s) for PDCCH skipping, e.g.,
· by RRC signalling,
· by DCI indication
· Implicitly, to the end of C-DRX active time
Agreement:
At least SSSG#0 and SSSG#1 switching is supported for Rel-17 SSSG switching indicated by PDCCH scheduling data and/or timer.
Final summary in:
R1-2106243 FL summary#3 of DCI-based power saving adaptation Moderator (vivo)
R1-2104225 Further discussion on potential power saving schemes for RRC connected UEs ZTE, Sanechips
R1-2104375 Discussion on RLM/BFD relax vivo
R1-2104435 Discussion on other power saving techniques Spreadtrum Communications
R1-2104536 Link level performance for UE power saving CATT
R1-2104791 Discussion on RLM relaxation OPPO
R1-2105528 Other considerations on power saving in Rel-17 Huawei, HiSilicon
R1-2105795 Evaluation results for UE power saving schemes Ericsson
Please refer to RP-200938 for detailed scope of the WI
R1-2108607 Session notes for 8.7 (UE Power Saving Enhancements) Ad-hoc Chair (CMCC)
R1-2106479 Paging enhancements for UE power saving in IDLE/inactive mode Huawei, HiSilicon
R1-2106520 Potential Paging Enhancements TCL Communication Ltd.
R1-2106521 Discussion on power saving enhancements for paging ZTE, Sanechips
R1-2106606 Paging enhancements for idle/inactive mode UE power saving vivo
R1-2106708 Discussion on potential paging enhancements for UE power saving Spreadtrum Communications
R1-2106815 Paging enhancements for idle/inactive UE power saving Sony
R1-2106898 Discussion on paging enhancements Samsung
R1-2106983 Paging enhancement for UE power saving CATT
R1-2106998 Discussion on paging enhancements with PEI Transsion Holdings
R1-2107044 On paging early indication Nordic Semiconductor ASA
R1-2107182 Paging enhancement for UE power saving Lenovo, Motorola Mobility
R1-2107253 Further discussion on Paging enhancements for power saving OPPO
R1-2107356 Paging enhancements for idle/inactive UE power saving Qualcomm Incorporated
R1-2107414 Discussion on paging early indication design CMCC
R1-2107453 Discussion on potential paging enhancements LG Electronics
R1-2107519 Design of Paging Early Indication for Idle-Mode UE Power Saving MediaTek Inc.
R1-2107599 On Paging Enhancements for UE Power Saving Intel Corporation
R1-2107622 On paging enhancement Panasonic
R1-2107750 Paging enhancements for idle/inactive-mode UE Apple
R1-2107806 Paging enhancements for UE power saving InterDigital, Inc.
R1-2107869 Discussion on paging enhancement NTT DOCOMO, INC.
R1-2107932 Potential paging enhancements for power saving Xiaomi
R1-2107998 Design of Paging Enhancements Ericsson
R1-2108122 On paging enhancements for UE power saving Nokia, Nokia Shanghai Bell
[106-e-NR-R17-PowSav-01] – Weide (MediaTek)
Email discussion regarding potential paging enhancements
R1-2108310 Summary of paging enhancements Moderator (MediaTek Inc.)
R1-2108398 Summary#2 of paging enhancements Moderator (MediaTek Inc.)
Conclusion
For the evaluation of PEI candidate designs (for which observations made in previous RAN1 meetings), it was implicitly assumed by companies that the following processing can also provide synchronization:
Note: SSS PEI is assumed to reuse the SSS structure as in legacy SSB
R1-2108475 Summary#3 of paging enhancements Moderator (MediaTek Inc.)
R1-2108495 Summary#4 of paging enhancements Moderator (MediaTek Inc.)
Background information: Below conclusion was drawn in RAN1#105-e meeting:
To down-select one solution for PEI physical-layer channel/signal in RAN1 #106-e, using below as a starting point:
· PDCCH-based PEI
· SSS-based PEI
· TRS/CSI-RS-based PEI
Note: Additional details for each of the above 3 solutions are encouraged for more informed down-selection
Note: further refinement of the above list is possible, e.g., by merging/further splitting, depending on significance of the commonality and/or differences
R1-2108625 Summary#5 of paging enhancements Moderator (MediaTek Inc.)
R1-2108660 Summary#6 of paging enhancements Moderator (MediaTek Inc.)
Above conclusion (from RAN1#105-e) is modified as follows:
Conclusion
To down-select one solution for PEI physical-layer channel/signal in RAN1 #106-e,
· PDCCH-based PEI
· SSS-based PEI
Proposed Working Assumption
· PDCCH-based PEI
Supported by 20 companies, but cannot be accepted by 3 companies, i.e., Intel, CATT, Sony.
R1-2106480 Assistance RS occasions for IDLE/inactive mode Huawei, HiSilicon
R1-2106519 TRS/CSI-RS occasions for IDLE/inactive mode TCL Communication Ltd.
R1-2106522 TRS for RRC idle and inactive UEs ZTE, Sanechips
R1-2106607 TRS/CSI-RS occasion(s) for idle/inactive UEs vivo
R1-2106709 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Spreadtrum Communications
R1-2106816 Considerations on TRS/CSI-RS occasion(s) for idle/inactive UEs Sony
R1-2106899 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Samsung
R1-2106900 Moderator summary for TRS/CSI-RS occasion(s) for idle/inactive Ues Moderator (Samsung)
R1-2106984 Configuration of TRS/CSI-RS for paging enhancement CATT
R1-2107045 On TRS design for idle/inactive UEs Nordic Semiconductor ASA
R1-2107183 Provision of TRS/CSI-RS for idle/inactive UEs Lenovo, Motorola Mobility
R1-2107254 Further discussion on RS occasion for idle/inactive UEs OPPO
R1-2107357 TRS/CSI-RS for idle/inactive UE power saving Qualcomm Incorporated
R1-2107415 Discussion on TRS/CSI-RS occasion(s) for IDLE/INACTIVE-mode UEs CMCC
R1-2107454 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs LG Electronics
R1-2107520 On TRS/CSI-RS occasion(s) for idle/inactive mode UE power saving MediaTek Inc.
R1-2107600 On TRS/CSI-RS Ocassions for UE Power Saving Intel Corporation
R1-2107623 Potential enhancements for TRS/CSI-RS occasion(s) for idle/inactive UEs Panasonic
R1-2107751 Indication of TRS configurations for idle/inactive-mode UE power saving Apple
R1-2107798 Discussion on TRS/CSI-RS occasions for idle/inactive UEs Sharp
R1-2107807 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs InterDigital, Inc.
R1-2107870 Discussion on TRS/CSI-RS occasion for idle/inactive UEs NTT DOCOMO, INC.
R1-2107933 On TRS/CSI-RS configuration and indication for idle/inactive UEs Xiaomi
R1-2107999 Provisioning TRS occasions to Idle/Inactive UEs Ericsson
R1-2108123 On RS information to IDLE/Inactive mode Ues Nokia, Nokia Shanghai Bell
[106-e-NR-R17-PowSav-02] – Qiongjie (Samsung)
Email discussion regarding TRS/CSI-RS occasions for idle/inactive UEs
R1-2106900 Moderator summary for TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
R1-2108454 Moderator Summary #2 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
From GTW session:
Agreement
Support at least one of the following alternatives
· Alt1: L1 availability indication at an occasion provides availability/unavailability information only for RS resources with the same QCL reference as the L1 availability indication occasion.
· Alt2: L1 availability indication at an occasion can provide availability/unavailability information for RS resources with QCL references not confined to be the same as for the L1 availability indication occasion
Note: The occasion mentioned above refers to a signal/channel monitoring occasion (e.g. a paging PDCCH or PEI monitoring occasion) to provide the L1 availability indication.
Note: An RS resource is a RS from configured TRS/CSI-RS occasion(s) for idle/inactive UEs., where the configuration for TRS/CSI-RS occasion(s) for idle/inactive UEs is based on periodic TRS only.
Agreement
L1 based availability indication of TRS/CSI-RS at the configured occasion(s) to the idle/inactive UEs is valid for a time duration starting from a reference point, where
· the time duration can be determined based on at least one from the following (to be down-selected):
o Alt-1: configured by higher layer
o Alt-2: a predefined/configured window
o Alt-3: value indicated by the availability indication, where the value is one of multiple configured time duration(s)
o Alt-4: until when the UE receives another availability indication
o A combination of alternatives or other alternatives is not precluded.
· the reference point can be determined as at least one from the following (to be down-selected):
o Alt-1: start of next PO or DRX cycle
o Alt-2: time location where UE receives the indication
§ Note: the time location is subject to application delay if agreed
o Alt-3: start of current PO or DRX cycle where UE receive the indication
o Alt-4: a time location which is configured by higher layer
o A combination of alternatives or other alternatives is not precluded.
R1-2108514 Moderator Summary #3 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
Agreement
For a RS resource configured for TRS/CSI-RS
occasion(s) for idle/inactive UEs, a quasi co-location
type can be determined as
· ‘typeC’ with an SS/PBCH block and, when applicable, ‘typeD’ with the same SS/PBCH block
Final summary in R1-2108515.
R1-2106523 Additional simulation results of UE power consumption in RRC idle and inactive state ZTE, Sanechips
R1-2106608 Discussion on paging grouping vivo
R1-2106985 Details of PEI configuration CATT
R1-2107673 Analysis on power consumption for IDLE mode UE Huawei, HiSilicon
R1-2107934 Other aspect for idle/inactive-mode UE power saving Xiaomi
R1-2108000 NW power consumption evaluation of SIB based TRS availability signaling Ericsson
R1-2106481 Extensions to Rel-16 DCI-based power saving adaptation for an active BWP Huawei, HiSilicon
R1-2106524 Extension to Rel-16 DCI-based power saving adaptation during DRX Active Time ZTE, Sanechips
R1-2106610 Discussion on DCI-based power saving adaptation in connected mode vivo
R1-2106710 Discussion on power saving techniques for connected-mode UE Spreadtrum Communications
R1-2106901 Discussion on DCI-based power saving techniques Samsung
R1-2106986 PDCCH monitoring adaptation CATT
R1-2107017 Discussion on DCI-based power saving adaptation NEC
R1-2107046 On PDCCH monitoring adaptation Nordic Semiconductor ASA
R1-2107184 Enhanced DCI based power saving adaptation Lenovo, Motorola Mobility
R1-2107255 DCI-based power saving adaptation solutions OPPO
R1-2107358 DCI-based power saving adaptation during DRX ActiveTime Qualcomm Incorporated
R1-2107416 Discussion on PDCCH monitoring reduction during DRX active time CMCC
R1-2107455 Discussion on DCI-based power saving adaptation during DRX ActiveTime LG Electronics
R1-2107476 DCI-based power saving adaptation during DRX active time ETRI
R1-2107521 On enhancements to DCI-based UE power saving during DRX active time MediaTek Inc.
R1-2107533 DCI-based Power Saving Enhancements Fraunhofer HHI, Fraunhofer IIS
R1-2107601 On PDCCH Monitoring Adaptation during DRX active time Intel Corporation
R1-2107624 Potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime Panasonic
R1-2107752 Enhanced DCI-based power saving adaptation Apple
R1-2107808 PDCCH monitoring reduction in Active Time InterDigital, Inc.
R1-2107871 Discussion on extension to DCI-based power saving adaptation NTT DOCOMO, INC.
R1-2108001 Design of active time power savings mechanisms Ericsson
R1-2108014 Discussion on DCI-based power saving adaptation ITRI
R1-2108048 A common framework for SSSG switching and PDCCH skipping ASUSTeK
R1-2108124 UE power saving enhancements for Active Time Nokia, Nokia Shanghai Bell
[106-e-NR-R17-PowSav-03] – Xiaodong (vivo)
Email discussion regarding potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime
R1-2108224 FL summary#1 of DCI-based power saving adaptation Moderator (vivo)
R1-2108225 FL summary#2 of DCI-based power saving adaptation Moderator (vivo)
From GTW session:
Agreement
· At most 2 bit indication in self-scheduling DCIs (i.e., DCI format 1-1/0-1/1-2/0-2) can be specified for triggering the PDCCH monitoring adaptation in a single cell
o FFS: the bit size of the indication is configurable
o FFS: bit mapping to the PDCCH monitoring behaviour
o FFS: details of indication of multiple cells case
R1-2108386 FL summary#3 of DCI-based power saving adaptation Moderator (vivo)
R1-2108387 FL summary#4 of DCI-based power saving adaptation Moderator (vivo)
From GTW session:
Agreement
Select either package 1 or package 2
Package 1
· UE behavior after receiving PDCCH indication of monitoring adaptation can be one of the followings,
o Working Assumption: Beh 1: PDCCH skipping is not activated
o Beh 1A: PDCCH skipping means stopping PDCCH monitoring for a duration X
§ FFS the possible values for X
§ FFS: Whether and how to support more than one skipping duration(s)
§ FFS: whether to continue monitoring PDCCH scrambled by C-RNTI for Type 0/1/1A/2 CSS or not
o Beh 2: stop monitoring SS sets associated with SSSG#1 and SSSG#2 (if confirmed) and monitoring of SS sets associated to SSSG#0 (legacy behaviour)
o Beh 2A: stop monitoring SS sets associated with SSSG#0 and SSSG#2 (if confirmed) and monitoring of SS sets associated to SSSG#1 (legacy behaviour)
o Working Assumption: Beh 2B(if confirmed): stop monitoring SS sets associated with SSSG#0 and SSSG#1 and monitoring of SS sets associated to SSSG#2 (if confirmed)
· Note: The number of supported SSSG is left to UE feature discussion.
· FFS: UE capability of supported UE behaviors
· Indication of Beh 1A when SSSG(s) are not configured is supported.
· Working assumption: Indication of Beh 1A for current SSSG when two SSSG(s) are configured is supported
· FFS: Indication of Beh 1A when three SSSG(s) (if supported) are configured
· Y bits is configured for scheduling DCIs (i.e., DCI format 1-1/0-1/1-2/0-2) indicating PDCCH schedules data and also PDCCH monitoring adaptation
o FFS how the UE behavior(s) defined above mapping to Y bits
§ Note: at most Y = 2
· Working Assumption at most 3 SSSGs is supported to be configured.
o FFS: whether or how SSSG can be configured to be monitored conditionally (e.g., depending on HARQ NACK or RTT/ReTx timers)
o FFS: whether or how non-default SSSG to another non-default SSSG
· FFS details of timer(s) for switching between SSSG(s)
o UE fallbacks to default SSSG (i.e., SSSG#0) after timer expiration.
o R16 timer for SSSG switching and the corresponding behavior is as baseline
·
FFS whether the timer(s) is configured per
SSSG, or per BWP or other
approaches.
· FFS whether the skipping duration(s) is configured per SSSG, per BWP, or other approaches.
· FFS PDCCH monitoring adaptation indicated by non-scheduling DCI
·
PDCCH based monitoring adaptation is limitedapplied to
USS and type-3 CSS.
Package 2 (Alt 1 and Alt 2)
· If alt 1 is supported,
o supporting SSSG switching to emulate PDCCH skipping functionality by an ‘empty’ SSSG (i.e. Alt 1-1)or ‘dormant’ SSSG(i.e. Alt 1-2)
§ Y bits is configured for scheduling DCIs (i.e., DCI format 1-1/0-1/1-2/0-2) indicating SSSG index.
·
FFS dynamic indication of initial timer
value(s)
· FFS details
§ At most [3] SSSGs is supported to be configured.
· Note: including‘empty’ SSSG or ‘dormant’ SSSG
§
FFS support of single timer to switch to
default SSSG#0 or support of multiple timers between SSSGs
§ FFS whether one or more of the following timer(s) is supported for switching between
· Option 1: Non-default SSSG to default SSSG (i.e., SSSG#0)
· Option 2: Non-default SSSG to another non-default SSSG
· Option 3: Default SSSG (i.e., SSSG#0) to non-default SSSG(s)
§ FFS: down selection between ‘empty’ SSSG (i.e. Alt 1-1)or ‘dormant’ SSSG(i.e. Alt 1-2)
§
FFS: whether ‘empty’ SSSG
and ‘dormant’ SSSG, can be looked as a
skipping duration and whether to introduce a SSSG state.
§ FFS: whether the timer is configured per SSSG, per BWP, or other approaches.
§
FFS: whether multiple timer duration(s)
can be configured by RRC, and DCI dynamically indicates a timer duration
§
FFS: do we need to define default SSSGs
and for what purpose?
§ Note: description of ‘empty’ SSSG and ‘dormant’ SSSG has been provided in RAN1#105-E
· If alt 2 is supported,
o PDCCH schedules data and also indicates PDCCH monitoring adaptation by PDCCH skipping for a duration is supported.
§
Y bits is configured for scheduling DCIs
(i.e., DCI format 1-1/0-1/1-2/0-2) indicating PDCCH monitoring adaptation (including
SSSG index, and/or PDCCH skipping duration(s))
·
Alt 2-1:
o FFS: Determination of the duration for PDCCH skipping, e.g.,
§ One skipping duration configured by RRC signaling,
§ Multiple candidate values of skipping duration configured by RRC signaling and use DCI to dynamically indicate one of the configured skipping duration
§ by specification
o FFS: possible value(s) of the duration
o FFS: joint or separate indication with SSSG switching
·
Alt 2-3:
o FFS: whether introduce SSS/SSSG specific skipping indication via e.g. bitmap, codepoint, joint indication with a minimum scheduling offset value
§ FFS: whether the skipping duration is configured per SSSG, per BWP, or other approaches.
§ FFS: PDCCH skipping indicated by non-scheduling DCI
§ FFS: interaction with SSSG switching (when configured), e.g. impact to skipping when SSSG timer expires, which SSSG after PDCCH skipping is monitored, etc.
Agreement
package 1 in above agreement is selected.
Final summary in R1-2108620.
R1-2106525 Further discussion on potential power saving schemes for RRC connected UEs ZTE, Sanechips
R1-2106609 UE Power Model for Downlink Reception vivo
R1-2106987 Link level performance for UE power saving CATT
R1-2107674 Other considerations on power saving in Rel-17 Huawei, HiSilicon
R1-2108002 Evaluation results for UE power saving schemes Ericsson
Please refer to RP-212630 for detailed scope of the WI.
Please also refer to section 7 (Proposal 1) of RP-212611 for additional guidance for this e-meeting.
Incoming LS(s) related to this work/study item under agenda item 5: R1-2108716, R1-2109372.
R1-2110616 Session notes for 8.7 (UE Power Saving Enhancements) Ad-hoc Chair (CMCC)
[106bis-e-R17-RRC-PowSav] – Weide (MediaTek)
Email discussion on Rel-17 RRC parameters for UE power saving
- 1st check point: October 14
- Final check point: October 19
R1-2110679 Summary of email discussion on Rel-17 RRC parameters for UE power saving Moderator (MediaTek)
R1-2110695 Collection of RAN1-related agreements for UE power saving enhancements for NR Rapporteur (MediaTek)
Document is noted. For consolidation under 8 in [106bis-e-R17-RRC].
R1-2108744 Paging enhancements for UE power saving in IDLE/inactive mode Huawei, HiSilicon
R1-2108836 Paging enhancements for idle/inactive UE power saving TCL Communication Ltd.
R1-2108864 Discussion on power saving enhancements for paging ZTE, Sanechips
R1-2108888 Discussion on PEI Design Transsion Holdings
R1-2108916 Discussion on potential paging enhancements for UE power saving Spreadtrum Communications
R1-2108985 Paging enhancements for idle/inactive mode UE power saving vivo
R1-2109085 Further discussion on Paging enhancements for power saving OPPO
R1-2109235 Paging enhancement for UE power saving CATT
R1-2109292 Discussion on paging early indication design CMCC
R1-2109422 Paging enhancement for power saving Xiaomi
R1-2109500 Discussion on paging enhancements Samsung
R1-2109581 On PDCCH-based PEI for paging enhancements MediaTek Inc.
R1-2109621 On remaining details of paging early indication design Intel Corporation
R1-2110400 Discussion on paging enhancement NTT DOCOMO, INC. (rev of R1-2109689)
R1-2109797 Paging enhancements for idle/inactive UE power saving Sony
R1-2109855 On paging enhancement Panasonic
R1-2109944 Paging enhancement for UE power saving Lenovo, Motorola Mobility
R1-2109952 Discussion on paging enhancements for UE power saving InterDigital, Inc.
R1-2109980 Discussion on potential paging enhancements LG Electronics
R1-2110043 Paging enhancements for idle/inactive-mode UE Apple
R1-2110136 Design of Paging Enhancements Ericsson
R1-2110197 Paging enhancements for idle/inactive UE power saving Qualcomm Incorporated
R1-2110283 On paging early indication Nordic Semiconductor ASA
R1-2110311 On paging enhancements for UE power saving Nokia, Nokia Shanghai Bell
R1-2110315 Design of PDCCH-based Paging Early Indication DENSO CORPORATION
[106bis-e-NR-R17-PowSav-01] – Weide (MediaTek)
Email discussion regarding potential paging enhancements
- 1st check point: October 14
- Final check point: October 19
R1-2109582 Summary #1 of paging enhancements MediaTek Inc.
From Oct 11th GTW session
Possible Proposal 2-1
For PEI, a new DCI format is supported to include at least paging indications to UE group(s)/subgroups of the associated PO(s)
· One bit in the DCI payload indicating one UE subgroup of a PO or one UE group/PO (if UE paging subgrouping is not configured)
· One PEI provides paging indications to UE group(s)/subgroups of Ns PO(s) in a PF
o Ns as defined in TS38.304
o The maximum number of total bits for paging indication field in PEI DCI format is 32
· A new PEI-RNTI is utilized for CRC scrambling
Possible Proposal 3-1
· CORSET and search space set settings for PEI are based on broadcast system information
· ‘peiSearchSpace’ for PEI is broadcasted if PEI is configured
o Only PEI DCI format is configured
o Up to [2] ALs can be configured
Possible proposal 4-1 (based on companies’ extension on legacy PO identification):
· For a target PO, a PEI Occasion (PEI-O) a set of PDCCH monitoring occasions associated with the transmitted SSBs. Reference PEI frame (PEI-F) start is subject to PEI_offset (in unit of T/N radio frame(s)) before PF of the PO
o T and N are defined in clause 7 in TS 38.304
· Determination of PEI-O before PO is in analogous to determination of PO as specified in clause 7 of TS 38.304 expect for the following difference:
o Reference frame is offset from PF to PEI-F
o ‘pagingSearchSpace’ is changed to ‘peiSearchSpace’
o ‘firstPDCCH-MonitoringOccasionOfPO’ is changed to ‘firstPDCCH-MonitoringOccasionOfPEI’ while reusing the same definition of ‘firstPDCCH-MonitoringOccasionOfPO’
o Assume X = 1
o FFS: Additional update for one set of PEI MOs to provide paging indication for Ns POs in a PF
R1-2110504 Summary#2 of paging enhancements Moderator (MediaTek)
R1-2110539 Summary#3 of paging enhancements Moderator (MediaTek)
R1-2110606 Summary#4 of paging enhancements Moderator (MediaTek)
From Oct 19th GTW session
Agreement
For NR Rel-17, paging indications to UE subgroups are carried only in PEI.
Agreement
For PEI, a new DCI format is supported to include at least paging indications to UE group(s)/subgroups of the associated PO(s)
Agreement
A PEI occasion (PEI-O) is a set of S consecutive PDCCH monitoring occasions when nrofPDCCH-MonitoringOccasionPerSSB-InPO is not configured
· S is the number of actual transmitted SSBs determined according to ssb-PositionsInBurst in SIB1
· The K-th PDCCH monitoring occasion for PEI in the PEI-O has the same QCL assumption as that of the K-th PDCCH monitoring occasion for paging in the PO.
o Note: QCL reference is SSB
· FFS: Determination of the PEI-O location
· FFS: Support of unlicensed spectrum operation with nrofPDCCH-MonitoringOccasionPerSSB-InPO configured
Decision: As per email decision posted on Oct 21st,
Agreement
CORESET # 0 or commonControlResourceSet in SIB1 can be used for PEI
· Note: The number of CORESETs configured for a UE follows the requirement of UE feature 3-1
Agreement
Support configuration of a dedicated search space (‘peiSearchSpace’) for PEI
· FFS: Configuration details and whether and how to reuse legacy search space sets, including pagingSearchSpace and searchSpaceSetZero
Decision: As per email decision posted on Oct 22nd,
Agreement
Determination of PEI-O location for a target PO is based on one of the following alternatives:
· Alt 1: The first PDCCH monitoring occasion of the PEI-O is provided w.r.t. the start of a reference frame determined by a frame-level offset to the PF of the target PO
o FFS: The unit and the range of the frame-level offset
o FFS: The unit and the range of the configuration for the first PDCCH monitoring occasion (e.g., to be the same as those of firstPDCCH-MonitoringOccasionOfPO)
· Alt 2: The first PDCCH monitoring occasion of the PEI-O is provided w.r.t. the L-th SS burst before the first PDCCH monitoring occasion of the target PO.
o FFS: the case that a SSB burst overlaps in time with the target PO
o FFS: L = 1, 2 or 3
o FFS: Reference the “start” or “end” of the L-th SS burst
o FFS: The unit and the range of the configuration for the first PDCCH monitoring occasion
· Alt 3: The first PDCCH monitoring occasion of the PEI-O is provided by a time offset w.r.t. a reference time for the target PO.
o FFS: The exact definition of the reference time, e.g. the first MO of the target PO, the first MO of the first PO indicated by the PEI, the start of the PF for the target PO
o FFS: The unit and the range of the time offset
· FFS: Whether any SS burst or TRS burst is needed between PEI-O and PO
· Configuration for one PEI indicating multiple POs within a PF should be taken into consideration in the determination of PEI occasion
Decide one of the above alternatives or a single merged solution based on the alternatives in RAN1#107-e meeting.
FFS: Extension for the case one PEI indicates multiple POs across multiple PFs, if supported
Final summary in R1-2110671.
NR_UE_pow_sav_enh (From AI 5)
[106bis-e-NR-R17-PowSav-04] – Weide (MediaTek)
Discuss incoming LS in x8716 for a possible reply LS
R1-2108716 LS on UE Power Saving RAN2, MediaTek
R1-2110607 [Draft] Reply LS on UE Power Saving Moderator (MediaTek)
Decision: As per email decision posted on Oct 21st, the draft LSis endorsed in principle. Final version is approved in R1-2110608.
R1-2108745 Assistance RS occasions for IDLE/inactive mode Huawei, HiSilicon
R1-2108837 TRS/CSI-RS occasions for IDLE/inactive mode TCL Communication Ltd.
R1-2108865 TRS for RRC idle and inactive UEs ZTE, Sanechips
R1-2108917 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Spreadtrum Communications
R1-2108986 TRS/CSI-RS occasion(s) for idle/inactive UEs vivo
R1-2109086 Further discussion on RS occasion for idle/inactive UEs OPPO
R1-2109236 Configuration of TRS/CSI-RS for paging enhancement CATT
R1-2109293 Discussion on TRS/CSI-RS occasion(s) for IDLE/INACTIVE-mode UEs CMCC
R1-2109423 On TRS/CSI-RS configuration and indication for idle/inactive UEs Xiaomi
R1-2109501 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Samsung
R1-2109583 On TRS/CSI-RS occasion(s) for idle/inactive mode UE power saving MediaTek Inc.
R1-2109622 Discussion on periodic TRS occasions in idle/inactive mode Intel Corporation
R1-2109690 Discussion on TRS/CSI-RS occasion for idle/inactive Ues NTT DOCOMO, INC.
R1-2109798 On TRS/CSI-RS occasion(s) for idle/inactive UEs Sony
R1-2109856 Potential enhancements for TRS/CSI-RS occasion(s) for idle/inactive UEs Panasonic
R1-2109945 Provision of TRS/CSI-RS for idle/inactive UEs Lenovo, Motorola Mobility
R1-2109953 Remaining issues on TRS/CSI-RS occasion(s) for idle/inactive UEs InterDigital, Inc.
R1-2109981 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs LG Electronics
R1-2109999 Discussion on TRS/CSI-RS occasions for idle/inactive UEs Sharp
R1-2110044 Indication of TRS configurations for idle/inactive-mode UE power saving Apple
R1-2110137 Provisioning TRS occasions to Idle/Inactive UEs Ericsson
R1-2110198 TRS/CSI-RS for idle/inactive UE power saving Qualcomm Incorporated
R1-2110284 On TRS design for idle/inactive UEs Nordic Semiconductor ASA
R1-2110312 On RS information to IDLE/Inactive mode Ues Nokia, Nokia Shanghai Bell
[106bis-e-NR-R17-PowSav-02] – Qiongjie (Samsung)
Email discussion regarding TRS/CSI-RS occasions for idle/inactive UEs
- 1st check point: October 14
- Final check point: October 19
R1-2109502 Moderator Summary#1 for TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
R1-2110483 Moderator Summary #2 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
R1-2110484 Moderator Summary #3 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
R1-2110580 Moderator Summary #4 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
From Oct 19th GTW session
Conclusion
No consensus to support SIB based signaling for availability information of TRS/CSI-RS occasions for idle/inactive UEs
Working Assumption
If TRS resource is configured in SIB, L1 based availability indication is always enabled based on the configuration.
Agreement
For L1 based availability indication of TRS/CSI-RS at the configured occasion(s) to the idle/inactive UEs, support availability information for configured RS resources using a bitmap. where each bit indicates whether associated TRS resource(s) are available.
Agreement
At least for paging PDCCH based L1 availability indication of TRS/CSI-RS at the configured occasion(s) to the idle/inactive UEs, the L1 availability indication is valid for a time duration starting from a reference point, where
Agreement
Configuration of TRS/CSI-RS occasion(s) for idle/inactive UEs include a list of one or more TRS resource sets, where:
· a TRS resource set can be configured to include
o a set of TRS resources up to two consecutive slots,
§ Note: a TRS resource is same as Rel-15/16, i.e. a CSI-RS in a symbol.
o at least common configuration parameters:
§ a QCL reference
§ firstOFDMSymbolInTimeDomain,
§ ‘frequencyDomainAllocation for row1’, ‘startingRB’ ,‘nrofRBs’,’powerControlOffsetSS’, periodicityAndOffset’
§ FFS
· scramblingID,
· a TRS resource set ID, number of slots {1, 2} or number of symbols {2, 4} if supported
· Note: the ‘TRS resource set’ configuration is not (necessarily) identical to ‘NZP-CSI-RS-ResourceSet’ configuration for TRS in R15/16.
Final summary in R1-2110581.
R1-2108866 Additional simulation results of UE power consumption in RRC idle and inactive state ZTE, Sanechips
R1-2108987 Discussion on paging grouping vivo
R1-2109237 Multiple POs associated with one PEI CATT
R1-2109747 Analysis on power consumption for IDLE mode UE Huawei, HiSilicon
R1-2109954 Wake-up signal for low power wake-up radio InterDigital, Inc.
R1-2110138 Modelling of NR gNB power consumption Ericsson
R1-2110199 Aligning Paging Occasions to SSB for UE idle and inactive mode power saving Qualcomm Incorporated
R1-2108746 Extensions to Rel-16 DCI-based power saving adaptation for an active BWP Huawei, HiSilicon
R1-2108867 Extension to Rel-16 DCI-based power saving adaptation during DRX Active Time ZTE, Sanechips
R1-2108918 Discussion on power saving techniques for connected-mode UEs Spreadtrum Communications
R1-2108988 Discussion on DCI-based power saving adaptation in connected mode vivo
R1-2109087 DCI-based power saving adaptation solutions OPPO
R1-2109238 PDCCH monitoring adaptation CATT
R1-2109294 Discussion on PDCCH monitoring reduction during DRX active time CMCC
R1-2109361 Discussion on DCI-based power saving adaptation NEC
R1-2109503 Discussion on DCI-based power saving techniques Samsung
R1-2109584 On enhancements to DCI-based UE power saving during DRX active time MediaTek Inc.
R1-2109623 On remaining issues of PDCCH monitoring adaptation in active time Intel Corporation
R1-2109691 Discussion on extension to DCI-based power saving adaptation NTT DOCOMO, INC.
R1-2109813 DCI-based power saving adaptation during DRX active time ETRI
R1-2109831 Discussion on extension(s) to Rel-16 DCI-based power saving adaptation FGI, Asia Pacific Telecom
R1-2109857 Potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime Panasonic
R1-2109946 Enhanced DCI based power saving adaptation Lenovo, Motorola Mobility
R1-2109955 DCI-based power saving adaptation during DRX ActiveTime InterDigital, Inc.
R1-2109982 Discussion on DCI-based power saving adaptation during DRX ActiveTime LG Electronics
R1-2110045 Enhanced DCI-based power saving adaptation Apple
R1-2110130 A common framework for SSSG switching and PDCCH skipping ASUSTeK
R1-2110139 Design of active time power savings mechanisms Ericsson
R1-2110200 DCI-based power saving adaptation during DRX ActiveTime Qualcomm Incorporated
R1-2110285 On PDCCH monitoring adaptation Nordic Semiconductor ASA
R1-2110310 DCI-based Power Saving Enhancements Fraunhofer HHI, Fraunhofer IIS
R1-2110313 UE power saving enhancements for Active Time Nokia, Nokia Shanghai Bell
[106bis-e-NR-R17-PowSav-03] – Xiaodong (vivo)
Email discussion regarding potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime
- 1st check point: October 14
- Final check point: October 19
R1-2110406 FL summary#1 of DCI-based power saving adaptation Moderator (vivo)
R1-2110407 FL summary#2 of DCI-based power saving adaptation Moderator (vivo)
From Oct 13th GTW session
Agreement
Confirm the four working assumptions(extracted from package 1)
Working assumption:
· Beh 1: PDCCH skipping is not activated
Working assumption:
· Indication of Beh 1A for current SSSG when two SSSG(s) are configured is supported
Working assumption:
· At most 3 SSSGs is supported to be configured for PDCCH monitoring adaptation.
Working assumption:
· Beh 2B: stop monitoring SS sets associated with SSSG#0 and SSSG#1 and monitoring of SS sets associated to SSSG#2.
Agreement
Scheduling DCIs indicating timer value for a SSSG is not supported.
R1-2110517 FL summary#3 of DCI-based power saving adaptation Moderator (vivo)
From Oct 19th GTW session
Agreement
For Beh 1A,
·
The UE can be configured to
be indicated by DCI a value of X slots (i.e., skipping duration) among
multiple RRC configured values by scheduling DCIs indicating PDCCH
schedules data
o The bits for indicating PDCCH monitoring adaptation also indicating skipping duration. Details FFS
Agreement
The bit mapping of DCI indication PDCCH monitoring adaptation is as follows,
· For Case 1 (i.e., PDCCH skipping), the following is supported
o 1-bit in scheduling DCI is supported to indicate PDCCH monitoring adaptation UE behaviors if M=1
§ ‘0’ is Beh 1 and ‘1’ is Beh 1A
o 2-bit in scheduling DCI is supported to indicate PDCCH monitoring adaptation UE behaviors if M=2 or 3
§ ‘00’ is Beh 1
§ ‘01’ is Beh 1A with skipping duration 1
§ ‘10’ is Beh 1A with skipping duration 2
§ ‘11’ is Beh 1A with skipping duration 3 if M=3, reserved if M=2
· For Case 2 (i.e., 2 SSSG switching) , the following is supported
o 1-bit in scheduling DCI is supported to indicate PDCCH monitoring adaptation UE behaviors
§ ‘0’ is Beh 2 and ‘1’ is Beh 2A
· For Case 3 (i.e., 3 SSSG switching) , the following is supported
o 2-bit in scheduling DCI is supported to indicate PDCCH monitoring adaptation UE behaviors
§ ‘00’ is Beh 2
§ ‘01’ is Beh 2A
§ ‘10’ is Beh 2B
§ [‘11’ is reserved]
· For Case 4 (i.e., 2 SSSG switching with PDCCH skipping) , the following is supported
o 2-bit in scheduling DCI is supported to indicate PDCCH monitoring adaptation UE behaviors,
§ FFS details bit mapping
· FFS: For Case 5 (i.e., 3 SSSG switching and skipping)
o 2-bit in scheduling DCI is supported to indicate PDCCH monitoring adaptation UE behaviors
§ ‘00’ is Beh 2
§ ‘01’ is Beh 2A
§ ‘10’ is Beh 2B
§ ‘11’ is Beh 1A
o FFS Timer behavior when Beh 1A is indicated
·
Note: The UE can be
configured to be indicated by DCI a value of X slots (i.e., skipping
duration) among M RRC configured values by scheduling DCIs indicating
PDCCH schedules data
· FFS whether to restrict Skipping duration to be shorter than SSSG initial timer value
· FFS whether the configuration is same or different for DCI format x_1 and DCI format x_2
Decision: As peremail decision posted on Oct 21st,
Agreement
· The value of the SSSG switching timer in slots for SSSG#1 and/or SSSG#2 can be configured as
o {[1...20,40,60,80,100]} for 15 kHz SCS,
o {[1...40, 80,100,160,200]} for 30 kHz SCS,
o {[1...80, 160,200,320,400]} for 60kHz SCS,
o {[1...160,320,400,640,800]} for 120kHz SCS
Agreement
· If the UE monitors PDCCH according to SSSG#1 and the timer expires, the UE starts monitoring PDCCH according to Beh 2.
· If the UE monitors PDCCH according to SSSG#2 and the timer expires,
o Alt 1: the UE monitoring PDCCH according to Beh 2
§ Other alternatives are not precluded
· Timer can be optionally configured.
Agreement
Select one of the alternatives from the following:
· Alt 1: Separate RRC configuration for timer value(s) is supported for switching from SSSG#2 to SSSG#0 and from SSSG#1 to SSSG#0 respectively.
· Alt 2: the timer value(s) for switching from SSSG#2 to SSSG#0 and from SSSG#1 to SSSG#0 is common and configured per cell.
· Alt 3: the timer value(s) for switching from SSSG#2 to SSSG#0 and from SSSG#1 to SSSG#0 is common and configured per BWP.
Agreement
The following application delay for a scheduling DCI based PDCCH monitoring adaptation indication can be considered,
· For PDCCH skipping,
o Option b
o Option f
o Option d for downlink grant and Option c for uplink grant
o Option i
o Option j
o Note: down-select based on the options in RAN1#107-E
· For SSSG switching,
o Option a
o Option d for downlink grant and Option c for uplink grant
o Option h
o Option b
o Option d for downlink grant and Option g for uplink grant
o Note: down-select based on the options in RAN1#107-E
· The Options a – j are defined as follows,
o Option a: the application timelines provided in Table 10.4-1 in TS38.213 for search-space group switching for unlicensed band form is reused.
§
for SCS
configuration 
, FFS X = 25
or 39
§
FFS: 
o Option b: the application delay needed for PDCCH processing for Rel-16 minimum application delay for K0min/K2min indication is reused/extended.
o Option c: PDCCH monitoring adaptation command applies after PUSCH transmission if triggered by UL DCI
o Option d: PDCCH monitoring adaptation command applies after HARQ-ACK transmission (or plus some margin for HARQ-ACK decoding).
o Option e: after successfully decoding TB.
o Option f: Application delay should be “ZERO” for PDCCH monitoring adaptation. PDCCH monitoring adaptation would be applied after UE receive the additional PDCCH monitoring adaptation control signaling bit(s) in DCI
o Option g: Application delay(s) are configured via RRC signaling
o Option h: Application delay applies after drx-RetransmissionTimerUL expires
o Option i: Leave up to implementation
o Option j: UE applies the skipping immediately (e.g. next symbol/slot) after the UE receives the indication in DL assignment. If the UE fails to decode the associated PDSCH and transmits a NACK, skipping is canceled in the slots after the NACK transmission. Option g ( application delay configured via RRC signaling) is used for uplink grant. If RRC signaling is not provided, UE applies the skipping immediately (e.g. next symbol/slot) after the UE receives the indication in UL grant.
o Other options not precluded.
· FFS reference points for the application delay,
· FFS whether the same or different and how application delay for PDCCH monitoring adaptation indicated by DCI and timer expiration
· FFS non-scheduling DCI if supported
Final summary in R1-2110518.
R1-2108868 Further discussion on potential power saving schemes for RRC connected UEs ZTE, Sanechips
R1-2109239 PDCCH skipping and SS group switching CATT
R1-2109748 Other considerations on power saving in Rel-17 Huawei, HiSilicon
R1-2110140 Evaluation results for UE power saving schemes Ericsson
Please refer to RP-212630 for detailed scope of the WI. Please also refer to section 7 (Proposal 1) of RP-212611 for additional guidance for this e-meeting. Incoming LS(s) related to this work/study item under agenda item 5: R1-2110759.
R1-2112876 Session notes for 8.7 (UE Power Saving Enhancements) Ad-hoc Chair (CMCC) (rev of R1-2112794)
Rel-17 CRs related to power saving
R1-2112449 Introduction of UE power savings enhancements in NR Samsung
Decision: Draft CR to 38.213 inc. agreements up to RAN1#106b-e. Endorsed, and to be revised to final CR for RAN submission after RAN1#107-e.
R1-2112474 Introduction of Rel-17 UE power saving enhancements Huawei
Decision: Draft CR to 38.212 inc. agreements up to RAN1#106b-e. Endorsed, and to be revised to final CR for RAN submission after RAN1#107-e.
R1-2112491 Introduction of NR UE Power Saving Enhancements Nokia
Decision: Draft CR to 38.214 inc. agreements up to RAN1#106b-e. Endorsed, and to be revised to final CR for RAN submission after RAN1#107-e.
[107-e-R17-RRC-PowSav] – Weide (MediaTek)
Email discussion on Rel-17 RRC parameters for UE power saving
- Email discussion to start on November 15
R1-2112887 Summary of email discussion on Rel-17 RRC parameters for UE power saving Moderator (MediaTek Inc.)
Document is noted. For consolidation under 8 in [107-e-R17-RRC].
R1-2110837 Paging enhancements for UE power saving in IDLE/inactive mode Huawei, HiSilicon
R1-2110937 Discussion on power saving enhancements for paging ZTE, Sanechips
R1-2111023 Remaining issues on paging enhancements for idle/inactive mode UE power saving vivo
R1-2111062 Paging enhancements for idle/inactive UE power saving TCL Communication Ltd.
R1-2111103 Discussion on potential paging enhancements for UE power saving Spreadtrum Communications
R1-2111266 Paging enhancement for UE power saving CATT
R1-2111325 Further discussion on Paging enhancements for power saving OPPO
R1-2111404 Remaining issues on potential paging enhancement Sony
R1-2111504 On remaining aspects of paging early indication design Intel Corporation
R1-2111582 Paging enhancement for power saving Xiaomi
R1-2111617 Discussion on paging early indication design CMCC
R1-2111674 Discussion on PEI Design Transsion Holdings
R1-2111675 On paging enhancement Panasonic
R1-2111747 Discussion on paging enhancements Samsung
R1-2111884 Paging enhancements for idle/inactive-mode UE Apple
R1-2111945 Paging enhancement for UE power saving Lenovo, Motorola Mobility
R1-2111960 Discussion on paging enhancements for UE power saving InterDigital, Inc.
R1-2112060 Discussion on potential paging enhancements LG Electronics
R1-2112116 Discussion on paging enhancement NTT DOCOMO, INC.
R1-2112149 Design of Paging Enhancements Ericsson
R1-2112226 Paging enhancements for idle/inactive UE power saving Qualcomm Incorporated
R1-2112308 Remaining design details of paging early indication MediaTek Inc.
R1-2112370 Open items on paging enhancements for UE power saving Nokia, Nokia Shanghai Bell
R1-2112379 On paging early indication Nordic Semiconductor ASA
[107-e-NR-R17-PowSav-01] – Weide (MediaTek)
Email discussion regarding potential paging enhancements
- 1st check point: November 15
- Final check point: November 19
R1-2112307 Summary #1 of paging enhancements MediaTek Inc.
From Nov 12th GTW session
Agreement
For unlicensed operation,
A PEI-O is a set of 'S*X ' consecutive PDCCH monitoring occasions where 'S' is the number of actual transmitted SSBs determined according to ssb-PositionsInBurst in SIB1 and X is the nrofPDCCH-MonitoringOccasionPerSSB-InPO if configured or is equal to 1 otherwise. The [x*S+K]th PDCCH monitoring occasion for PEI in the PEI-O corresponds to the Kth transmitted SSB, where x=0,1,…,X-1, K=1,2,…,S.
· If X > 1, when the UE detects a PEI within its PEI-O, the UE is not required to monitor the subsequent monitoring occasion(s) associated with the same PEI-O
Note: The QCL reference is SSB.
R1-2112662 Summary#2 of paging enhancements Moderator (MediaTek Inc.)
From Nov 18th GTW session
Agreement
Support mapping one PEI to POnumPerPEI PO(s) in one or multiple PF(s)
·
POnumPerPEI is a factor of 
(total PO number in a paging cycle) and configurable via SIB for the
cell with the value range of {1, 2, 4, 8}
o The Maximum number of PF associated with one PEI is up to 2
· Note: Maximum number of paging indication bits in DCI format 2_7 can be kept the same for any configuration of POnumPerPEI, e.g., by applying a smaller subgroupsNumPerP and a larger POnumPerPEI.
· Note: Larger value of POnumPerPEI can reduce the average PEI overhead per PO, but there can also cause potentially larger paging latency and larger UE power consumption due to longer UE wake-up time before PO monitoring, which can be significant with large value of (T/N).
Working Assumption
Agreement (WA is further confirmed as agreement as per email decision posted on Nov 22nd)
· The paging indication field of PEI DCI format comprises of POnumPerPEI segment(s) of K bit
o
K= 1, if 
is absent or set to 0 or 1,
o
K= , if 
is configured.
o UE identifies its paging indication bit as follows:
§
Let 
denote
the relative PO index, with starting value of 0, among the POs associated with
the PEI
·
, where 
are as defined
in clause 7 of TS 38.304
§
when K = 1 and UE is not provided a subgroup
index
§
when UE is provided a subgroup index
§
UE checks the corresponding
paging indication from 
-th bit of the paging indication field where the starting bit
index is 0
· If the corresponding paging indication value is set to ‘1’, it indicates the UE to monitor the PO
· If the corresponding paging indication value is set to ‘0’, it indicates the UE is not required to monitor the PO
Agreement
For PEI DCI format, defined as DCI format 2_7,
·
Total number of bits for paging indication
filed is POnumPerPEI, if 
is absent or
set to 0 or 1, and the number is 
, if 
is configured.
o For Rel-17, UE does not expect paging indication filed size is larger than the DCI payload size
· Whether and how TRS availability indication field is included is up to Agenda Item 8.7.1.2
· Support configurable DCI payload size which should be no larger than payload size of paging DCI
o Unused bits, when applicable, are regarded as reserved bits
o Note: A smaller payload size is beneficial for PEI detection performance
Agreement
· Determination of PEI-O location for UE’s PO is based on deciding a reference point and an offset from the reference point to the start of the first PDCCH MO of the PEI-O.
o The reference point is the start of a reference frame determined by a frame-level offset from the start of the first PF of the PF(s) associated with the PEI-O and configured via SIB for the cell.
§ FFS: The range of the frame-level offset
o There is a symbol-level offset from the reference point to the start of the first PDCCH MO of PEI-O, provided by firstPDCCH-MonitoringOccasionOfPEI-O and configured via SIB for the cell.
§ FFS: The range of the symbol-level offset
· Note: When PEI-O is placed close to or overlapped with an earlier SS burst before its associated POs, the total UE wake-up time can be reduced for better power saving gain. Network can configure the PEI-O location accounting the power saving benefit and potential impact on gNB flexibility.
Agreement
The CCE aggregation levels and maximum number of PDCCH candidates per CCE aggregation level for PEI PDCCH monitoring occasion are given as the following table. Actual aggregation levels and PDCCH candidates are provided by ‘peiSearchSpace’ configuration in SIB.
|
CE Aggregation Level |
Number of Candidates |
|
4 |
4 |
|
8 |
2 |
|
16 |
1 |
Agreement
‘peiSearchSpace’ can be configured to one of up to 4 common SS sets configured by commonSearchSpaceList with SearchSpaceId > 0
Final summary in R1-2112886.
R1-2110838 Assistance RS occasions for IDLE/inactive mode Huawei, HiSilicon
R1-2110938 TRS for RRC idle and inactive UEs ZTE, Sanechips
R1-2111024 Remaining issues on TRS/CSI-RS occasion(s) for idle/inactive UEs vivo
R1-2111063 TRS/CSI-RS occasions for IDLE/inactive mode TCL Communication Ltd.
R1-2111104 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Spreadtrum Communications
R1-2111267 Configuration of TRS/CSI-RS for paging enhancement CATT
R1-2111326 Further discussion on RS occasion for idle/inactive UEs OPPO
R1-2111405 Remaining issues on TRS occasion(s) for idle/inactive UEs Sony
R1-2111505 Discussion on TRS occasions in idle/inactive mode Intel Corporation
R1-2111583 On TRS/CSI-RS configuration and indication for idle/inactive UEs Xiaomi
R1-2111618 Discussion on TRS/CSI-RS occasion(s) for IDLE/INACTIVE-mode UEs CMCC
R1-2111676 Potential enhancements for TRS/CSI-RS occasion(s) for idle/inactive UEs Panasonic
R1-2111748 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Samsung
R1-2111885 Indication of TRS configurations for idle/inactive-mode UE power saving Apple
R1-2111946 Provision of TRS/CSI-RS for idle/inactive UEs Lenovo, Motorola Mobility
R1-2111961 Remaining issues on TRS/CSI-RS occasion(s) for idle/inactive UEs InterDigital, Inc.
R1-2112018 Discussion on TRS/CSI-RS occasions for idle/inactive UEs Sharp
R1-2112061 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs LG Electronics
R1-2112117 Discussion on TRS/CSI-RS occasion for idle/inactive UEs NTT DOCOMO, INC.
R1-2112150 Provisioning TRS occasions to Idle/Inactive UEs Ericsson
R1-2112227 TRS/CSI-RS for idle/inactive UE power saving Qualcomm Incorporated
R1-2112309 On TRS/CSI-RS occasion(s) for idle/inactive mode UE power saving MediaTek Inc.
R1-2112371 Open issues on TRS information for IDLE/INACTIVE mode UEs Nokia, Nokia Shanghai Bell
R1-2112380 On TRS design for idle/inactive UEs Nordic Semiconductor ASA
[107-e-NR-R17-PowSav-02] – Qiongjie (Samsung)
Email discussion regarding TRS/CSI-RS occasions for idle/inactive UEs
- 1st check point: November 15
- Final check point: November 19
R1-2111749 Moderator Summary#1 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
From Nov 16th GTW session
Agreement
For the maximum number of TRS resource sets configured by higher layer, X,
· X = 64
· FFS: the number of configured TRS resource sets is not larger than the number of actual transmitted SSBs determined according to ssb-PositionsInBurst in SIB1
R1-2112682 Moderator Summary #2 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
From Nov 18th GTW session
Agreement
For L1 availability indication using a bitmap, the following is supported:
Agreement
The reference point for start of the validity duration is SFN of the first PF from the current default DRX cycle where UE receives the availability indication
Note: Qualcomm and Huawei have concern with above agreement
R1-2112683 Moderator Summary #3 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
From Nov 19th GTW session
Agreement
For the validity duration configured by higher layer at least for paging PDCCH based L1 availability indication, support
· time unit is one default paging cycle,
· applicable values: {1, 2, 4, 8, 16, 32, [64], [128], [256],[512]}
When the validity duration is not configured, UE assumes a default time duration to be 2 default paging cycle(s).
Agreement
The following working assumption is confirmed
Working Assumption
· Support paging PDCCH based availability indication of TRS/CSI-RS occasions for idle/inactive UEs.
· Support PEI based availability indication of TRS/CSI-RS occasions for idle/inactive UEs at least if PDCCH-based PEI is down-selected.
R1-2110839 Analysis on power consumption for IDLE mode UE Huawei, HiSilicon
R1-2110939 Additional simulation results of UE power consumption in RRC idle and inactive state ZTE, Sanechips
R1-2111268 Multiple POs associated with one PEI CATT
R1-2112151 Modeling of NR gNB power consumption Ericsson
R1-2112228 Aligning Paging Occasions to SSB for UE idle and inactive mode power saving Qualcomm Incorporated
R1-2110840 Extensions to Rel-16 DCI-based power saving adaptation for an active BWP Huawei, HiSilicon
R1-2110940 Extension to Rel-16 DCI-based power saving adaptation during DRX Active Time ZTE, Sanechips
R1-2111026 Remaining issues on DCI-based power saving adaptation in connected mode vivo
R1-2111105 Discussion on power saving techniques for connected-mode UEs Spreadtrum Communications
R1-2111181 Discussion on DCI-based power saving adaptation NEC
R1-2111269 PDCCH monitoring adaptation CATT
R1-2111327 DCI-based power saving adaptation solutions OPPO
R1-2111506 Discussion on DCI-based power saving adaptation in active time Intel Corporation
R1-2111619 Discussion on PDCCH monitoring reduction during DRX active time CMCC
R1-2111677 Potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime Panasonic
R1-2111750 Discussion on DCI-based power saving techniques Samsung
R1-2111886 Enhanced DCI-based power saving adaptation Apple
R1-2111947 Enhanced DCI based power saving adaptation Lenovo, Motorola Mobility
R1-2111962 DCI-based power saving adaptation during DRX Active Time InterDigital, Inc.
R1-2111992 Remaining issues on DCI-based power saving adaptation during DRX active time ETRI
R1-2112062 Discussion on DCI-based power saving adaptation during DRX ActiveTime LG Electronics
R1-2112075 Discussion on extension(s) to Rel-16 DCI-based power saving adaptation FGI, Asia Pacific Telecom
R1-2112118 Discussion on extension to DCI-based power saving adaptation NTT DOCOMO, INC.
R1-2112152 Design of active time power savings mechanisms Ericsson
R1-2112229 DCI-based power saving adaptation during DRX ActiveTime Qualcomm Incorporated
R1-2112310 On enhancements to DCI-based UE power saving during DRX active time MediaTek Inc.
R1-2112372 Open issues on PDCCH monitoring adaptation for UE power saving Nokia, Nokia Shanghai Bell
R1-2112381 On PDCCH monitoring adaptation Nordic Semiconductor ASA
R1-2112397 DCI-based Power Saving Enhancements Fraunhofer HHI, Fraunhofer IIS
[107-e-NR-R17-PowSav-03] – Xiaodong (vivo)
Email discussion regarding potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime
- 1st check point: November 15
- Final check point: November 19
R1-2112578 FL summary#1 of DCI-based power saving adaptation Moderator (vivo)
From Nov 12th GTW session
Possible Agreement
· For Case 4 (i.e., 2 SSSG switching with PDCCH skipping), the following is supported
o 2-bit in scheduling DCI is supported to indicate PDCCH monitoring adaptation UE behaviors
o If M = 1, then
§ ‘00’ is Beh 2
§ ‘01’ is Beh 2A
§ ‘10’ is Beh 1A (stay in current SSSG)
§ [‘11’ is reserved]
o If M = 2, then
§ ‘00’ is Beh 2
§ ‘01’ is Beh 2A
§ ‘10’ is Beh 1A for duration T1 (stay in current SSSG)
§ ‘11’ is Beh 1A for duration T2 (stay in current SSSG)
· Note: for ‘00’ and ‘01’, UE performs Beh 1(i.e., does not perform PDCCH skipping)
· FFS: SSSG switching timer behavior, and timer value is related to the value of T1/T2
· FFS: T1/T2 can be configured differently for each SSSG
· Note: By a single DCI indication, a UE is not expected to simultaneously perform two behaviors of SSSG switching and PDCCH skipping.
R1-2112579 FL summary#2 of DCI-based power saving adaptation Moderator (vivo)
From Nov 16th GTW session
Agreement
The following agreement in RAN1#106-E is updated as follows,
Agreement(extracted from RAN1#106-e)
· At most 2 bit indication in self-scheduling DCIs (i.e., DCI format 1-1/0-1/1-2/0-2) can be specified for triggering the PDCCH monitoring adaptation in a single cell
o FFS: the bit size of the indication is configurable
o FFS: bit mapping to the PDCCH monitoring behaviour
o FFS: details of indication of multiple cells case
o A new indication field in scheduling DCI is used for indicating PDCCH monitoring adaptation
Agreement
Confirm the working assumptions with the following updates (extract from RAN1#106-bis agreements)
· The value of the timer in slots for monitoring PDCCH in the active DL BWP of the serving cell before moving to the default search space group is
o {1,2,3,…,20,30, 40, 50, 60, 80, 100} for 15 kHz SCS,
o {1,2,3,…,40, 60, 80, 100, 100,160,200} for 30 kHz SCS,
o {1,2,3,…,80, 120, 160, 200, 240, 320,400} for 60kHz SCS,
o {1,2,3,…,160, 240, 320,400, 480, 640,800} for 120kHz SCS
Agreement
· For Case 4 (i.e., 2 SSSG switching with PDCCH skipping) , one of the following is supported
o Alt a: 2-bit in scheduling DCI is supported to indicate PDCCH monitoring adaptation UE behaviors
§ If M = 1, then
· ‘00’ is Beh 2
· ‘01’ is Beh 2A
·
‘10’ is Beh 1A (stay in current SSSG)
· [‘11’ is reserved]
§ If M = 2, then
· ‘00’ is Beh 2
· ‘01’ is Beh 2A
·
‘10’ is Beh 1A for duration
T1 (stay in current SSSG)
·
‘11’ is Beh 1A for duration
T2 (stay in current SSSG)
· Note: for ‘00’ and ‘01’, UE performs Beh 1(i.e., does not perform PDCCH skipping )
· Note: By a single DCI indication, a UE is not expected to simultaneously perform two behaviors of SSSG switching and PDCCH skipping.
· FFS SSSG switching timer behavior, and timer value related to the value of T1/T2
Decision: As per email decision posted on Nov 20th,
Agreement
If a UE is provided with a timer value by searchSpaceSwitchTimer-r17 for PDCCH monitoring on a serving cell and the timer is running, the UE
· resets the timer after a slot of the active DL BWP of the serving cell when the UE detects a DCI format in a PDCCH reception in the slot
o Alt 2a: for the Type3-PDCCH CSS set or the USS set with group index of either 1 or 2
o Alt 2b: for the Type3-PDCCH CSS set or the USS set
o Alt 2c: with CRC scrambled by C-RNTI/CS-RNTI/MCS-C-RNTI
· otherwise, decrease the timer value by one after each slot.
· FFS: When the timer expires in a slot
Agreement
· For value X in Beh 1A, candidate skipping values are
o Up to [100ms] length is supported,
§ The X is configured and indicated in the unit of slot.
· Working assumption for candidate values for X
o {1,2,3,…,20,30, 40, 50, 60, 80, 100} for 15 kHz SCS,
o {1,2,3,…,40, 60, 80, 100, 120,160,200} for 30 kHz SCS,
o {1,2,3,…,80, 120, 160, 200, 240, 320,400} for 60kHz SCS,
o {1,2,3,…,160, 240, 320,400, 480, 640,800} for 120kHz SCS
o FFS: Equal to or longer than the applicable minimum scheduling offset
o FFS: additional symbol level / PDCCH monitoring period level skipping duration
Final summary in R1-2112878.
R1-2110941 Further discussion on potential power saving schemes for RRC connected UEs ZTE, Sanechips
R1-2111270 PDCCH skipping and SS group switching CATT
R1-2111930 Other considerations on power saving in Rel-17 Huawei, HiSilicon
R1-2112153 Evaluation results for UE power saving schemes Ericsson
Please refer to RP-212630 for detailed scope of the WI. Relevant incoming LSs in R1-2200005, R1-2200010.
R1-2200809 Session notes for 8.7 (UE Power Saving Enhancements) Ad-hoc Chair (CMCC) (rev of R1-2200793)
[107bis-e-R17-RRC-PowSav] – Weide (MediaTek)
Email discussion on Rel-17 RRC parameters for UE power saving
- Email discussion to start on January 20 and end by January 25
R1-2200834 Summary of email discussion on Rel-17 RRC parameters for UE power saving Moderator (MediaTek Inc.)
Document is noted. For consolidation under 8 in [107bis-e-R17-RRC].
R1-2200817 Collection of RAN1-related agreements for UE power saving enhancements for NR Rapporteur (MediaTek)
R1-2200032 Remaining issues on Paging enhancements for UE power saving in IDLE/inactive mode Huawei, HiSilicon
R1-2200066 Remaining issues of power saving enhancements for paging ZTE, Sanechips
R1-2200083 Remaining issues on paging enhancements for idle/inactive mode UE power saving vivo
R1-2200149 Paging enhancement for UE power saving CATT
R1-2200155 Remaining issues on paging enhancements for idle/inactive mode UE power saving TCL Communication Ltd.
R1-2200201 Maintenance on paging enhancements Samsung
R1-2200234 Discussion on paging enhancement NTT DOCOMO, INC.
R1-2200276 Discussion on potential paging enhancements for UE power saving Spreadtrum Communications
R1-2200298 Paging enhancements for idle and inactive UE power saving Qualcomm Incorporated
R1-2200331 Further discussion on Paging enhancements for power saving OPPO
R1-2200362 Open items on paging enhancements for UE power saving Nokia, Nokia Shanghai Bell
R1-2200376 Discussion on the remaining aspects of paging enhancements Intel Corporation
R1-2200397 On paging enhancement Panasonic
R1-2200417 Remaining issues on paging enhancements for idle/inactive UEs Apple
R1-2200463 Remaining issues on paging enhancement for power saving xiaomi
R1-2200478 Remaining aspects of Paging Enhancements Ericsson
R1-2200532 Paging enhancement for UE power saving Lenovo, Motorola Mobility
R1-2200560 Discussion on PEI Design Transsion Holdings
R1-2200575 Discussion on potential paging enhancements LG Electronics
R1-2200585 Remaining issues on paging early indication CMCC
R1-2200606 Maintenance on Design of Paging Early Indication MediaTek Inc.
R1-2200609 On paging early indication Nordic Semiconductor ASA
R1-2200618 Remaining issues on paging enhancements InterDigital, Inc.
[107bis-e-R17-PowSav-01] – Weide (MediaTek)
Email discussion regarding potential paging enhancements
- 1st check point: January 20
- Final check point: January 25
R1-2200605 Summary#1 for Maintenance of Paging Enhancements Moderator (MediaTek Inc.)
From Jan 17th GTW session
Agreement
A new PEI-RNTI is supported for DCI format 2_7.
The following text proposals are adopted:
|
TS 38.213 section 10.1: <Unchanged text is omitted> - a Type2A-PDCCH CSS set configured by peiSearchSpace in DownlinkConfigCommonSIB for a DCI format 2_7 with CRC scrambled by a PEI-RNTI on the primary cell of the MCG <Unchanged text is omitted> |
|
TS 38.213 section 10.4B: <Unchanged text is omitted> A UE in RRC_IDLE state or RRC_INACTIVE state can be provided by TRS-ResourceSetConfig a set of TRS occasions [6, TS 38.214]. If TRS-ResourceSetConfig is provided, a DCI format 2_7 with CRC scrambled by PEI-RNTI or a DCI format 1_0 with CRC scrambled by P-RNTI includes a TRS availability indication field [4, TS 38.212] that provides a bitmap to groups of TRS resource sets where the configuration of each TRS resource set includes an association to a bit of the bitmap. <Unchanged text is omitted> |
R1-2200743 Summary#2 for Maintenance of Paging Enhancements Moderator (MediaTek Inc.)
R1-2200759 Summary#3 for Maintenance of Paging Enhancements Moderator (MediaTek Inc.)
From Jan 21st GTW session
Agreement
For whether and how to accommodate PEI-O location determination for the case POnumPerPEI is smaller than Ns, decide one of the following alternatives
·
Alt-2: It is supported, and
UE applies the single value in PEI-F_offset
for the frame-level offset and the 
-th value out of 
configured values in firstPDCCH-MonitoringOccasionOfPEI-O
for the symbol-level offset
Note: The number of PO mapping to one PEI should be multiple of Ns when POnumPerPEI is larger than Ns
Agreement
For PEI-O location determination:
·
Range of PEI-F_offset,
in unit of frame, is 
· Range of firstPDCCH-MonitoringOccasionOfPEI-O, in unit of symbol, is decided as one of the following alternatives:
o Alt-1: The same value range as firstPDCCH-MonitoringOccasionOfPO
For the value PEI-RNTI, decide one of the following:
· Alt-1: PEI-RNTI is of fixed value, and value design is up to RAN2.
Conclusion
For a UE supporting R17 paging enhancement feature, it is up to UE implementation whether the UE monitors the MO(s) for a PEI.
· If UE decides to not to monitor PEI, it has to monitor UE’s PO as defined in 38.304.
· Note: No specification impact
Decision: As per the email decision posted on Jan 23rd,
Agreement
The PDCCH monitoring occasions defined by peiSearchSpace colliding with UL symbols are omitted from the determination of the PEI monitoring occasions. The PDCCH monitoring occasions for PEI which do not overlap with UL symbols (determined according to tdd-UL-DL-ConfigurationCommon) are sequentially numbered from zero starting from the first PDCCH monitoring occasion for PEI in the PEI-O.
Agreement
The transmission power of PEI is based on the same determination method as paging PDCCH, and the following TP to TS 38.213 is adopted.
|
4.1 Cell search Cell search is the procedure for a UE to acquire time and frequency synchronization with a cell and to detect the physical layer Cell ID of the cell. A UE receives the following synchronization signals (SS) in order to perform cell search: the primary synchronization signal (PSS) and secondary synchronization signal (SSS) as defined in [4, TS 38.211]. A UE assumes that reception occasions of a physical broadcast channel (PBCH), PSS, and SSS are in consecutive symbols, as defined in [4, TS 38.211], and form a SS/PBCH block. The UE assumes that SSS, PBCH DM-RS, and PBCH data have same EPRE. The UE may assume that the ratio of PSS EPRE to SSS EPRE in a SS/PBCH block is either 0 dB or 3 dB. If the UE has not been provided dedicated higher layer parameters, the UE may assume that the ratio of PDCCH DMRS EPRE to SSS EPRE is within -8 dB and 8 dB when the UE monitors PDCCHs for a DCI format 1_0 with CRC scrambled by SI-RNTI, P-RNTI, or RA-RNTI, and DCI format 2_7 with CRC scrambled by PEI-RNTI. |
Agreement
UE expects at most one PEI outcome from each PDCCH monitoring occasion of PEI-O, and the following text proposal is adopted.
|
Section 10.1 of TS 38. 213 *** Unchanged text is omitted *** If a UE is provided one or more search space sets by corresponding one or more ofsearchSpaceZero, searchSpaceSIB1, searchSpaceOtherSystemInformation,pagingSearchSpace, peiSearchSpace, ra-SearchSpace, or a CSS set byPDCCH-Config, and a SI-RNTI, a P-RNTI, a PEI-RNTI, a RA-RNTI, a MsgB-RNTI, a SFI-RNTI, an INT-RNTI, a TPC-PUSCH-RNTI, a TPC-PUCCH-RNTI, or a TPC-SRS-RNTI then, for a RNTI from any of these RNTIs, the UE does not expect to process information from more than one DCI format with CRC scrambled with the RNTI per slot. *** Unchanged text is omitted *** |
R1-2200787 Summary#4 of Maintenance on Paging Enhancement Moderator (MediaTek Inc.)
From Jan 25th GTW session
Agreement
If one PEI-O is associated with POs of 2 PFs,
· The two PFs are consecutive PFs configured in SIB
o FFS: two PFs are consecutive PFs within the same paging cycle
·
Note: As an example, SFN of
the first PF of the PF(s) associated with the PEI-O can be obtained by: (SFN of
UE’s PF) - 
Agreement
· LS to RAN2 for sharing agreements with potential RAN2 specification impacts
Conclusion
For Rel-17, inclusion of SI change indication or ETWS/CMAS notification in DCI format 2_7 is not supported.
Conclusion
For Rel-17 DCI format 2_7,
· Explicit starting position configuration for paging indication field or TRS availability indication field is not supported.
o Paging indication field starts from the first bit, and TRS availability indication field starts from the next bit after the end of the paging indication field
· UE does not expect the total size of paging indication filed and TRS availability indication field is larger than the DCI payload size
Decision: As per email decision posted on Jan 27th,
Working assumption
· SearchSpaceId = 0 can be configured forpeiSearchSpace for the case of CORESET multiplexing pattern 2 or 3
R1-2200788 [Draft] LS on Paging Enhancement MediaTek Inc.
Decision: As per email decision posted on Jan 27th, the draft LS is endorsed in principle. Include above working assumption in the LS on paging enhancement to RAN2. Final version is approved in R1-2200800.
Final summary in R1-2200801.
R1-2200033 Remaining issue on assistance TRS occasions for IDLE/inactive mode Huawei, HiSilicon
R1-2200067 Remaining issues of TRS for RRC idle and inactive UEs ZTE, Sanechips
R1-2200084 Remaining issues on TRS/CSI-RS occasion(s) for idle/inactive UEs vivo
R1-2200150 Remaining issues of TRS/CSI-RS for paging enhancement CATT
R1-2200156 Remaining issues of TRS/CSI-RS occasion(s) for idle/inactive UEs TCL Communication Ltd.
R1-2200202 Maintenance on TRS/CSI-RS occasion(s) for idle/inactive UEs Samsung
R1-2200235 Discussion on TRS/CSI-RS occasion for idle/inactive UEs NTT DOCOMO, INC.
R1-2200277 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Spreadtrum Communications
R1-2200299 TRS and CSI-RS for idle and inactive UE power saving Qualcomm Incorporated
R1-2200332 Further discussion on RS occasion for idle/inactive UEs OPPO
R1-2200363 Open issues on n TRS information for IDLE/INACTIVE mode UEs Nokia, Nokia Shanghai Bell
R1-2200377 Discussion on the remaining details of TRS/CSI-RS occasions in idle/inactive time Intel Corporation
R1-2200398 Potential enhancements for TRS/CSI-RS occasion(s) for idle/inactive UEs Panasonic
R1-2200418 Remaining issues on indication of TRS configurations for idle/inactive UEs Apple
R1-2200464 Remaining issues on TRS/CSI-RS configuration and indication for idle/inactive UEs xiaomi
R1-2200479 Remaining aspects of TRS occasion provisioning for Idle/Inactive UEs Ericsson
R1-2200498 Remaining issues on TRS/CSI-RS occasions for idle/inactive UEs Sharp
R1-2200533 Provision of TRS/CSI-RS for idle/inactive UEs Lenovo, Motorola Mobility
R1-2200576 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs LG Electronics
R1-2200586 Remaining issues on TRS/CSI-RS occasion(s) for idle/inactive UEs CMCC
R1-2200607 Maintenance on Design of TRS/CSI-RS Information for idle/inactive UEs MediaTek Inc.
R1-2200610 On TRS design for idle/inactive UEs Nordic Semiconductor ASA
R1-2200619 Remaining issues on TRS/CSI-RS occasions for idle/inactive UEs InterDigital, Inc.
[107bis-e-R17-PowSav-02] – Qiongjie (Samsung)
Email discussion regarding TRS/CSI-RS occasions for idle/inactive UEs
- 1st check point: January 20
- Final check point: January 25
R1-2200203 Moderator Summary#1 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
From Jan 17th GTW session
Proposal
The applicable values: {64, 128, 256, 512} should be supported for the validity duration configured by higher layer.
R1-2200727 Moderator Summary#2 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
From Jan 19th GTW session
Agreement
Support a configuration parameter for the number of, X, TRS resources for a TRS resource set at least for FR2
Note: Configuration follows restriction specified in sub-clause 5.1.6.1.1 in TS38.214 for connected mode TRS
R1-2200726 Moderator Summary#3 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
From Jan 21th GTW session
Agreement
One or more scrambling IDs is configured for a TRS resource set.
Agreement
The applicable values:{64, 128, 256, 512} are supported for the validity duration configured by higher layer.
· Note: If UE is provided a configuration of validity duration longer than 10.24s, and the UE does not support eDRX, it is up to UE implementation whether to assume the validity duration length is no larger than 10.24s
Agreement
UE can receive L1 based signaling for TRS availability indication before the expiration/end of validity duration associated with previous L1 based signaling for TRS availability indication
· For each bit indicated as ‘1’ in the availability indication field of the current L1 based signaling, the UE assumes the corresponding TRS resource set(s) are available from the reference point until the end of the validity duration associated with the current L1 based signaling.
· For each bit indicated as ‘0’ in the availability indication field of the current L1 based signaling, the UE keeps the existing assumption on the availability or unavailability of the corresponding TRS resource set(s).
Note: the validity duration for different group of TRS resources sets correspond to different bits in the availability indication field can be different and are maintained independently.
Note: CATT has concern on the power saving gain based on this agreement.
Agreement
Confirm the following working assumption
If TRS resource is configured in SIB, L1 based availability indication is always enabled based on the configuration.
Agreement
The parameter of periodicityAndOffset is used to determine the location of the first slot of TRS resource set.
R1-2200782 Moderator Summary #3 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
From Jan 25th GTW session
Agreement
If SIB configures TRS resource, TRS availability indication field is present in DCI format 2_7 (if configured) with CRC scrambled by PEI-RNTI and DCI format 1_0 with CRC scrambled by P-RNTI.
Note: Huawei, MediaTek and ZTE have concern on the agreement.
R1-2200068 Simulation results of UE power saving in RRC idle and inactive state ZTE, Sanechips
R1-2200480 Modeling of NR gNB power consumption Ericsson
R1-2200649 Analysis on power consumption for IDLE mode UE Huawei, HiSilicon
R1-2200034 Remaining issues on the extensions to Rel-16 DCI-based power saving adaptation for an active BWP Huawei, HiSilicon
R1-2200069 Remaining issues of PDCCH monitoring adaptation during DRX Active Time ZTE, Sanechips
R1-2200085 Remaining issues on DCI-based power saving adaptation in connected mode vivo
R1-2200151 PDCCH monitoring adaptation CATT
R1-2200167 Discussion on DCI-based power saving adaptation NEC
R1-2200204 Maintenance on DCI-based power saving techniques Samsung
R1-2200236 Discussion on extension to DCI-based power saving adaptation NTT DOCOMO, INC.
R1-2200278 Discussion on power saving techniques for connected-mode UEs Spreadtrum Communications
R1-2200300 DCI-based power saving adaptation during DRX ActiveTime Qualcomm Incorporated
R1-2200333 DCI-based power saving adaptation solutions OPPO
R1-2200364 Open issues on PDCCH monitoring adaptation for UE power saving Nokia, Nokia Shanghai Bell
R1-2200378 Discussion on remaining aspects of power saving in active time Intel Corporation
R1-2200399 Potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime Panasonic
R1-2200419 Remaining issues on enhanced DCI-based power saving adaptation Apple
R1-2200465 Remaining issues on PDCCH monitoring adaptation for power saving xiaomi
R1-2200481 Remaining aspects of active time power savings mechanisms Ericsson
R1-2200534 Enhanced DCI based power saving adaptation Lenovo, Motorola Mobility
R1-2200577 Discussion on DCI-based power saving adaptation during DRX ActiveTime LG Electronics
R1-2200587 Remaining issues on PDCCH monitoring reduction during DRX active time CMCC
R1-2200608 Maintenance on Enhancement of DCI-based PDCCH Monitoring Adaptation MediaTek Inc.
R1-2200611 On PDCCH monitoring adaptation Nordic Semiconductor ASA
R1-2200620 Remaining issues on DCI-based power saving adaptation InterDigital, Inc.
[107bis-e-R17-PowSav-03] – Xiaodong (vivo)
Email discussion regarding potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime
- 1st check point: January 20
- Final check point: January 25
R1-2200696 FL summary#1 of DCI-based power saving adaptation Moderator (vivo)
From Jan 17th GTW session
Agreement
Remove the bracket from the following agreement made in RAN1#106bis-e
Agreement (extracted from RAN1#106bis-E)
· For Case 3 (i.e., 3 SSSG switching) , the following is supported
o 2-bit in scheduling DCI is supported to indicate PDCCH monitoring adaptation UE behaviors
§ ‘00’ is Beh 2
§ ‘01’ is Beh 2A
§ ‘10’ is Beh 2B
§ [‘11’ is reserved]
Agreement
Confirm the following working assumption (extracted from RAN1#107-bis agreements)
Agreement
· For value X in Beh 1A, candidate skipping values are
o Up to [100ms] length is supported,
§ The X is configured and indicated in the unit of slot.
· Working assumption for candidate values for X
o {1,2,3,…,20,30, 40, 50, 60, 80, 100} for 15 kHz SCS,
o {1,2,3,…,40, 60, 80, 100, 120,160,200} for 30 kHz SCS,
o {1,2,3,…,80, 120, 160, 200, 240, 320,400} for 60kHz SCS,
o {1,2,3,…,160, 240, 320,400, 480, 640,800} for 120kHz SCS
o FFS: Equal to or longer than the applicable minimum scheduling offset
o FFS: additional symbol level / PDCCH monitoring period level skipping duration
R1-2200697 FL summary#2 of DCI-based power saving adaptation Moderator (vivo)
From Jan 19th GTW session
Agreement
· The initial timer value for switching from SSSG#2 to SSSG#0 and from SSSG#1 to SSSG#0 is common and configured per BWP.
· The PDCCHSkippingDurationList-r17 is configured per BWP.
R1-2200758 FL summary#3 of DCI-based power saving adaptation Moderator (vivo)
From Jan 25th GTW session
Working Assumption
· The bit length of the candidate skipping values and SSSG switching initial timer values in slots for 480kHz and 960kHz SCS are assumed to be the same as that for 120KHz SCS.
Agreement
PDCCH monitoring adaptation is only applied to the individual scheduling cell (including self-scheduling and cross-carrier scheduling)
Conclusion
For Rel-17 PDCCH monitoring adaptation, the case where single DCI indicates monitoring adaptation for multiple cells is not supported.
Agreement
For PDCCH monitoring adaptation case 1, support at most M = 3 for PDCCH skipping with 2 bits indication.
Agreement
The configuration of PDCCH monitoring adaptation is common for DCI format x-1 and x-2, neither Alt 1 nor Alt 2 is agreed,
· Alt 1: Support RRC parameter configured for the PDCCH monitoring adaptation indication field presence/absence in DCI format x-2.
· Alt 2: The configuration of PDCCH monitoring adaptation is common for DCI format x-1 and x-2, except skipping duration for DCI format x-2 (i.e., PDCCHSkippingDurationList-r17-x-2 for DCI format x-2). The PDCCH monitoring adaptation indication field for DCI format x-2 is dependent on PDCCHSkippingDurationList-r17-x-2 if configured.
Conclusion
No consensus to introduce non-scheduling DCI based PDCCH monitoring adaptation for Rel-17.
R1-2200070 Further discussion on power saving for RRC connected UEs ZTE, Sanechips
R1-2200482 Evaluation results for UE power saving schemes Ericsson
R1-2200537 On the evaluation methodology of NR network power consumption MediaTek Inc.
R1-2202787 Session notes for 8.7 (Maintenance on UE Power Saving Enhancements) Ad-hoc Chair (CMCC)
[108-e-R17-RRC-PowSav] – Weide (MediaTek)
Email discussion on Rel-17 RRC parameters for UE power saving
- 1st check point for first LS in [108-e-R17-RRC]: February 24
- Final check point for second LS in [108-e-R17-RRC] if necessary: March 3
R1-2203008 Summary of email discussion on Rel-17 RRC parameters for UE power saving Moderator (MediaTek)
Document is noted. For consolidation under 8 in [108-e-R17-RRC].
R1-2202933 Collection of RAN1 agreements for UE power saving enhancements for NR (post RAN1 #108-e) WI Rapporteur (MediaTek)
R1-2200944 Remaining issues on Paging enhancements for UE power saving in IDLE/inactive mode Huawei, HiSilicon
R1-2201101 Remaining issues on paging enhancements for idle/inactive mode UE power saving vivo
R1-2201130 Remaining issues of power saving enhancements for paging ZTE, Sanechips
R1-2201280 Further discussion on Paging enhancements for power saving OPPO
R1-2201370 Remaining issues of Paging enhancement for UE power saving CATT
R1-2201484 Discussion on paging enhancement NTT DOCOMO, INC.
R1-2201551 Discussion on potential paging enhancements for UE power saving Spreadtrum Communications
R1-2201641 On remaining issues of paging enhancement Panasonic
R1-2201705 Discussion on remaining aspects of the design of paging enhancements Intel Corporation
R1-2201777 Remaining issues on paging enhancements for idle/inactive UEs Apple
R1-2201865 Remaining issues on paging early indication CMCC
R1-2201917 Remaining issues on paging enhancement for power saving Xiaomi
R1-2202022 Maintenance on paging enhancements Samsung
R1-2202068 Maintenance on Paging Enhancements MediaTek Inc.
R1-2202148 Remaining issues on paging early indication design Qualcomm Incorporated
R1-2202216 Maintenance for Paging Enhancements Ericsson
R1-2202236 Discussion on PEI Design Transsion Holdings
R1-2202247 Remaining issues on paging enhancements InterDigital, Inc.
R1-2202328 Open items on paging enhancements for UE power saving Nokia, Nokia Shanghai Bell
R1-2202346 Discussion on potential paging enhancements LG Electronics
R1-2202384 On paging early indication Nordic Semiconductor ASA
[108-e-R17-PowSav-01] – Weide (MediaTek)
Email discussion for maintenance on potential paging enhancements
- 1st check point: February 25
- Final check point: March 3
R1-2202067 Summary#1 for Maintenance on Paging Enhancements Moderator (MediaTek)
Decision: As per email decision posted on Feb 28th,
Conclusion
For Rel-17, the following for paging early indication design are not supported:
· Multiple PEI-Os for one PO
· UE assistance information for preferred offset between PEI-O and PO
· Different PEI configurations for different devices types
Agreement
The following TP for 38.202-h00, subclause 6 to reflect reception type with PEI-RNTI is endorsed.
----- Begin TP for 38.202-h00, subclause 6.2 -----
Table 6.2-1: Downlink "Reception Types"
|
"Reception Type" |
Physical Channel(s) |
Monitored |
Associated |
Comment |
|
<unchanged rows omitted for brevity> |
||||
|
P |
PDCCH |
CI-RNTI |
N/A |
|
|
Q |
PDCCH |
PEI-RNTI |
N/A |
Note1 |
Table 6.2-2: Downlink "Reception Type" combinations
|
Supported Combinations |
Comment |
||
|
PCell |
PSCell |
SCell |
|
|
1. RRC_IDLE |
|||
|
A + (B and/or (C1 or Q) and/or D0) + F0 |
|
|
Note 1 |
|
2. RRC_INACTIVE |
|||
|
A + (B and/or (C1 or Q) and/or D0) + F0 |
|
|
Note 1 |
|
< unchanged rows omitted for brevity> |
|||
----- End of TP for 38.202-h00, subclause 6.2 -----
Agreement
For the alignment with the following RAN2#116bis-e agreements,
|
è Both subgroupNumPerPO and Nsg-UEID range from 1 to 8. è If network supports PEI but not subgrouping, the wholeSubgroupConfig- r17 is absent. The parameter subgroupsNumPerPO is mandatory present if subgroupConfig-r17 is configured. |
· Adopt following TP to TS38.213 Section 10.4:
|
TS38.213v17.0.0] 10.4A PDCCH monitoring for early indication of paging A UE can be provided the following for detection of a DCI format 2_7 in RRC_IDLE state or in RRC_INACTIVE state [12, TS 38.331] - a search space set, by peiSearchSpace, to monitor PDCCH for detection of DCI format 2_7 according to a Type2A-PDCCH CSS set as described in clause 10.1 - a number of frames, by PEI-F_offset, from the start of a first paging frame of paging frames associated with a number of PDCCH monitoring occasions for DCI format 2_7 [17, TS 38.304] to the start of a frame - a number of symbols, by firstPDCCH-MonitoringOccasionOfPEI-O, from the start of the frame to the start of the first PDCCH monitoring occasion for DCI format 2_7 - a size, by payloadSizeDCI_format2_7 - a number of subgroups per paging
occasion, - a number of paging occasions associated
with the number of PDCCH monitoring occasions for DCI format 2_7, A
paging indication field of DCI format 2_7 includes |
· Adopt following TP to TS38.212 Section 7.3.1.3.8:
|
7.3.1.3.8 Format 2_7 DCI format 2_7 is used for notifying the paging early indication and TRS availability indication for one or more UEs. The following information is transmitted by means of the DCI format 2_7 with CRC scrambled by PEI-RNTI: -
Paging indication field – - - - Each bit in the field indicates one UE
subgroup of a paging occasion if subgroupsNumPerPO - TRS availability indication – 1, 2, 3, 4, 5, or 6 bits if TRS-ResourceSetConfig is configured; 0 bits otherwise. The size of DCI format 2_7 is indicated by the higher layer parameter payloadSizeDCI_format2_7, according to Clause 10.4A of [5, TS 38.213]. If the number of information bits in format 2_7 is less than the size of format 2_7, the remaining bits are reserved. |
Agreement
· Adopt the following TP to Section 10 of TS 38.213
|
10 UE procedure for receiving control information *** Unchanged text is omitted *** If the UE is configured with a SCG, the UE shall apply the procedures described in this clause for both MCG and SCG except for PDCCH monitoring in Type0/0A/2/2A-PDCCH CSS sets where the UE is not required to apply the procedures in this clause for the SCG - When the procedures are applied for MCG, the terms 'secondary cell', 'secondary cells' , 'serving cell', 'serving cells' in this clause refer to secondary cell, secondary cells, serving cell, serving cells belonging to the MCG respectively. - When the procedures are applied for SCG, the terms 'secondary cell', 'secondary cells', 'serving cell', 'serving cells' in this clause refer to secondary cell, secondary cells (not including PSCell), serving cell, serving cells belonging to the SCG respectively. The term 'primary cell' in this clause refers to the PSCell of the SCG. *** Unchanged text is omitted *** |
Decision: As per email decision posted on Mar 1st,
Conclusion
SFN of the first PF of the PF(s) associated
with the PEI-O is provided by (SFN of UE’s PF)
- 
From Mar 3rd GTW session
Agreement
· Confirm the following working assumption:
|
Working assumption SearchSpaceId = 0 can be configured for peiSearchSpace for the case of CORESET multiplexing pattern 2 or 3 |
· When SearchSpaceId = 0 is configured for peiSearchSpace, subject to SS/PBCH block and CORESET multiplexing pattern 2 or 3, the PDCCH monitoring occasions for PEI-O are same as for RMSI as defined in clause 13 in TS 38.213.
o UE determines first PDCCH MO for PEI-O based on PEI-F_offset and firstPDCCH-MonitoringOccasionOfPEI-O, as previously agreed for the case with SearchSpaceId > 0.
§ Note: UE expects the first PDCCH MO for PEI-O determined from PEI-F_offset and firstPDCCH-MonitoringOccasionOfPEI-O is aligned with the MOs for RMSI as defined in clause 13 in TS 38.213.
R1-2200945 Remaining issue on assistance TRS occasions for IDLE/inactive mode Huawei, HiSilicon
R1-2201102 Remaining issues on TRS/CSI-RS occasion(s) for idle/inactive UEs vivo
R1-2201131 Remaining issues of TRS for RRC idle and inactive UEs ZTE, Sanechips
R1-2201281 Further discussion on RS occasion for idle/inactive UEs OPPO
R1-2201371 Remaining issues of TRS/CSI-RS for paging enhancement CATT
R1-2201485 Discussion on TRS/CSI-RS occasion for idle/inactive Ues NTT DOCOMO, INC.
R1-2201552 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs Spreadtrum Communications
R1-2201642 Remaining issues on enhancements for TRS/CSI-RS occasion(s) for idle/inactive UEs Panasonic
R1-2201706 Discussion on the remaining details of TRS/CSI-RS occasions in idle/inactive time Intel Corporation
R1-2201778 Remaining issues on indication of TRS configurations for idle/inactive UEs Apple
R1-2201866 Remaining issues on TRS/CSI-RS occasion(s) for idle/inactive UEs CMCC
R1-2201918 Remaining issues on TRS/CSI-RS configuration and indication for idle/inactive UEs Xiaomi
R1-2202023 Maintenance on TRS/CSI-RS occasion(s) for idle/inactive UEs Samsung
R1-2202069 Maintenance on TRS/CSI-RS Information for idle/inactive UEs MediaTek Inc.
R1-2202149 Remaining issues on idle and inactive TRS Qualcomm Incorporated
R1-2202195 Remaining issues on TRS/CSI-RS occasions for idle/inactive UEs Sharp
R1-2202217 Maintenance for TRS occasion provisioning for Idle/Inactive UEs Ericsson
R1-2202248 Remaining issues on TRS/CSI-RS occasions for idle/inactive UEs InterDigital, Inc.
R1-2202329 Open issues on n TRS information forto IDLE/INACTIVE mode UEs Nokia, Nokia Shanghai Bell
R1-2202347 Discussion on TRS/CSI-RS occasion(s) for idle/inactive UEs LG Electronics
R1-2202385 On TRS design for idle/inactive UEs Nordic Semiconductor ASA
[108-e-R17-PowSav-02] – Qiongjie (Samsung)
Email discussion for maintenance on TRS/CSI-RS occasions for idle/inactive UEs
- 1st check point: February 25
- Final check point: March 3
R1-2202024 Moderator Summary#1 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
R1-2202650 Moderator Summary #2 on TRS/CSI-RS occasion(s) for idle/inactive UEs Moderator (Samsung)
Decision: As per email decision posted on Feb 25th,
Agreement
The following TP to TS 38.213 is endorsed
|
10.4B Indication of TRS resources A
UE in RRC_IDLE state or RRC_INACTIVE state can be provided by TRS-ResourceSetConfig
a set of TRS occasions [6, TS 38.214]. If TRS-ResourceSetConfig is
provided, a DCI format 2_7 if configured
A
value of '1' for a bit of the bitmap indicates presence of associated TRS
resource sets for the multiple of the number of frames, starting from a SFN
determined from *** Unchanged text is omitted *** |
Agreement
The following TP to TS 38.214 is endorsed
|
5.1.6.1.1 CSI-RS for tracking <omitted text> Each NZP CSI-RS resource, defined in Clause 7.4.1.5.3 of [4, TS 38.211], is configured by the higher layer parameter TRS-ResourceSet with the following restrictions for a UE in RRC_IDLE or RRC_INACTIVE: - the number of periodic NZP CSI-RS resources configured by a TRS-ResourceSet is given by numberOfresources - the time-domain locations of the two CSI-RS resources in a slot, or of the four CSI-RS resources in two consecutive slots (which are the same across two consecutive slots), is one of - - - where the first symbol location in a slot is indicated by firstOFDMSymbolInTimeDomain in the TRS-ResourceSet and the second symbol location in a slot is firstOFDMSymbolInTimeDomain + 4 - a
single port CSI-RS resource with density - the
bandwidth and the frequency location of the NZP CSI-RS resource, is given by
the higher layer parameter nrofRBs, startingRB and frequencyDomainAllocation
in a TRS-ResourceSet and applies to all resources in a TRS-ResourceSet.
- UE is not required to receive TRS occasions outside the initial DL BWP. - the
periodicity for periodic NZP CSI-RS resources, is given by the higher layer
parameter periodicityAndOffset configured by a TRS-ResourceSet, is one of - the
UE does not expect the TRS-ResourceSet to be configured with the
periodicity of - the UE may assume the sub-carrier spacing of the NZP CSI-RS resources configured by TRS-ResourceSet to be same as the sub-carrier spacing of the initial DL BWP. - powerControlOffsetSS given by a TRS-ResourceSet applies to all resources in a TRS-ResourceSet. - the QCL information for periodic NZP CSI-RS resources, is given by the higher layer parameter ssb-Index configured by a TRS-ResourceSet, is a SS/PBCH block, applies to all resources in a TRS-ResourceSet. - One or more scramblingIDs where if a single scramblingID is configured, it applies to all NZP-CSI-RS resources in the resource set, otherwise, each NZP-CSI-RS resource is provided with a scramblingID. - the UE may assume the following quasi co-location type(s): - 'typeC' with an SS/PBCH block and, when applicable, 'typeD' with the same SS/PBCH block. For each TRS-ResourceSet the index of the associated bit in TRS availability indication field [5, TS 38.212], is given by the higher layer parameter indBitID. <omitted text> |
Conclusion
No consensus to support
Decision: As per email decision posted on Mar 3rd,
Conclusion
A UE can receive different TRS availability indication content from PEI and associated paging PDCCH.
· Note: It is up to UE implementation whether UE receives both PEI and the associated paging PDCCH to receive TRS availability indication
Conclusion
No consensus to support
· For PEI based availability indication, the reference time of the start of validity duration follows the reference time for associated monitoring occasion for the paging DCI.
From Mar 3rd GTW session
Agreement
Down-select one of the TPs to clarify the current default DRX cycle used for determining the reference point for start of validity duration for an availability indication
· Alt1: Adopt TP#1
· Alt2: Adopt TP#2
· Note: TRS availability indication transmitted in all PDCCH monitoring occasions of the same PEI-O or PO is same.
· Note: Reference point for TRS availability indication in a given DCI is identical for all UEs regardless of UE specific DRX value.
|
============================= start of TP#1========================================== 10.4B Indication of TRS resources <omitted text> A
value of '1' for a bit of the bitmap indicates presence of associated TRS
resource sets for the multiple of the number of frames, starting from a SFN
determined from ============================= end of TP#1==========================================
============================= start of TP#2========================================== 10.4B Indication of TRS resources <omitted text> A
value of '1' for a bit of the bitmap indicates presence of associated TRS
resource sets for the multiple of the number of frames, starting from a SFN
determined from ============================= end of TP#2========================================== |
Decision: As per email decision posted on Mar 3rd,
Agreement
TRS-ResourceSetConfig IE is not accounted in determination of available resource elements for PDSCH.
Final summary in R1-2202651.
R1-2201132 Simulation results of UE power saving in RRC idle and inactive state ZTE, Sanechips
R1-2202218 Modeling of NR gNB power consumption Ericsson
R1-2202426 Evaluation of power saving gain for IDLE mode power saving enhancements in Rel-17 Huawei, HiSilicon
R1-2200946 Remaining issues on the extensions to Rel-16 DCI-based power saving adaptation for an active BWP Huawei, HiSilicon
R1-2201103 Remaining issues on DCI-based power saving adaptation in connected mode vivo
R1-2201133 Remaining issues of PDCCH monitoring adaptation during DRX Active Time ZTE, Sanechips
R1-2201282 Remaining issues for DCI-based power saving adaptation OPPO
R1-2201372 Remaining issues of PDCCH monitoring adaptation CATT
R1-2201486 Discussion on extension to DCI-based power saving adaptation NTT DOCOMO, INC.
R1-2201553 Discussion on power saving techniques for connected-mode UEs Spreadtrum Communications
R1-2201613 Remaining issues on DCI-based power saving adaptation during DRX active time ETRI
R1-2201643 Remaining issues for extensions to Rel-16 DCI-based power saving adaptation during DRX Active Time Panasonic
R1-2201707 Discussion on remaining aspects of power saving in active time Intel Corporation
R1-2201779 Remaining details on enhanced DCI-based power saving adaptation Apple
R1-2201867 Remaining issues on PDCCH monitoring reduction during DRX active time CMCC
R1-2201919 Remaining issues on PDCCH monitoring adaptation for power saving Xiaomi
R1-2202025 Maintenance on DCI-based power saving techniques Samsung
R1-2202070 Maintenance on DCI-based PDCCH Monitoring Adaptation MediaTek Inc.
R1-2202094 Enhanced DCI based power saving adaptation Lenovo
R1-2202150 DCI-based power saving adaptation during DRX ActiveTime Qualcomm Incorporated
R1-2202219 Maintenance for active time power savings mechanisms Ericsson
R1-2202249 Remaining issues on DCI-based power saving adaptation InterDigital, Inc.
R1-2202330 Open issues on PDCCH monitoring adaptation for UE power saving Nokia, Nokia Shanghai Bell
R1-2202348 Discussion on DCI-based power saving adaptation during DRX ActiveTime LG Electronics
R1-2202365 Remaining issues on DCI-based power saving adaptation NEC
R1-2202386 On PDCCH monitoring adaptation Nordic Semiconductor ASA
[108-e-R17-PowSav-03] – Xiaodong (vivo)
Email discussion regarding potential extension(s) to Rel-16 DCI-based power saving adaptation during DRX ActiveTime
- 1st check point: February 25
- Final check point: March 3
R1-2202573 FL summary#1 of DCI-based power saving adaptation Moderator (vivo)
From Feb 23rd GTW session
Working Assumption (Excerpted from RAN#107bis-e)
· The bit length of the candidate skipping values and SSSG switching initial timer values in slots for 480kHz and 960kHz SCS are assumed to be the same as that for 120KHz SCS
Agreement
· The 480kHz and 960kHz SCS are also supported for Rel-17 PDCCH monitoring adaptation.
Agreement
· It is up to B52.6GHz to deicide the values for candidate skipping values and SSSG switching initial timer values.
Agreement
For DCI format 0_1, DCI format 0_2, DCI format 1_1 and DCI format 1_2,
o 1 bit if the UE is configured by searchSpaceGroupIdList-r17 with search space set(s) with group index 0 and search space set(s) with group index 1, and if the UE is not configured by searchSpaceGroupIdList-r17 with any search space set with group index 2;
o 2 bits if the UE is configured by searchSpaceGroupIdList-r17 with search space set(s) with group index 0, search space set(s) with group index 1 and search space set(s) with group index 2;
Note: Same as in existing specifications, specifications allow gNB to configure a search-space set with zero PDCCH candidates.
R1-2202574 FL summary#2 of DCI-based power saving adaptation Moderator (vivo)
From Feb 25th GTW session
Agreement
Answer 1 for R1-2200884 (R2-2201960):
Yes, PDCCH skipping can be applied to C-RNTI(s) and MCS-C-RNTI(s) in at least Type3 PDCCH CSS and USS monitored during RAR/MsgB window for RAR/MsgB reception based on RAN1 agreements till RAN1#107bis-e.
Agreement
Answer 2 for R1-2200884 (R2-2201960):
RAN1 would discuss and conclude how to capture the above RAN2 agreements in RAN1 specification.
· It is RAN1 understanding PDCCH skipping is not applied to perform PDCCH monitoring during RAR window/MsgB window/contention resolution timer or when SR is pending.
· FFS: If the UE is skipping PDCCH monitoring for a duration and at the first slot after the last OFDM symbol of a positive SR transmission in PUCCH, the UE stops PDCCH skipping (i.e., PDCCH skipping is not activated ).
R1-2202738 FL summary#3 of DCI-based power saving adaptation Moderator (vivo)
R1-2202739 FL summary#4 of DCI-based power saving adaptation Moderator (vivo)
From Mar 3rd GTW session
Agreement
Answer 4 for R1-2200884 (R2-2201960):
· It is RAN1’s understanding that transmission of CSI/SRS is not affected by PDCCH skipping i.e. CSI/SRS is still transmitted during the skipping duration.
Agreement
It is RAN1 understanding that for DRX operation,
· As DCP is monitored only outside active time, it cannot be missed due to PDCCH skipping as skipping applies only in active time.
Note: RAN1 is discussing whether PDCCH skipping duration can apply to outside active time.
Agreement
If a UE is provided group indexes for a Type3-PDCCH CSS set or a USS set by searchSpaceGroupIdList-r17 and a timer value by searchSpaceSwitchTimer-r17 for PDCCH monitoring on a serving cell and the timer is running, the UE
· Resets the timer after a slot of the active DL BWP of the serving cell when the UE detects a DCI format in a PDCCH reception in the slot with CRC scrambled by
o Working Assumption: C-RNTI/CS-RNTI/MCS-C-RNTI
· Otherwise, decrease the timer value by one after each slot.
· Note: There is no timer for SSSG switching is running for UE in SSSG#0
R1-2202896 [Draft] LS reply on PDCCH skipping vivo
The draft LS is endorsed in principle. Final LS is approved in R1-2202905.
Working Assumption
· Upon detecting a scheduling DCI format 1-1/1-2/0-1/0-2 indicating SSSG switching (i.e., Beh 2/2A/2B),
o the UE applies SSSG switching on an active BWP of the serving cell at a first slot that is at least Pswitch symbols after the last symbol of the PDCCH reception
§ FFS: a minimum applicable scheduling offset is configured in the BWP
o Note: Pswitch is defined in Table 10.4-1 in TS38.213
Agreement
· Upon detecting a scheduling DCI format 1-1/1-2/0-1/0-2 indicating PDCCH skipping (i.e., Beh 1A),
o Alt 1a: the UE applies Beh 1A on an active BWP of the serving cell at the first slot after the last OFDM symbol of the PDCCH reception
§ FFS: a minimum applicable scheduling offset is configured in the BWP
§ FFS: whether the UE will monitor PDCCH when DRX Retransmission timer is running
Agreement
When the timer expires, the UE monitors PDCCH on the serving cell according to search space sets with group index 0 in a slot
· no earlier than [application delay] after the slot where timer expires and
· if PDCCH skipping is being applied, no earlier than in slot where PDCCH skipping duration expires.
Working assumptions:
· When the UE receives DCI format 0_1 /1_1/0_2/1_2 with a ‘PDCCH monitoring adaptation indication' field in slot n, the UE does not expect to receive DCI format 0_1 /1_1/0_2/1_2 with a ‘PDCCH monitoring adaptation indication’ field indicating change to another SSSG or skipping for the same active BWP of the scheduling cell before slot n+X of the scheduling cell, where X is the value of the application delay.
· If SSSG timer expires in slot n, the UE does not expect to receive DCI format 0_1 /1_1/0_2/1_2 with a ‘PDCCH monitoring adaptation indication’ field indicating change to another SSSG or skipping for the same active BWP of the scheduling cell before slot n+X of the scheduling cell, where X is the value of the application delay.
Final summary in R1-2202895.
R1-2201893 Discussion on power saving for RRC connected UE ZTE, Sanechips
R1-2202220 Evaluation results for UE power saving schemes Ericsson
R1-2202476 Discussion on UE assumption of TRS availability Huawei, HiSilicon
R1-2205565 Session notes for 8.7 (Maintenance on UE Power Saving Enhancements) Ad-hoc Chair (CMCC)
R1-2205638 Collection of RAN1 agreements for UE power saving enhancements for NR (post RAN1 #109-e) Rapporteur (MediaTek)
R1-2205392 Preparation phase summary of maintenance on idle/inactive UE power saving enhancements Moderator (MediaTek)
R1-2203085 Remaining issues on UE power saving in IDLE/inactive mode Huawei, HiSilicon
R1-2203310 Remaining issues on enhancements for idle/inactive-mode UE power saving Spreadtrum Communications
R1-2203478 Remaining issues of Paging enhancement and TRS/CSI-RS CATT
R1-2203519 Remaining issues on idle/inactive-mode UE power saving vivo
R1-2203595 Remaining issues of idle/inactive-mode UE power saving ZTE, Sanechips
R1-2203789 Remaining issues on power saving enhancement for idle/inactive UEs xiaomi
R1-2203867 Maintenance on enhancements for idle/inactive-mode UE power saving Samsung
R1-2204071 Remaining issues on Enhancements for idle/inactive-mode UE power saving Panasonic
R1-2204175 Remaining issues on idle/inactive-mode UE power saving Sharp
R1-2204210 Remaining issues on idle/inactive-mode UE power saving Apple
R1-2204604 Open issues on Idle/Inactive mode power saving Nokia, Nokia Shanghai Bell
R1-2204620 Remaining issue on TRS/CSI-RS occasion(s) for idle/inactive UEs LG Electronics
R1-2204704 Maintenance on idle/inactive-mode UE power saving MediaTek Inc.
R1-2204745 On remaining issues of TRS design for idle/inactive UEs Nordic Semiconductor ASA
R1-2204773 Discussion on remaining aspects of UE Power saving in idle/inactive mode Intel Corporation
R1-2204959 Maintenance for Rel-17 UE PS : Idle/Inactive mode Ericsson
R1-2204988 Maintenance issues on idle and inactive mode UE power saving Qualcomm Incorporated
[109-e-R17_PowSav-01] – Weide (MediaTek)
Email discussion under 8.7.1 for maintenance on idle/inactive power saving enhancements, for proposals in the FL summary of the preparation phase discussion, including Proposal 2.1-1, Proposal 2.4-1, Proposal 3.1-1, Proposal 3.2-1, Proposal 3.4-1, Proposal 3.4-2, Conclusion 2.2-1, Proposal 2.4-2, Proposal 2.4-3
- Discussion and decision by May 20
R1-2205394 Summary#1 of maintenance on idle/inactive UE power saving enhancements Moderator (MediaTek)
Decision: As per email decision posted on May 14th,
Conclusion
Reference to Type2A-PCCCH CSS is not added to the text describing the UE behavior when configured with C-RNTI.
Agreement
· To clarify reference point of TRS availability indication, adopt the TP of proposal 3.1-1 in R1-2205394 to Section 10.4B of TS 38.213
Agreement
· Adopt the TP of proposal 3.4-1 in R1-2205394 to Section 7.4.1.5.1 of TS38.211
· Adopt the TP of proposal 3.4-2 in R1-2205394 to Section 7.4.1.5.3 of TS38.211
Decision: As per email decision posted on May 18th,
Agreement
· Adopt the following TP1 for 38.213-h10, subclause 10.1 to clarify BDs/CCEs when searchSpaceZero is used for PEI.
==================== start of TP1 for 38.213-h10, subclause 10.1===========================
If a UE is not provided peiSearchSpace for Type2A-PDCCH CSS set, the UE does not monitor PDCCH for Type2A-PDCCH CSS set on the DL BWP. The CCE aggregation levels and the maximum number of PDCCH candidates per CCE aggregation level for Type2A-PDCCH CSS set are given in Table 10.1-1. If the UE is provided peiSearchSpace with zero value for the Type2A-PDCCH CSS set index, and for the SS/PBCH block and CORESET multiplexing patterns 2 and 3, the UE determines PDCCH monitoring occasions as described in clause 13 and the CCE aggregation levels and the number of PDCCH candidates per CCE aggregation level are given in Table 10.1-1.
============================= end of TP==========================================
Agreement
· Adopt the following TP to Section 10.4A of TS 38.213.
============================= start of TP==========================================
10.4A PDCCH monitoring for early indication of paging
A UE can be provided the following for detection of a DCI format 2_7 in RRC_IDLE state or in RRC_INACTIVE state [12, TS 38.331]
- a search space set, by peiSearchSpace, to monitor PDCCH for detection of DCI format 2_7 according to a Type2A-PDCCH CSS set as described in clause 10.1
- a number
of frames, by PEI-F_offset, from the start of a frame to the start of
a first paging frame of paging frames associated with a number of PDCCH
monitoring occasions for DCI format 2_7 [17, TS 38.304] to the start
of a frame
- a number of symbols, by firstPDCCH-MonitoringOccasionOfPEI-O, from the start of the frame to the start of the first PDCCH monitoring occasion for DCI format 2_7
- a size, by payloadSizeDCI_format2_7
- a number
of subgroups per paging occasion, 
, by subgroupsNumPerPO
- a number
of paging occasions associated with the number of PDCCH monitoring occasions
for DCI format 2_7, 
, by PONumPerPEI
<Unchanged text omitted>
============================= end of TP==========================================
Agreement
TRS-ResourceSetConfig IE does not affect the UE behaviour in CONNECTED mode and can be ignored by UE in CONNECTED mode.
Agreement
· Adopt the TP3 for determining TRS availability indication field length to 38.212, clause 7.3.1.2.1 and clause 7.3.1.3.8.
============================= start of TP==========================================
7.3.1.2.1 Format 1_0
The following information is transmitted by means of the DCI format 1_0 with CRC scrambled by P-RNTI:
< Unchanged parts are omitted >
-
TRS availability indication – 1, 2, 3, 4, 5, or 6 bits,
where the number of bits is equal to one plus the highest value of all
the indBitID(s) provided by the TRS-ResourceSetConfig if TRS-ResourceSetConfig is configured;
0 bits otherwise.
- Reserved bits – (8 – M) bits for operation in a cell with shared spectrum channel access in frequency range 1 or for operation in a cell in frequency range 2-2; (6 – M) bits for operation in a cell without shared spectrum channel access, where the value of M is the number of bits for the field of 'TRS availability indication' as defined above.
< Unchanged parts are omitted >
7.3.1.3.8 Format 2_7
The following information is transmitted by means of the DCI format 2_7 with CRC scrambled by PEI-RNTI:
< Unchanged parts are omitted >
- TRS availability indication – 1, 2, 3,
4, 5, or 6 bits, where the number of bits is equal to one plus the highest value of
all the indBitID(s) provided by the TRS-ResourceSetConfig if TRS-ResourceSetConfig is configured;
0 bits otherwise.
============================= end of TP==========================================
R1-2205477 Summary#2 of maintenance on idle/inactive UE power saving enhancements Moderator (MediaTek)
Decision: As per email decision posted on May 19th,
Agreement
For alignment with the following RAN2 agreements,
|
(RAN2#117-e) - RAN2 confirms that “PEI without subgrouping” can be implemented by configuring PEI plus UEID subgrouping with one subgroup. - PEI without subgrouping” can be configured by only one method. |
|
(RAN2#118-e) - Keep RAN2 agreement that “PEI without subgrouping” can only be implemented by configuring PEI plus UEID subgrouping with one subgroup. Clarify that there is always at least one subgroup whenever PEI is configured. Consider to rephrase the field descriptions of subgroupsNumPerPO and subgroupsNumForUEID to reflect this (details for CR discussion). |
adopt the TPs of Proposal 2.1-1 in R1-2205477for clause 7.3.1.3.8 of TS 38.212 and clause 10.4A of TS 38.213, respectively.
Note: To editors, the proposals cited by the agreements could be found in the section of the final summary in
R1-2205548 Summary#3 of maintenance on idle/inactive UE power saving enhancements Moderator (MediaTek)
R1-2205393 Preparation phase summary of maintenance on PDCCH monitoring adaptation Moderator (MediaTek)
R1-2203086 Remaining issues on the extensions to Rel-16 DCI-based power saving adaptation for an active BWP Huawei, HiSilicon
R1-2203311 Remaining issues on enhancements for power saving adaptation during active time Spreadtrum Communications
R1-2203479 Remaining issues of PDCCH monitoring adaptation CATT
R1-2203520 Remaining issues on DCI-based power saving adaptation in connected mode vivo
R1-2203596 Remaining issues of PDCCH monitoring adaptation ZTE, Sanechips
R1-2203790 Remaining issues on PDCCH monitoring adaptation for power saving xiaomi
R1-2203868 Maintenance on DCI-based power saving techniques Samsung
R1-2203993 Remaining issues for DCI-based power saving adaptation OPPO
R1-2204072 Remaining issues for extensions to Rel-16 DCI-based power saving adaptation during DRX Active Time Panasonic
R1-2204211 Remaining details on enhanced DCI-based power saving adaptation Apple
R1-2204348 Discussion on extension to DCI-based power saving adaptation NTT DOCOMO, INC.
R1-2204605 Open issues on PDCCH monitoring adaptation for UE power saving Nokia, Nokia Shanghai Bell
R1-2204621 Remaining issues on DCI-based power saving adaptation during DRX ActiveTime LG Electronics
R1-2204705 Maintenance on DCI-based PDCCH Monitoring Adaptation MediaTek Inc.
R1-2204746 On remaining issues of PDCCH monitoring adaptation Nordic Semiconductor ASA
R1-2204774 Discussion on remaining issues of DCI-based PDCCH monitoring adaptation in active time Intel Corporation
R1-2204828 Remaining issues on DCI-based power saving adaptation InterDigital, Inc.
R1-2204960 Maintenance for Rel-17 UE PS : PDCCH monitoring adaptation Ericsson
R1-2205006 DCI-based power saving adaptation during DRX ActiveTime Qualcomm Incorporated (rev of R1-2204989)
[109-e-R17_PowSav-02] – Xiaodong (vivo)
Email discussion under 8.7.2 for maintenance on PDCCH monitoring adaptation, for issues in the FL summary of the preparation phase discussion, including Issue 2-1, Issue 3-1 (merging Issue 3-2), Issue 3-3, Issue 3-4, Issue 4, Issue 9, Issue 1
- Discussion and decision by May 20
R1-2205277 FL summary#1 of DCI-based power saving adaptation Moderator (vivo)
Decision: As per email decision posted on May 17th,
Agreement
Confirm the following working assumption in below agreement, and no specification impact is needed.
Agreement
If a UE is provided group indexes for a Type3-PDCCH CSS set or a USS set by searchSpaceGroupIdList-r17 and a timer value by searchSpaceSwitchTimer-r17 for PDCCH monitoring on a serving cell and the timer is running, the UE
· Resets the timer after a slot of the active DL BWP of the serving cell when the UE detects a DCI format in a PDCCH reception in the slot with CRC scrambled by
o Working Assumption: C-RNTI/CS-RNTI/MCS-C-RNTI
· Otherwise, decrease the timer value by one after each slot.
· Note: There is no timer for SSSG switching is running for UE in SSSG#0
Decision: As per email decision posted on May 20th,
Agreement
Down-select from the followings,
- Alt-1: The PDCCH skipping applies only in active time. The PDCCH skipping duration decrements by slot irrespective whether UE is in active time or not
- Alt-2: The PDCCH skipping applies only in active time. PDCCH skipping is terminated when UE goes into outside active time.
Conclusion:
No consensus to skip PDCCH monitoring in search space set(s)other than type 3 CSS and USS.
Agreement
· If the UE is indicated a skipping of PDCCH monitoring, UE terminates the skipping of PDCCH monitoring from the first slot after the last OFDM symbol of a positive SR transmission.
Final summary in
R1-2205278 FL summary#2 of DCI-based power saving adaptation Moderator (vivo)
For any other maintenance issues on UE Power Saving Enhancements
R1-2203597 Discussion on power saving for RRC connected UEs ZTE, Sanechips
R1-2204897 Discussion on UE assumption of TRS availability Huawei, HiSilicon
R1-2204961 Related aspects of Rel-17 UE PS maintenance Ericsson
R1-2208138 Session notes for 8.7 (Maintenance on UE Power Saving Enhancements) Ad-hoc Chair (CMCC)
[110-R17-PowSav] Email to be used for sharing updates on online/offline schedule, details on what is to be discussed in online/offline sessions, tdoc number of the moderator summary for online session, etc – Weide (MediaTek)
R1-2205794 Correction on TRS not affecting UE behavior in CONNECTED mode Huawei, HiSilicon
R1-2205795 Retransmission handling during PDCCH skipping duration Huawei, HiSilicon
R1-2205796 Correction on retransmission handling during PDCCH skipping duration Huawei, HiSilicon
R1-2205797 Correction on PDCCH monitoring adaptation and BWP switching Huawei, HiSilicon
R1-2205798 Correction on PDCCH skipping with C-DRX operation Huawei, HiSilicon
R1-2205799 Correction on PDCCH monitoring adaptation for RACH procedure Huawei, HiSilicon
R1-2205975 Remaining issues on UE power saving enhancements Spreadtrum Communications
R1-2206299 Remaining issues for DCI-based power saving adaptation OPPO
R1-2206300 Draft CR for DCI-based power saving adaptation OPPO
R1-2206374 Remaining issues of PDCCH monitoring adaptation CATT
R1-2206552 Remaining issues of DCI-based PDCCH monitoring adaptation in active time Intel Corporation
R1-2206617 Remaining issues of PDCCH monitoring adaptation for power saving Xiaomi
R1-2206618 UE hehavior for PDCCH monitoring adaptation and BWP switching indicated in the same DCI Xiaomi
R1-2206752 Correction on PDCCH skipping for RACH procedure vivo
R1-2206753 Correction on Skipping duration within active time vivo
R1-2206754 Correction on PDCCH monitoring adaptation and BWP switching vivo
R1-2207006 Maintenance on UE Power Saving Enhancements MediaTek Inc.
R1-2207049 Discussion on remaining issues of UE power saving ZTE, Sanechips
R1-2207050 Correction on RRC parameters in TS38.212 ZTE, Sanechips
R1-2207051 Correction on RRC parameters in TS38.213 ZTE, Sanechips
R1-2207052 Correction on RRC parameters in TS38.214 ZTE, Sanechips
R1-2207053 Correction on PDCCH monitoring adaptation and BWP switching procedures ZTE, Sanechips
R1-2207054 Correction on PDCCH monitoring adaptation for RACH procedure ZTE, Sanechips
R1-2207055 Correction on search space set group switching and skipping of PDCCH monitoring ZTE, Sanechips
R1-2207083 Open issues on Idle/Inactive mode power saving Nokia, Nokia Shanghai Bell
R1-2207084 Open issues on PDCCH monitoring adaptation for UE power saving Nokia, Nokia Shanghai Bell
R1-2207197 Maintenance on UE Power Saving Enhancements Qualcomm Incorporated
R1-2207198 Draft CR on UE power saving enhancement Qualcomm Incorporated
R1-2207199 Draft CR on UE power saving enhancement Qualcomm Incorporated
R1-2207200 Draft CR on UE power saving enhancement Qualcomm Incorporated
R1-2207312 Maintenance on UE power saving enhancements Apple
R1-2207371 Correction on TRS for idle or inactive state UEs ZTE, Sanechips
R1-2207431 Discussion on corrections for PDCCH monitoring adaptation Ericsson
R1-2207432 Correction for PDCCH skipping during RAR window Ericsson
R1-2207433 Draft CR for PDCCH skipping interaction with HARQ retransmission and duration overlap with active time Ericsson
R1-2207434 Corrections for SSSG switching Ericsson
R1-2207435 Corrections for TRS occasions Ericsson
R1-2207638 Other remaining issues on UE power saving in IDLE/inactive mode Huawei, HiSilicon
R1-2207646 Correction on power saving for IDLE mode UE Huawei, HiSilicon
R1-2207653 Correction on parameter names for UE power saving Huawei, HiSilicon
R1-2207654 Correction on TRS occasions for IDLE mode UE Huawei, HiSilicon
R1-2207758 Summary#1 for maintenance on UE power saving enhancements Moderator (MediaTek Inc.)
Agreement
· Include the following correction to Clause 10.4 of TS 38.213 for UE behavior after expiration of bwp-InactivityTimer in a PDCCH skipping duration:
|
*** Unchanged text is omitted *** If the UE changes to a new active DL BWP of the serving cell by the expiration of bwp-InactivityTimer in a PDCCH skipping duration, the UE - resumes PDCCH monitoring according to the search space sets on the new active BWP of the serving cell, if the UE is not provided searchSpaceGroupIdList-r17 on the new active DL BWP - otherwise, monitors PDCCH according to search space sets with group index 0 on the new active BWP of the serving cell. If a UE is provided group indexes for a Type3-PDCCH CSS set or a USS set by searchSpaceGroupIdList-r17 and a timer value by searchSpaceSwitchTimer-r17 for PDCCH monitoring an active DL BWP of on a serving cell and the timer is running, the UE - resets the timer after a slot of the active DL BWP of the serving cell if the UE detects a DCI format in a PDCCH reception in the slot for with CRC scrambled by C-RNTI/CS-RNTI/MCS-C-RNTI - otherwise, decrements the timer value by one after a slot of the active DL BWP of the serving cell *** Unchanged text is omitted *** |
Conclusion
For Rel-17, RAN1 has no consensus in whether UE resumes monitor of PDCCH during skipping duration (i.e., PDCCH skipping is cancelled) when DRX Retransmission timer DL/UL is started.
Agreement
· Include the following TP to Clause 10.4, TS 38.213 related to PDCCH skipping and outside active time:
|
TP to Clause 10.4, TS 38.213 <Unchanged part omitted> When the PDCCH monitoring adaptation field indicates to a UE to skip PDCCH monitoring for a duration on the active DL BWP of a serving cell, the UE starts skipping of PDCCH monitoring at the beginning of a first slot that is after the last symbol of the PDCCH reception providing the DCI format with the PDCCH monitoring adaptation field. If the UE transmits a PUCCH providing a positive SR after the UE detects a DCI format providing the PDCCH monitoring adaptation field indicating to the UE to skip PDCCH monitoring for the duration on the active DL BWP of the serving cell, the UE resumes PDCCH monitoring starting at the beginning of a first slot that is after a last symbol of the PUCCH transmission. If the DRX group of the serving cell is configured and enters outside Active Time, the UE terminates PDCCH skipping for the serving cell. <Unchanged part omitted> |
R1-2207970 Summary#2 for maintenance on UE power saving enhancements Moderator (MediaTek Inc.)
Agreement
· Adopt the following TP for capturing RAN1 and RAN2 agreements related to PDCCH skipping and RACH procedure.
|
TP to Clause 10.4, TS 38.213 <Unchanged part omitted> When the PDCCH monitoring adaptation field indicates to a UE to skip PDCCH monitoring for a duration on the active DL BWP of a serving cell, the UE starts skipping of PDCCH monitoring at the beginning of a first slot that is after the last symbol of the PDCCH reception providing the DCI format with the PDCCH monitoring adaptation field. If the UE transmits a PUCCH providing a positive SR after the UE detects a DCI format providing the PDCCH monitoring adaptation field indicating to the UE to skip PDCCH monitoring for the duration on the active DL BWP of the serving cell, the UE resumes PDCCH monitoring starting at the beginning of a first slot that is after a last symbol of the PUCCH transmission. During the time of ra-ResponseWindow or msgB-ResponseWindow or the duration where ra-ContentionResolutionTimer is running, the UE shall not skip PDCCH monitoring on SpCell. <Unchanged part omitted> |
Agreement
· Adopt the following correction to clause 7.3.1.5 of TS 38.211 for alignment with RAN1#109-e agreement, “TRS-ResourceSetConfig IE does not affect the UE behaviour in CONNECTED mode and can be ignored by UE in CONNECTED mode”
|
< Unchanged parts are omitted > 7.3.1.5 Mapping to virtual resource blocks
The
UE shall, for each of the antenna ports used for transmission of the physical
channel, assume the block of complex-valued symbols - they are in the virtual resource blocks assigned for transmission; - the corresponding physical resource blocks are declared as available for PDSCH according to clause 5.1.4 of [6, TS 38.214]; - the corresponding resource elements in the corresponding physical resource blocks are - not used for transmission of the associated DM-RS or DM-RS intended for other co-scheduled UEs as described in clause 7.4.1.1.2; - not used for non-zero-power CSI-RS, which is according to clause 7.4.1.5 and not configured by TRS-ResourceSet IE, if the corresponding physical resource blocks are for a PDSCH scheduled by a PDCCH with the CRC scrambled by C-RNTI, MCS-C-RNTI, CS-RNTI, G-RNTI, G-CS-RNTI, MCCH-RNTI, or a PDSCH with SPS, except if the non-zero-power CSI-RS is a CSI-RS configured by the higher-layer parameter CSI-RS-Resource-Mobility in the MeasObjectNR IE or except if the non-zero-power CSI-RS is an aperiodic non-zero-power CSI-RS resource; - not used for PT-RS according to clause 7.4.1.2; - not declared as 'not available for PDSCH according to clause 5.1.4 of [6, TS 38.214]. The
mapping to resource elements < Unchanged parts are omitted > |
Agreement
For time-domain resource determination of TRS for idle/inactive UEs, include the Possible Proposal 3-2a (2nd_Rnd) in Section 5 summary in R1-2207970 to clause 7.4.1.5.3 of TS 38.211.
R1-2208209 Draft LS on PDCCH skipping MediaTek
Decision: The draft LS is endorsed in principle by updating the contents to align with above agreements. Final LS is approved in R1-2208210.
Agreement
Corrections on UE power saving enhancements for NR in TS 38.211, TS38.212, TS38.213 are agreed. Final CRs in R1-2208276, R1-2208277, R1-2208278
MCC: Correct WI code to NR_UE_pow_sav_enh-Core in R1-2208278.
R1-2208199 Corrections on UE power saving enhancements for NR in TS 38.211 Moderator (MediaTek), Huawei, HiSilicon, ZTE, Sanechips
Decision: The draft is endorsed. Final CR (38.211, Rel-17, CR#0101, Cat F) is agreed in R1-2208276.
R1-2208200 Corrections on UE power saving enhancements for NR in TS 38.212 Moderator (MediaTek), Huawei, HiSilicon, ZTE, Sanechips
Decision: The draft is endorsed. Final CR (38.212, Rel-17, CR#0120, Cat F) is agreed in R1-2208277.
R1-2208201 Corrections on UE power saving enhancements for NR in TS 38.213 Moderator (MediaTek), Huawei, HiSilicon, vivo
Decision: The draft is endorsed. Final CR (38.213, Rel-17, CR#0101, Cat F) is agreed in R1-2208278.
R1-2210683 Session notes for 8.7 (Maintenance on UE Power Saving Enhancements) Ad-hoc Chair (CMCC)
R1-2208606 Correction on search space set group switching and PDCCH skipping vivo
R1-2208607 Correction on PDCCH monitoring adaptation and BWP switching vivo
R1-2208838 Remaining issues for DCI-based power saving adaptation OPPO
R1-2208839 Draft CR for or DCI-based power saving adaptation OPPO
R1-2209190 Discussion on remaining issues of PDCCH monitoring adaptation ZTE, Sanechips
R1-2209251 Remaining issues of PDCCH monitoring adaptation for power saving xiaomi
R1-2209252 UE behavior for PDCCH monitoring adaptation and BWP switching indicated in the same DCI xiaomi
R1-2209373 Open issues on Idle/Inactive mode power saving Nokia, Nokia Shanghai Bell
R1-2209374 Open issues on PDCCH monitoring adaptation for UE power saving Nokia, Nokia Shanghai Bell
R1-2209375 Clarification of virtual resource block mapping in respect of TRS-ResourceSet IE Nokia, Nokia Shanghai Bell
R1-2209377 Completion of PDCCH monitoring adaptation behaviour and BWP switching Nokia, Nokia Shanghai Bell
R1-2209815 Discussion on UE behavior when PDCCH skipping received after a SR transmission Huawei, HiSilicon
R1-2209816 Correction on UE behavior when PDCCH skipping received after a SR transmission Huawei, HiSilicon
R1-2209817 Correction on PDCCH monitoring adaptation and BWP switching Huawei, HiSilicon
R1-2209853 Discussion on corrections for PDCCH monitoring adaptation Ericsson
R1-2209854 Correction for 38.213 on PDCCH skipping based monitoring adaptation Ericsson
R1-2209855 Correction for 38.213 on mixed Rel-16 and 17 SSSGS combinations Ericsson
R1-2209856 Correction for 38.213 on PDCCH monitoring adaptation field in a DCI indicating BWP change Ericsson
[110bis-e-R17-PowSav-01] – Weide (MediaTek)
Email discussion to determine maintenance issues to be handled in RAN1#110bis-e by October 12
- Additional email discussions will be set up once the maintenance issues for RAN1#110bis-e are determined
R1-2210244 Summary#1 for maintenance on UE power saving enhancements Moderator (MediaTek Inc.)
From Oct 12th GTW session
R1-2208479 Correction on power saving for IDLE mode UE Huawei, HiSilicon
Agreement
For alignment TS 38.213 CR, the following correction provided in R1-2208479 is endorsed for the editorial corrections:
·
Update
“
” to “i_s”, which is the correct one used in TS
38.304.
R1-2208478 Correction on TRS occasions for IDLE mode UE Huawei, HiSilicon
R1-2209857 Corrections for 38.214 on TRS occasions Ericsson
Agreement
For alignment TS 38.214 CR, the following corrections, as provided in R1-2208478 and R1-2209857, are endorsed for the editorial corrections:
· Update “TRS-ResourceSetConfig” to “trs-ResourceSetConfig”.
· Update the parameter name of “numberOfresources” to “nrofResources”;
Agreement
For alignment TS 38.214 CR, the following corrections provided in R1-2209857 are endorsed for the editorial corrections:
|
One or more scrambling IDs according to scramblingID-Info
|
R1-2209191 Correction on PDCCH monitoring adaptation ZTE, Sanechips
Agreement
For alignment TS 38.213 CR, the following corrections provided in R1-2209191 are endorsed for the editorial corrections:
· ‘searchSpaceGroupIdList’ is revised to ‘searchSpaceGroupIdList-r16’
· Note: ‘searchSpaceGroupIdList-r17’ is not changed
R1-2209376 Alignment of PDCCH skipping behaviour with SR Nokia, Nokia Shanghai Bell
Agreement
· To clarify no PDCCH skipping on all serving cells of the corresponding Cell Group while SR is pending, according to RAN2 agreements in RAN2#119-e meeting, the following TP to clause 10.4 of TS 38.213, as provided in R1-2209376, is endorsed.
|
<Unchanged part omitted> When the PDCCH monitoring adaptation field indicates to a UE to skip PDCCH monitoring for a duration on the active DL BWP of a serving cell, the UE starts skipping of PDCCH monitoring at the beginning of a first slot that is after the last symbol of the PDCCH reception providing the DCI format with the PDCCH monitoring adaptation field. If the UE transmits a PUCCH providing a positive SR after the UE detects a DCI format providing the PDCCH monitoring adaptation field indicating to the UE to skip PDCCH monitoring for the duration on the active DL BWP of the serving cell, the UE resumes PDCCH monitoring starting at the beginning of a first slot that is after a last symbol of the PUCCH transmission in all serving cells of the corresponding Cell Group. During the time of ra-ResponseWindow or msgB-ResponseWindow or the duration where ra-ContentionResolutionTimer is running, the UE shall not skip PDCCH monitoring on SpCell. If UE transmits a RACH due to positive SR, the UE shall not skip PDCCH monitoring on any serving cell of the corresponding Cell Group during the time of ra-ResponseWindow or msgB-ResponseWindow or the duration where ra-ContentionResolutionTimer is running. If the DRX group of the serving cell is configured and enters outside Active Time, the UE terminates PDCCH skipping for the serving cell. <Unchanged part omitted> |
R1-2210508 Summary#2 for maintenance on UE power saving enhancements Moderator (MediaTek Inc.)
From Oct 14th GTW session
Agreement
· The following TP to clause 10.4 of TS 38.213 is endorsed in principle.
|
10.4 Search space set group switching and skipping of PDCCH monitoring A UE can be provided - a group index for a respective Type3-PDCCH CSS set or USS set by searchSpaceGroupIdList for PDCCH monitoring on a serving cell, - a group index for a respective Type3-PDCCH CSS set or USS set by searchSpaceGroupIdList-r17 for PDCCH monitoring on an active DL BWP of a serving cell,
If the UE is not provided searchSpaceGroupIdList or searchSpaceGroupIdList-r17 for a search space set, the following procedures that are based on search space set group switching are not applicable for PDCCH monitoring according to the search space set. A UE can be provided a set of durations by PDCCHSkippingDurationList for Type3-PDCCH CSS set or USS set for PDCCH monitoring on an active DL BWP of a serving cell. If the UE is not provided PDCCHSkippingDurationList, the following procedures related to skipping of PDCCH monitoring are not applicable. <Unchanged parts are omitted> |
Agreement
For alignment TS 38.213 CR, the following corrections provided in R1-2209191 are endorsed for the editorial corrections:
· ‘the UE sets the timer value to the one provided by searchSpaceSwitchTimer-r17’ is revised to ‘the UE sets the timer value to the one provided by searchSpaceSwitchTimer-r17, if provided’
Decision: As per email decision posted on Oct 18th,
Agreement
The following TP to clause 10.4 of TS 38.213 is endorsed in principle to avoid unexpected behavior for Rel-17 UE with only searchSpaceGroupIdList-r17 configured for SSSG switching. There is no change to Rel-16 UE behavior.
· Note: ‘searchSpaceGroupIdList’ and ‘searchSpaceGroupIdList-r17’ are RRC configurations for Rel-16 and Rel-17 SSSG switching, respectively.
|
10.4 Search space set group switching and skipping of PDCCH monitoring <Unchanged parts are omitted> If a UE is provided searchSpaceGroupIdList and is not provided SearchSpaceSwitchTrigger for a serving cell, - if the UE detects a DCI format by monitoring PDCCH according to a search space set with group index 0, the UE starts monitoring PDCCH according to search space sets with group index 1, and stops monitoring PDCCH according to search space sets with group index 0, for the serving cell -
at the beginning of the first slot that is at least -
at the beginning of the first slot, of a group of the UE sets the timer value to the value provided by searchSpaceSwitchTimer if the UE detects a DCI format by monitoring PDCCH in any search space set <Unchanged parts are omitted> |
Agreement
For alignment TS 38.214 CR, the following correction to clause 5.1.6.1.1 of TS 38.214 is endorsed in principle for the editorial corrections:
|
For
frequency range 1, the UE may be configured with one or more TRS resource
set(s), where each TRS resource set configured by a TRS-ResourceSet
consists of four periodic NZP CSI-RS resources in two consecutive slots with
two periodic NZP CSI-RS resources in each slot. If no two consecutive slots
are indicated as downlink slots by tdd-UL-DL-ConfigurationCommon, then the
UE may be configured with one or more TRS resource set(s) |
R1-2210658 Corrections on UE power saving enhancements for NR in TS 38.213 Moderator (MediaTek), Ericsson, Nokia, Nokia Shanghai Bell, vivo, ZTE, Sanechips
Decision: Draft CR which includes all above TPs endorsed for clause 10.4 of TS 38.213 is endorsed. Final CR (TS 38.213, Rel-17, CR#0384, Rel-F) is agreed in R1-2210659.
Final summary in R1-2210738.
R1-2212837 Session notes for 8.7 (Maintenance on UE Power Saving Enhancements) Ad-hoc Chair (CMCC)
Endorsed and contents incorporated below.
[111-R17-PowSav] – Weide (MediaTek)
To be used for sharing updates on online/offline schedule, details on what is to be discussed in online/offline sessions, tdoc number of the moderator summary for online session, etc
R1-2210862 Correction on the short message indicator when TRS availability indication is present Huawei, HiSilicon
R1-2210973 Correction on PDCCH monitoring adaptation and BWP switching vivo
R1-2210974 Correction on mixed R16 SSSG switching and R17PDCCH monitoring adaptation vivo
R1-2211330 Remaining issues of PDCCH monitoring adaptation for power saving xiaomi
R1-2211331 UE hehavior for PDCCH monitoring adaptation and BWP switching indicated in the same DCI xiaomi
R1-2211468 Draft CR for power saving and BWP adaptation OPPO
R1-2211901 Correction on inconsistent PDCCH monitoring indication ZTE, Sanechips
R1-2212151 Miscellaneous corrections for alignment CR for UE power savings Ericsson
R1-2212152 Correction for 38.213 on PDCCH monitoring adaptation field in a DCI indicating BWP change Ericsson
R1-2212153 Correction for 38.213 on PDCCH monitoring adaptation field Ericsson
R1-2212280 Open issues on PDCCH monitoring adaptation for UE power saving Nokia, Nokia Shanghai Bell
R1-2212281 Alignment of PDCCH monitoring adaptation behaviour and BWP switching Nokia, Nokia Shanghai Bell
R1-2212457 Correction on PDCCH monitoring adaptation and BWP switching Huawei, HiSilicon
R1-2212813 Summary#1 for maintenance on UE power saving enhancements Moderator (MediaTek Inc.)
Agreement
· Adopt the following TP to clause 10.4 of TS 38.213.
|
10.4 Search space set group switching and skipping of PDCCH monitoring *** Unchanged text is omitted *** If
the
UE changes to a new active DL BWP of the serving cell by the expiration of bwp-InactivityTimer
- resumes PDCCH monitoring according to the search space sets on the new active BWP of the serving cell when UE is in a PDCCH skipping duration, if the UE is not provided searchSpaceGroupIdList-r17 on the new active DL BWP - *** Unchanged text is omitted *** |
Agreement
· Adopt the following TP to clause 7.3.1.2 of TS 38.212.
|
7.3.1.2 DCI formats for scheduling of PDSCH 7.3.1.2.1 Format 1_0 *** Unchanged text is omitted *** The following information is transmitted by means of the DCI format 1_0 with CRC scrambled by P-RNTI: - Short Messages Indicator – 2 bits according to Table 7.3.1.2.1-1. - Short
Messages – 8 bits, according to Clause 6.5 of [9, TS38.331]. If only the
scheduling information for Paging, and TRS availability indication
if TRS-ResourceSetConfig is
configured, are - Frequency
domain resource assignment – - - Time
domain resource assignment – 4 bits as defined in Clause 5.1.2.1 of
[6, TS38.214]. If only the short message, and TRS
availability indication if TRS-ResourceSetConfig is
configured, are - VRB-to-PRB
mapping – 1 bit
according to Table 7.3.1.2.2-5. If only the short message, and TRS
availability indication if TRS-ResourceSetConfig is
configured, are - Modulation
and coding scheme – 5 bits as defined in Clause 5.1.3 of [6, TS38.214], using
Table 5.1.3.1-1. If only the short message, and TRS
availability indication if TRS-ResourceSetConfig is
configured, are - TB
scaling –
2 bits as
defined in Clause 5.1.3.2 of [6, TS38.214]. If only the short message, and TRS
availability indication if TRS-ResourceSetConfig is
configured, are - TRS availability indication – 1, 2, 3, 4, 5, or 6 bits, where the number of bits is equal to one plus the highest value of all the indBitID(s) provided by the TRS-ResourceSetConfig if configured; 0 bits otherwise. - Reserved bits – (8 – M) bits for operation in a cell with shared spectrum channel access in frequency range 1 or for operation in a cell in frequency range 2-2; (6 – M) bits for operation in a cell without shared spectrum channel access, where the value of M is the number of bits for the field of 'TRS availability indication' as defined above. *** Unchanged text is omitted *** Table 7.3.1.2.1-1: Short Message indicator
*** Unchanged text is omitted *** |
Agreement
For alignment TS 38.212 CR, the following corrections provided in R1-2212151 are endorsed for the editorial corrections:
· Subclause 7.3.1.2.1: Correct the RRC parameter name as shown below.
|
TRS availability
indication –
1, 2, 3, 4, 5, or 6 bits, where the number of bits is equal to one
plus the highest value of all the indBitID(s)
provided by the trs-ResourceSetConfig |
· Subclause 7.3.1.3.8: Correct the RRC parameter name as shown below.
|
The
size of DCI format 2_7 is indicated by the higher layer parameter payloadSizeDCI-2-7 |
Agreement
For alignment TS 38.213 CR, the following corrections provided in R1-2212151 are endorsed for the editorial corrections:
· Subclause 10.1: Correct the reference IE for PEI search space as highlighted below.
|
-
a Type2A-PDCCH CSS set configured by pei-SearchSpace in pei-ConfigBWP |
· Subclause 10.1: Correct the RRC parameter name as highlighted below.
|
if a UE is provided - one or more search space sets by corresponding one or more of searchSpaceZero, searchSpaceSIB1, searchSpaceOtherSystemInformation, pagingSearchSpace, pei-SearchSpace, ra-SearchSpace, or a CSS set by PDCCH-Config, and - a SI-RNTI, a P-RNTI, a PEI-RNTI, a RA-RNTI, a MsgB-RNTI, a SFI-RNTI, an INT-RNTI, a TPC-PUSCH-RNTI, a TPC-PUCCH-RNTI, or a TPC-SRS-RNTI then, for a RNTI from any of these RNTIs, the UE does not expect to process information from more than one DCI format with CRC scrambled with the RNTI per slot. |
· Subclause 10.4B: Correct the RRC parameter name as highlighted below.
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A UE in
RRC_IDLE state or RRC_INACTIVE state can be provided by trs-ResourceSetConfig |
Agreement
· For the above agreed TP to clause 7.3.1.2 of TS 38.212, draft CR in R1-2210862 is endorsed in principle assuming “TRS-ResourceSetConfig” is replaced by “trs-ResourceSetConfig” in the final CR.
Final CR (TS 38.212, Rel-17,CR#0132, Cat F) is agreed in:
R1-2212903 Correction on the short message indicator when TRS availability indication is present Moderator (MediaTek), Huawei, HiSilicon, Ericsson
MCC post meeting: Delete "draft"from CR header before submission to plenary.
Agreement
· For the above agreed TP to clause 10.4 of TS 38.213, draft CR in R1-2210973 is endorsed in principle assuming track changes is used in the final CR.
Final CR (TS 38.213, Rel-17,CR#0424, Cat F) is agreed in:
R1-2212902 Correction on PDCCH monitoring adaptation and BWP switching Moderator (MediaTek), vivo
MCC post meeting: Delete "draft"from CR header before submission to plenary.
Final summary in R1-2213002.
R1-2302057 Session notes for 8.7 (Maintenance on UE Power Saving Enhancements) Ad-hoc Chair (CMCC)
[112-R17-PowSav] – Weide (MediaTek)
To be used for sharing updates on online/offline schedule, details on what is to be discussed in online/offline sessions, tdoc number of the moderator summary for online session, etc
From AI 5
R1-2300020 Reply LS on PDCCH skipping RAN2, MediaTek
R1-2302150 Draft reply LS to RAN2 on PDCCH skipping Moderator (MediaTek)
Decision: The draft LS is endorsed in principle. Final LS is approved in R1-2302151.
R1-2300270 Remaining issues for DCI-based power saving adaptation OPPO
R1-2300271 Draft CR for DCI-based power saving adaptation OPPO
R1-2300369 Discussion on UE power saving remaining issues ZTE, Sanechips
R1-2300370 Correction on PDCCH skipping ZTE, Sanechips
R1-2300419 Correction on mixed R16 SSSG switching and R17 PDCCH monitoring adaptation vivo
R1-2300420 Correction on UE behaviors during contention resolution timer and RAR window vivo
R1-2300494 Correction on search space set group switch delay FGI
R1-2300543 UE hehavior for PDCCH monitoring adaptation and BWP switching indicated in the same DCI xiaomi
R1-2300544 UE hehavior for PDCCH skipping when RACH for positive SR is transmited xiaomi
R1-2300930 Discussion on remaining corrections to 38.213 related to UE power saving Intel Corporation
R1-2301236 Corrections on PDCCH skipping Samsung
R1-2301553 Draft CR for 38.213 on PDCCH skipping behavior Ericsson
R1-2301619 Corrections on PDCCH skipping MediaTek Inc.
R1-2301651 Correction on PDCCH skipping ASUSTeK
R1-2301657 Open issues on PDCCH monitoring adaptation for UE power saving Nokia, Nokia Shanghai Bell
R1-2301658 Definition of PDCCH skipping behaviour while SR is pending or cancelled Nokia, Nokia Shanghai Bell
R1-2301659 PDCCH skipping behaviour upon successful completion of contention resolution Nokia, Nokia Shanghai Bell
R1-2301712 Discussion on PDCCH monitoring adaptation and BWP switching Huawei, HiSilicon
R1-2301748 Correction on PDCCH monitoring adaptation and BWP switching Huawei, HiSilicon
R1-2301749 Correction on PDCCH skipping Huawei, HiSilicon
R1-2302033 Summary#1 for maintenance on UE power saving enhancements Moderator (MediaTek)
From Wednesday session
R1-2302031 Corrections on PDCCH skipping Moderator (MediaTek), Nokia, Intel, Samsung, Ericsson, ASUSTek, Huawei, HiSilicon
Agreement
The draft CR to Section 10.4, TS38.213 in R1-2302031 is endorsed in principle, with changing “the UE shall not skip PDCCH monitoring on any serving cells of the corresponding Cell Group when the SR is pending [11, TS 38.321].” to “the UE shall monitor PDCCH regardless of PDCCH skipping indication on all serving cells of the corresponding Cell Group when the SR is pending [11, TS 38.321]”
Final CR (Rel-17, 38.213, CR0439, Cat F) is agreed in R1-2302032.
symbols
after the last symbol of the PDCCH with the DCI format when 
,
slots,
that is at least 
symbols
after the last symbol of the PDCCH with the DCI format when 
