NTN Rel-18

RAN1#109-e

9.12 NTN (Non-Terrestrial Networks) enhancements

Please refer to RP-220953 for detailed scope of the WI on NR NTN enhancements. Please refer to RP-220979 for detailed scope of the WI on IoT NTN enhancements.

R1-2205577 Session notes for 9.12 (NTN (Non-Terrestrial Networks) enhancements) Ad-Hoc Chair (Huawei)

R1-2204564 Work plan for NR NTN enhancements THALES

9.12.1 Coverage enhancement for NR NTN

R1-2204545 Discussion on NR NTN coverage enhancement THALES

· Proposal 1: The following target data rates are considered for MBB and VoNR performance evaluation:

o For VoNR, a packet size of 344 bits every 20ms i.e. a data rate of 17.2 kbps

o For MBB, 1 Mbit/s in the DL and 100 kbit/s in the UL.

· Proposal 2: The satellite parameters used for the NTN coverage enhancement study are provided by the two tables in section 2.2 of this contribution.

· Proposal 3: The UE characteristics used for the NTN coverage enhancement study are provided by the table in section 2.3 of this contribution.

· Proposal 4: The coverage study cases used for the NTN coverage enhancement study and targeting the smartphones UEs are provided by the table in section 2.4 of this contribution.

· Proposal 5: The following two options should be considered for the evaluation methodology:

o Option 1: Based on link-level simulation:

§ Obtain the required SINR for the physical channels under target scenarios and service/reliability requirements.

§ Obtain the baseline performance based on required SINR and link budget template.

§ Identify target performance and coverage bottlenecks based on target performance metric.

o Option 2: Based on link- level and system-level simulation

§ Obtain the required SINR for the given target data rate based on link-level simulation.

§ Obtain the target performance based on system-level simulation (i.e. the 5th percentile downlink or uplink SINR value in CDF curve).

· Proposal 6: For link level simulation, adopt the parameters for PRACH provided by the table in section 4.1

· Proposal 7: The parameters for PUSCH and PUCCH to be used for link level simulation are given the table in section 4.2 of this contribution.

· Proposal 8: For link level simulation, adopt the channel-specific parameters for PUSCH provided by the Table in section 4.2.1 of this contribution.

· Proposal 9: For link level simulation, adopt the channel-specific parameters for PUCCH provided by the Table in section 4.2.2 of this contribution.

· Proposal 10: For link level simulation, adopt the parameters for PUSCH msg3 provided by the Table in section 4.3 of this contribution.

· Proposal 11: For link level simulation, adopt the parameters for SSB provided by the Table in section 4.4 of this contribution

· Proposal 12: For link level simulation, adopt the parameters for PDSCH provided by the Table in section 4.5 of this contribution.

· Proposal 13: For link level simulation, adopt the channel-specific parameters for PDSCH provided by the Table in section 4.5.1 of this contribution.

· Proposal 14: For link level simulation, adopt the channel-specific parameters for PDCCH provided by the Table in section 4.6 of this contribution.

Decision: The document is noted.

R1-2204267 On coverage enhancement for NR NTN Apple

· Proposal 1: The evaluation of the NR NTN coverage performance is only on FR1.

· Proposal 2: The evaluation of the NR NTN coverage performance has the assumptions of

o satellite orbital: GEO, LEO-1200 and LEO-600

o frequency: 2 GHz

o VoIP service: 320 bits with 20 ms data arriving interval

o Low-data rate service: 100 kbps for downlink and 50 kbps for uplink

o link-level channel model: NTN-TDL-C

o delay spread: 100 ns

o channel bandwidth: 20 MHz

o UE velocity: 3 km/h

o shadowing: 3 dB

o atmospheric path loss: 0.2 dB for GEO, 0.1 dB for LEO-1200 and LEO-600

o scintillation loss: 2.2 dB

o polarization loss: 3 dB

· Proposal 3: The evaluation of the NR NTN coverage performance has the assumption of set-1 or set-2 satellite parameters (i.e., satellite EIRP density and G/T) as reference.

· Proposal 4: In the evaluation of the NR NTN coverage performance, the satellite EIRP density is adjusted to satisfy ITU regulation of PFD limitation.

o With the consideration of ITU regulation of PFD limitation, the satellite EIRP density is adjusted to 44 dBW/MHz, 20 dBW/MHz and 14 dBW/MHz in GEO, LEO-1200, LEO-600, respectively.

· Proposal 5: In the evaluation of NR NTN coverage performance, the MIL is used to identify the bottleneck physical layer channel.

· Proposal 6: The evaluation of the NR NTN coverage performance at least examines the physical channels of PDCCH, PDSCH, Msg 2 PDSCH, Msg 3 PUSCH, Msg 4 PDSCH and Msg 4 HARQ-ACK.

· Proposal 7: For the evaluation assumption for each physical channel, reuse Tables A.1-2 - A.1-8 in TR 38.830 as much as possible.

Decision: The document is noted.

R1-2203588 Discussions on coverage enhancement for NR NTN vivo

· Proposal 1: Reuse the link budget calculation methodology used in NR Rel-16 for NTN coverage study in NR Rel-18.

· Proposal 2: Reuse the simulation assumptions agreed in Rel-16 NR NTN study, except that at least following assumptions should be updated for link budget analysis for coverage evaluation in NR NTN in Rel-18:

o A value of -5dBi UE TX antenna gain,

o A wide range of elevation angles varying from 10 degrees to 90 degrees.

· Proposal 3: Select 4.75kbps AMR data rate for voice coverage study in NTN.

· Proposal 4: Focus on the LEO satellite to support VoIP in NTN.

· Proposal 5: A feasible target data rate should be determined based on link budget analysis in GEO scenario.

· Proposal 6: Send an LS to RAN2 to ask the maximum RAN protocol overhead that can be reduced for voice packet transmission in NR NTN with a reasonable complexity.

· Proposal 7: Circular polarization enhancement on DL Tx diversity could be further studied.

· Proposal 8: Try to reuse the coverage enhancement techniques introduced in NR Rel-17 coverage enhancement topic for coverage enhancement in NTN to minimize the work load in NTN, and study whether any NTN specific changes are needed.

Decision: The document is noted.

R1-2203159 Discussion on coverage enhancement for NR NTN Huawei, HiSilicon

R1-2203240 Discussion on coverage enhancement for NTN ZTE

R1-2203350 Consideration on coverage enhancement for NR NTN Spreadtrum Communications

R1-2203389 Coverage enhancement for NR NTN MediaTek Inc.

R1-2203669 Discussion on NTN coverage enhancement Panasonic

R1-2203746 Considerations on improving NR NTN Coverage Sony

R1-2203757 Discussion on coverage enhancement for NR NTN CATT

R1-2203804 Discussion on coverage enhancement for NR-NTN xiaomi

R1-2203844 Solutions for coverage enhancements in NR over NTN Nokia, Nokia Shanghai Bell

R1-2203929 On coverage enhancement for NR NTN Samsung

R1-2203946 Discussion on coverage enhancements aspects for NR NTN NEC

R1-2204011 Discussion on coverage enhancement for NR NTN OPPO

R1-2204079 Consideration on coverage enhancement for NR NTN Lockheed Martin

R1-2204328 Discussion on coverage enhancement for NR NTN CMCC

R1-2204402 Discussions on coverage enhancement for NR NTN NTT DOCOMO, INC.

R1-2204515 Discussion on coverage enhancement for NR NTN Lenovo

R1-2204521 Discussion on coverage enhancement for NR NTN LG Electronics

R1-2204645 Discussions on Coverage enhancement for NR NTN Sharp

R1-2204662 On coverage enhancement for NR NTN Ericsson

R1-2205058 Coverage enhancements for NR NTN Qualcomm Incorporated

[109-e-R18-NTN-01] – Shohei (NTT DOCOMO)

Email discussion on coverage enhancement for NR NTN by May 20

- Check points: May 16, May 20

Decision: As per email decision posted on May 12^th,

Agreement

For NR NTN coverage enhancement, evaluate only handset terminals as UE type.

· i.e., VSAT is not considered.

Decision: As per email decision posted on May 17^th,

Agreement

Coverage performance in NR NTN is evaluated according to the following steps.

· Step 1: CNR is calculated as defined in 6.1.3.1 of TR38.821

o For polarization loss,

- 3 dB polarization loss is assumed as baseline, and companies are encouraged to report the value and corresponding justification if other value is used

· Step 2: Required SNR of target service is evaluated by LLS

· Step 3: The CNR and the required SNR are compared

Agreement

Coverage performance in NR NTN is evaluated for GEO/LEO-1200/LEO-600 scenarios.

· Note: Service type for each scenario is discussed separately

· Note: Parameter set (Set-1/2) is discussed separately

· Note: MEO can be evaluated optionally

R1-2205210 Summary #1 on 9.12.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO)

From May 17^th GTW session

Agreement

For evaluation of coverage performance in NR NTN,

· It is assumed that carrier bandwidth is sufficiently large to transmit each channel.

· Companies are encouraged to report BWP bandwidth, when necessary (e.g. for frequency hopping).

· Note: each channel bandwidth is discussed separately.

Agreement

For VoIP, AMR 4.75 kbps (TBS of 184 bits without CRC in physical layer) with 20 ms data arriving interval is used in the evaluations.

· Each packet is transmitted within 20 ms, if packet combining is not used.

o Companies are encouraged to evaluate at least packet transmission without combining

o Companies are encouraged to report how to apply packet combining, if used.

o Note: in packet combining, two packets can be combined into a single packet at TX side

§ Companies should report the impact on E2E latency

· VoIP is evaluated only in LEO scenario.

· Note 1: PRB/MCS/TBS determinations are discussed separately

· Note 2: companies should report if HARQ is used in the evaluations, and if evaluations depart from the assumption that each packet is transmitted within 20 ms

Agreement

Reuse Set-1/2 satellite parameters as in table 6.1.1.1-1/2 of TR38.821 for GEO/LEO-1200/LEO-600 and S-band, and as in table 6.1.1.1-1/2 of RP-220590 for MEO and S-band.

· In addition, evaluations assuming relevant ITU regulatory limitations on power flux density can be reported in the study phase.

o Companies should report which value of EIRP density is used and corresponding justification.

Decision: As per email decision posted on May 19^th,

Agreement

For link budget calculation, parameters in the following table is assumed.

Parameters	Notes
Carrier frequency	2 GHz for DL and UL (S-band)
Channel bandwidth	FFS
Satellite altitude	600 km, 1200 km, 10000 km, 35786 km
Target elevation angle	[30 (LEO), 12.5 (GEO-Set 1) , 20° (GEO –Set 2), 30° (MEO)]
Atmospheric loss	Equation (6.6-8) in [2]
Shadowing margin	3 dB
Scintillation loss	Section 6.6.6 in [2] Ionospheric loss: = 2.2 dB (note 1) Tropospheric loss: Table 6.6.6.2.1-1 of [2]
Additional loss	0 dB
Clear sky conditions	Yes
Satellite antenna polarization	Circular polarization
Terminal type	[S band: (M, N, P) = (1,1,2)]
Free space path loss	Equation (6.6-2) in [2]
Terminal RF parameters	FFS
Satellite RF parameters	FFS
Polarization loss	As agreed separately
Outcome	CNR
· NOTE 1: Based on P3 curve for 1% of time from Figure 6.6.6.1.4-1 of [2] after frequency scaling. · dB · NOTE 2: [2] in this table is 3GPP TR 38.811 v15.2.0: "Study on New Radio (NR) to support non-terrestrial networks (Release 15)

Agreement

If corresponding channel (including SCS) is agreed as evaluation target channel, the following features introduced in Rel-17 Coverage enhancement WI can be applied in coverage evaluation of NR NTN.

· For VoIP, max 20 PUSCH repetitions if SCS = 15 kHz and packet combining/HARQ are not applied; otherwise, max 32 PUSCH repetitions with consideration of the impact on E2E latency

· For low-data rate service, max 32 PUSCH repetitions

· TBoMS

· Joint channel estimation (DMRS bundling)

o Companies are encouraged to report how to apply

· Max 16 Msg.3 PUSCH repetitions

R1-2205211 Summary #2 on 9.12.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO)

From May 20^th GTW session

Agreement

For low-data rate service, the following target data rate is assumed.

· For DL, 3 kbps if satellite EIRP density lower than values in table 6.1.1.1-1/2 of TR38.821 for GEO/LEO-1200/LEO-600 and S-band, or values in table 6.1.1.1-1/2 of RP-220590 for MEO and S-band due to ITU regulatory limitations on power flux density is considered; otherwise, 1 Mbps

· For UL, 3 kbps and 100 kbps

o FFS: which data rate applies for GEO/MEO/LEO

Agreement

For NR NTN coverage enhancement, the following channels/signals can be evaluated.

· PUSCH for VoIP

· PUSCH for low data rate service

· PUCCH format 1 with 2 bits

· PUCCH format 3 with 11 bits

· PRACH format 0

· PRACH format 2

· PRACH format B4

· PUSCH Msg.3

· PUCCH for Msg.4 HARQ-ACK

· SSB

· PDSCH for VoIP

· PDSCH for low data rate service

· PDSCH Msg.2

· PDSCH Msg.4

· PDCCH

· Broadcast PDCCH (PDCCH of Msg.2)

Agreement

Evaluate coverage performance for the following UE characteristics as in Table 6.1.1.1-3 of TR38.821 with update of polarization, Tx/Rx antenna gain, and antenna type and configuration.

Characteristics	Handheld
Frequency band	S band (i.e. 2 GHz)
Antenna type and configuration	1 TX, 2TX (optional) / 2 RX with omni-directional antenna element Note: companies should provide their assumption on polarization
Polarisation	Linear
Rx Antenna gain	[X] dBi per element
Antenna temperature	290 K
Noise figure	7 dB
Tx transmit power	200 mW (23 dBm)
Tx antenna gain	[X] dBi per element

X = -5 as working assumption

o Send an LS to RAN4 to ask whether above antenna gain is valid and if invalid, appropriate value.

Agreement

For coverage performance evaluation, the following elevation angle is assumed.

· 30 deg for LEO, 12.5 deg for GEO-Set 1, 20 deg for GEO-Set 2, as in in Table 6.1.3.2-1 of TR38.821

o Note: For GEO-Set 1, channel parameters for 10 deg is used in LLS.

· 30 deg for MEO

· Other elevation angles can be evaluated as optional

· Note: these values are elevation angles at the edge of the edge beam.

Agreement

For NR NTN coverage enhancement, evaluate the following cases.

Case	Satellite orbit	Satellite parameter set	Elevation angle (deg)	Terminal	Frequency band	Service type
1	GEO	1	12.5	Handset	S-band	Low-data rate service
2	GEO	2	20	Handset	S-band	Low-data rate service
3 (Optional)	LEO-1200	1	30	Handset	S-band	VoIP
4	LEO-1200	2	30	Handset	S-band	VoIP
5	LEO-1200	2	30	Handset	S-band	Low-data rate service
6 (Optional)	LEO-600	1	30	Handset	S-band	VoIP
7	LEO-600	2	30	Handset	S-band	VoIP
8 (Optional)	LEO-600	2	30	Handset	S-band	Low-data rate service
9 (Optional, with higher priority than case 10)	MEO	1	30	Handset	S-band	Low-data rate service
10 (Optional)	MEO	2	30	Handset	S-band	Low-data rate service

R1-2205622 [Draft] LS on UE antenna gain for NR NTN coverage enhancement Moderator (NTT DOCOMO, INC.)

Decision: As per email decision posted on May 21^st, the draft LS is endorsed. Approved in R1-2205623.

Decision: As per email decision posted on May 21^st,

Agreement

For coverage performance evaluation, the following are assumed for all channels/signals

· Channel model/Delay spread

o Channel model as in Table 6.1.2-4 of TR38.821, assuming NTN-TDL-A (NLOS) and NTN-TDL-C (LOS)

· Evaluation scenario

o Rural (LOS/NLOS)

o Sub-urban (LOS/NLOS) (optional)

· Channel estimation: Realistic estimation

o Companies are encouraged to report channel estimation method.

· SCS

o 15 kHz only

· UE speed: 3 km/h

· Frequency drift: Not assumed

· Frequency offset: 0.1 ppm

Agreement

For coverage evaluation of PUSCH in NR NTN, the following table is assumed.

Parameter	Value
Frequency hopping	w/ or w/o frequency hopping
BLER	For low data rate service, w/ HARQ, 10% iBLER; w/o HARQ, 10% iBLER. For VoIP, 2% rBLER.
Number of UE transmit chains	1, 2 (optional)
DMRS configuration	For 3km/h: Type I, 1 or 2 DMRS symbol, no multiplexing with data. For frequency hopping: Type I, 1 or 2 DMRS symbol for each hop, no multiplexing with data. PUSCH mapping Type, the number of DMRS symbols and DMRS position(s) are reported by companies.
Waveform	DFT-s-OFDM, CP-OFDM (optional)
PUSCH duration	14 OS
Repetitions	w/ type A repetition, optional for type B repetition. The actual number of repetitions is reported by companies.
HARQ configuration	Whether/How HARQ is adopted is reported by companies.
PRBs/TBS/MCS for low data rate service	Any value of PRBs, and corresponding MCS index, reported by companies will be considered in the discussion. TBS can be calculated based on e.g. the number of PRBs, target data rate, frame structure and overhead.
PRBs/MCS for VoIP	Any value of PRBs reported by companies will be considered in the discussion. QPSK, pi/2 BPSK (optional)
Other parameters	Reported by companies

Agreement

For coverage evaluation of PUCCH in NR NTN, the following table is assumed.

Parameter	Value
PUCCH format	Format 1, 2bits UCI. Format 3, 11 bits UCI
Frequency hopping	w/ frequency hopping
BLER	- For PUCCH format 1: DTX to ACK probability: 1%. NACK to ACK probability: 0.1%. ACK missed detection probability: 1%. - For PUCCH format 3: BLER for Ack/Nack, SR: 1% BLER for CSI: 1%, optional for 10%.
Number of UE transmit chains	1
DMRS configuration	Number of DMRS symbols for PUCCH Format 3: Reported by companies
Repetitions	w/ repetition. The maximum number of repetitions is 8.
PUCCH duration	14 OS
Number of PRBs	1 PRB
Other parameters	Reported by companies

Agreement

For coverage evaluation of PRACH in NR NTN, the following table is assumed.

Parameter	Value
Format	Format 0, Format B4, Format 2
SCS	Reported by companies.
Performance metric	1% missed detection at 0.1% false alarm probability 10% missed detection: reported by companies if this value is used
Number of UE transmit chains	1, 2 (optional)
Other parameters	Reported by companies.

Agreement

For coverage evaluation of PUSCH Msg.3 in NR NTN, the following table is assumed.

Parameter	Value
Frequency hopping	w/ or w/o frequency hopping
Number of UE transmit chains	1, 2 (optional)
Number of DMRS symbol	w/o frequency hopping: 3, w/ frequency hopping: 2 for each hop
Waveform	DFT-s-OFDM
HARQ configuration	Whether/How is adopted is reported by companies.
PUSCH duration	14 OS
Number of PRBs	2
TBS	56 bits
Other parameters	Reported by companies.

Agreement

For coverage evaluation of SSB in NR NTN, the following table is assumed.

Parameter	Value
Number of UE receive chains	2 for 2GHz
Periodicity	20ms
Performance metric	Combination of 4 SSBs in 80ms. Note: UE is not assumed to know the SS/PBCH block index
Other parameters	Reported by companies.

Agreement

For coverage evaluation of PDSCH in NR NTN, the following table is assumed.

Parameter	Value
BLER	For low data rate service, w/ HARQ, 10% iBLER; w/o HARQ, 10% iBLER. For VoIP, 2% rBLER.
Waveform	CP-OFDM
Number of UE receive chains	2 for 2GHz
HARQ configuration	Whether/How HARQ is adopted is reported by companies.
DMRS configuration	3 DMRS symbols is used for PDSCH of Msg.2. For 3km/h: Type I, 1 or 2 DMRS symbol, no multiplexing with data. PDSCH mapping Type, the number of DMRS symbols and DMRS position(s) are reported by companies.
PRBs/TBS/MCS for low data rate service	Any value of PRBs, and corresponding MCS index, reported by companies will be considered in the discussion. TBS can be calculated based on e.g. the number of PRBs, target data rate, frame structure and overhead.
PRBs/MCS for VoIP	Any value of PRBs reported by companies will be considered in the discussion. QPSK
PDSCH duration	12 OS
Payload size for PDSCH of Msg.4	1040 bits
Other parameters	Reported by companies.
Other parameters	Reported by companies

Agreement

For coverage evaluation of PDCCH in NR NTN, the following table is assumed.

Parameter	Value
Number of UE receive chains	2 for 2GHz
Aggregation level	16
Payload	40 bits
CORESET size	2 symbols, 48 PRBs
Tx Diversity	Reported by companies
BLER	1% BLER optional for 10% BLER
Number of SSB for broadcast PDCCH of Msg.2	Reported by companies
Other parameters	Reported by companies

Final summary in R1-2205212.

9.12.2 Disabling of HARQ feedback for IoT NTN

R1-2204935 On disabling HARQ feedback for IOT-NTN Mavenir

· Subsequently transmitting PDSCH after k0 msec with NDI toggling can be regarded as “standard transparent” HARQ disabling, and allows the network to achieve reasonable DL throughput.

o Although HARQ feedback is not used for determining HARQ retransmission decision, the ACK/NACK is still useful for network’s link adaptation.

· Further studies are needed if any extra specification is necessary for HARQ disabling.

Decision: The document is noted.

R1-2203160 Discussion on disabling of HARQ feedback for IoT NTN Huawei, HiSilicon

· For IoT NTN with disabling HARQ mechanism, the peak rate for different scenarios can be greatly increased, and the data rate of LEOs is comparable with that of TN.

· When repetition is taken into consideration, the stalling issues may not exist when UE is configured with 2 HARQ processes and each HARQ process schedules one TB as the NPDSCH scheduling by the second HARQ process can fill the stalling of the NPDSCH scheduling by the first HARQ process.

· In IoT NTN, the maximum data rate can be greatly impacted in the case when large number of repetition is used for link budget improvement.

· For repetition scenario, due to the long duration of NPDCCH and NPDSCH transmission, the performance improvement by HARQ disabling is small.

· For the cases that can meet service requirement, power consumption can be saved due to disabling of feedback.

· For the cases that cannot meet service requirement, with disabling HARQ mechanism, eNB can schedule new TB after 12ms from the ending of PDSCH transmission to improve the throughput.

Decision: The document is noted.

R1-2203805 Discussion on HARQ operation for IoT NTN xiaomi

· Proposal 1: The HARQ disabling can be supported for at least for the IoT UE that is only configured/capable of single HARQ process.

· Proposal 2: Dynamic HARQ disabling can be supported at least for the IoT UE configured/capable of one HARQ process.

Decision: The document is noted.

R1-2204080 On disabling HARQ feedback for IoT NTN Ericsson

· Proposal 1: For LTE-MTC NTN, RAN1 should discuss and consider not disabling the HARQ feedback at least for LEO satellites, since non-negligible data rates in the order of hundreds of kbps are achievable using “ce-PDSCH-14HARQ-Config-r17” and “ce-PDSCH-maxTBS”.

· Proposal 2: For NB-IoT NTN, RAN1 should discuss and consider not disabling the HARQ feedback at least for LEO satellites, since non-negligible data rates in the order of hundreds of kbps are achievable using “npdsch-16QAM-Config-r17”.

Decision: The document is noted.

R1-2203241 Discussion on disabling of HARQ feedback for IoT-NTN ZTE

R1-2203351 Discussion on disabling of HARQ feedback for IoT NTN Spreadtrum Communications

R1-2203390 Disabling of HARQ for IoT NTN MediaTek Inc.

R1-2203392 Disabling of HARQ for IoT NTN Lockheed Martin

R1-2203747 On disabling HARQ feedback for IoT-NTN Sony

R1-2203755 Disabling of HARQ feedback for IoT NTN Nordic Semiconductor ASA

R1-2203758 HARQ feedback disabling for IoT NTN CATT

R1-2203840 Disabling of HARQ feedback for NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2203930 Disabling of HARQ feedback for IoT NTN Samsung

R1-2203937 Disabling of HARQ feedback for IoT NTN NEC

R1-2204012 Discussion on disabling of HARQ feedback for IoT NTN OPPO

R1-2204268 On disabling of HARQ feedback for IoT NTN Apple

R1-2204329 Discussion on disabling of HARQ feedback for IoT NTN CMCC

R1-2204516 Disabling of HARQ feedback for IoT NTN Lenovo

R1-2204646 Discussions on Disabling of HARQ feedback for IoT NTN Sharp

R1-2205059 Disabling HARQ Feedback for IoT-NTN Qualcomm Incorporated

[109-e-R18-NTN-02] – Zhi (Lenovo)

Email discussion on disabling of HARQ feedback for IoT NTN by May 20

- Check points: May 16, May 20

R1-2205415 Feature lead summary #1 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

R1-2205473 Feature lead summary #2 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

From May 19^th GTW session

Agreement

For IoT NTN, to configure/indicate enabling/disabling on HARQ feedback for downlink transmission, one or more of the following options can be considered:

· Option 1: per HARQ process via UE specific RRC signaling

· Option 2: per HARQ process via SIB signaling

· Option 3: explicitly indicated by DCI (e.g., new field or reusing existing field)

· Option 4: implicitly determined by existing configured/indicated parameter(s) (e.g., repetition number, TBS)

· Option 5: per HARQ process via MAC CE

· Other options or combinations are not excluded

Note: Option(s) for eMTC and NBIoT can be separately discussed.

Agreement

For IoT NTN, further study the potential issues due to enabling/disabling on HARQ feedback for downlink transmission

· Issue A: SPS PDSCH

· Issue B: (N)PDSCH/(N)PDCCH scheduling restriction

· Issue C: HARQ feedback for scheduling multiple TB

· Issue D: HARQ bundling for eMTC HD-FDD

· Issue F: NPRACH capacity

· Issue G: Serving cell/satellite change during data transfer (FFS: for eMTC and/or NB-IoT)

· Other issues are not excluded

Note: The “Issues” in common for eMTC and NB-IoT can be separately discussed.

Final summary in R1-2205555.

9.12.3 Improved GNSS operations for IoT NTN

R1-2203391 Improved GNSS operations for IoT NTN MediaTek Inc.

· Proposal 1: RAN1 to study pros and cons of Options to optimize the GNSS operation in RRC_CONNECTED and UE power efficiency:

o Option 1: “UE re-acquire GNSS position fix during RLF procedure”

o Option 2: eNB configures a scheduling gap to re-acquire GNSS position fix

o Option 3: “Improved scheduling operations with existing Closed Loop time adjustment”

o Option 4: “Closed-loop frequency adjustment”

· Proposal 2: Option 1 “UE re-acquire GNSS position fix during RLF procedure” is baseline for improved GNSS operations.

Decision: The document is noted.

R1-2203841 Enhancements for long connections in NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

· Proposal 1: GNSS measurement window in CONNECTED mode should be specified for a new GNSS measurement when GNSS position is about to outdated.

· Proposal 2: Overhead reduction should be considered for selection of GNSS measurement window and coordination between UE and eNB.

· Proposal 3: UE report the GNSS measurement gap should be the specified, to keep a low overhead.

· Proposal 4: GNSS error because of UE-unaware movement should be studied and solved.

· Proposal 5: To save power consumption and latency, keeping RRC connection and new UL synchronization after re-acquiring GNSS should be considered for long term connection, instead of going back to IDLE mode.

· Proposal 6: How to solve the issue as GNSS expire during the long repetition for IoT should be studied.

· Proposal 7: RAN1 to discuss how to configure multiple segment sizes for an uplink transmission.

· Proposal 8: How to reduce the TA error for repetitions in the segment should be considered and discussed.

· Proposal 9: How to require ephemeris and update TA during the long repetition should be studied.

· Proposal 10: RAN1 should discuss the issue of repetition continuation between two NTN cells.

Decision: The document is noted.

R1-2203931 Improved GNSS operations for IoT NTN Samsung

· Proposal 1: Triggering of a new GNSS position fix can be reduced by maintaining UL synchronization via closed loop control, e.g., closed loop TA command, and closed loop pre-compensated frequency offset command.

· Proposal 2: Acquiring a new GNSS position fix during a long connection time can be triggered by UE when there are UL data to transmit and the UL synchronization is lost.

· Proposal 3: Acquiring a new GNSS position fix during a long connection time can be triggered by eNB when there are DL data to transmit and the UL synchronization is lost.

· Proposal 4: For the case that a new GNSS position fix is triggered by eNB, a GNSS measurement window needs to be defined.

· Proposal 5: Following information can be reported to eNB to assist GNSS operation:

o Whether UE’s GNSS position is fixed or not;

o Whether UE’s GNSS position is available in IoT application layer or not;

o UE capability on GNSS measurement, e.g., preferred length of GNSS measurement window;

Decision: The document is noted.

R1-2205060 Improved GNSS Operations for IoT-NTN Qualcomm Incorporated

· Proposal 1: RAN1 to consider specifying (N)PRACH-driven closed-loop time and frequency corrections, to mitigate UE power consumption on account of GNSS fixes.

· Proposal 2: RAN1 to consider specifying (at least a subset of) NPRACH resources with increased robustness to time and frequency errors, to facilitate:

o Accessing a cell from IDLE mode, while relaxing the requirement of an “immediately preceding” GNSS fix in all instances.

o Closed-loop corrections (e.g., after periods of UE inactivity), thereby reducing the number of GNSS fixes required during a connection.

Decision: The document is noted.

R1-2203161 Discussion on improved GNSS operations for IoT NTN Huawei, HiSilicon

R1-2203242 Discussion on improved GNSS operation for IoT-NTN ZTE

R1-2203352 Discussion on improved GNSS operations for IoT NTN Spreadtrum Communications

R1-2203759 GNSS operation issues for IoT NTN CATT

R1-2203806 Discussion on improved GNSS operation for IoT NTN xiaomi

R1-2203933 Improved GNSS operations for IoT NTN Nordic Semiconductor ASA

R1-2204013 Discussion on improved GNSS operations for IoT NTN OPPO

R1-2204269 On improved GNSS operations for IoT NTN Apple

R1-2204330 Discussion on improved GNSS operations for IoT NTN CMCC

R1-2204517 Improved GNSS operations for IoT NTN Lenovo

R1-2204827 On improved GNSS operation for IoT NTN Ericsson Telecomunicazioni SpA

[109-e-R18-NTN-03] – Wen (MediaTek)

Email discussion on improved GNSS operation for IoT NTN by May 20

- Check points: May 16, May 20

R1-2205203 Feature lead summary#1 of AI 9.12.3 on improved GNSS operations Moderator (MediaTek)

From May 19^th GTW session

Conclusion

IoT NTN UE may need to re-acquire a valid GNSS position fix in long connection time.

· FFS: Whether and how to update or reduce the need to update GNSS position fix in long connection time.

Agreement

Closed loop time and frequency correction, with potential enhancements, for IoT-NTN is considered to reduce the need for UE to update GNSS position fix in long connection time.

Agreement

At least the following options can be considered on GNSS measurement in connected for potential enhancements for improved GNSS operations:

· Option 1: UE re-acquires GNSS position fix during RLF procedure

· Option 2: UE re-acquires GNSS position fix with a new gap

Note: this does not imply that a Rel-18 IoT NTN UE is mandated to support one or both of the options.

Decision: As per email decision posted on May 20^th,

Agreement

UE reports additional GNSS assistance information and further study the detailed GNSS assistance information, including e.g. GNSS position fix measurement time

· Note: Since RAN1 agreed that GNSS validity duration is reported by UE in Rel-17, it is already included in GNSS assistance information.

Agreement

Further study on whether there is a need for potential enhancements on the following for long connection time

· UE triggered GNSS measurement.

· Network triggered GNSS measurement.

Final summary in R1-2205553.

9.12.44 Other

R1-2203243 Discussion on other issues for Rel-18 NTN ZTE

R1-2203589 Other issues for NR NTN enhancements vivo

R1-2203760 Others issues for NR NTN CATT

R1-2203845 Other aspects related to NTN operation for Rel-18 Nokia, Nokia Shanghai Bell

R1-2203932 On TA control enhancement for NTN Samsung

R1-2203938 Discussions on NR and IoT NTN NEC

R1-2204672 On other aspects of NTN enhancements Ericsson

R1-2204915 Further simulation results on coverage enhancement Huawei, HiSilicon

RAN1#110

9.12 NTN (Non-Terrestrial Networks) enhancements

Please refer to RP-221819 for detailed scope of the WI on NR NTN enhancements. Also refer to RP-221820 and TR38.882 for additional information on network verified UE location for NR NTN. Please refer to RP-221806 for detailed scope of the WI on IoT NTN enhancements.

R1-2208150 Session notes for 9.12 (NTN (Non-Terrestrial Networks) enhancements) Ad-Hoc Chair (Huawei)

[110-R18-NTN] 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 – Mohamed (Thales)

R1-2205829 Work plan for NR NTN enhancements in Rel-18 THALES

R1-2206418 Discussion on UL time and frequency synchronization enhancement for NTN BUPT

9.12.1 Coverage enhancement for NR NTN

R1-2205826 Discussion on NR NTN coverage enhancement THALES

R1-2205832 Coverage Enhancement for NTN Lockheed Martin

R1-2205856 Discussion on coverage enhancement for NR NTN Huawei, HiSilicon

R1-2206009 Discussion on coverage enhancements for NTN Spreadtrum Communications

R1-2206012 Coverage enhancement for NR NTN NTPU

R1-2206020 Discussion on coverage enhancement for NTN ZTE

R1-2206063 Discussions on coverage enhancement for NR NTN vivo

R1-2206133 Considerations on improving NR NTN Coverage Sony

R1-2206137 Coverage enhancement for NR NTN MediaTek Inc.

R1-2206236 Discussion on coverage enhancements aspects for NR NTN NEC

R1-2206310 Discussion on coverage enhancement for NR NTN OPPO

R1-2206386 Discussion on coverage enhancement for NR NTN CATT

R1-2206423 Evaluation results for NTN coverage enhancement Panasonic

R1-2206630 Discussion on coverage enhancement for NR-NTN Xiaomi

R1-2206848 On coverage enhancement for NR NTN Samsung

R1-2206859 On NTN coverage enhancement ITL

R1-2206961 Coverage enhancement for NR NTN ETRI

R1-2207140 Evaluation of coverage enhancements for NR over NTN Nokia, Nokia Shanghai Bell

R1-2207255 Coverage enhancements for NR NTN Qualcomm Incorporated

R1-2207294 Discussion on coverage enhancement for NR NTN Lenovo

R1-2207353 Performance Evaluation on Coverage Enhancement for NR NTN Apple

R1-2207358 Discussion on coverage enhancement for NR NTN LG Electronics

R1-2207372 Discussion on coverage enhancement for NR NTN Baicells

R1-2207428 Discussion on coverage enhancement for NR NTN NTT DOCOMO, INC.

R1-2207762 On coverage enhancements for NR NTN Ericsson (rev of R1-2207556)

R1-2207808 Summary #1 on 9.12.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Monday session

Conclusion

For Rel-18 coverage enhancement in NTN, NLOS environment is deprioritized.

Proposed working assumption

For NR-NTN coverage enhancement, parameter set-1 for LEO is prioritized for VoIP

· parameter set-2 for LEO-600 can also be considered

For NR-NTN coverage enhancement, parameter set-1 for GEO/MEO is prioritized for low-data rate services

R1-2207809 Summary #2 on 9.12.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Thursday session

Agreement

For NR-NTN coverage enhancement, RAN1 concludes that coverage enhancements specifically for GEO and MEO are de-prioritized in Rel-18.

· Potential enhancements for LEO can also apply to GEO and MEO

Agreement

For NR-NTN coverage enhancement in Rel-18, link budget of parameter set-1 for LEO-1200 operating at LOS is considered as the target to evaluate whether each channel/signal with the existing specification needs to be enhanced or not. The targeted performances are used to evaluate the following services:

· VoIP using AMR 4.75 kbps.

· Low data rate of 3 kbps.

· Potential enhancements for deployments with parameter set-1 can also apply for deployments for parameter set-2

Observation

For PUCCH format 1 with parameter set-1 for LEO-1200 operating at LOS,

· Five sources observed that the existing specification can meet the performance requirement.

Conclusion

RAN1 concluded that enhancement is unnecessary for PUCCH format 1 with parameter set-1 for LEO-1200 operating at LOS, assuming -5dBi UE antenna gain.

Observation

For PUCCH format 3 with parameter set-1 for LEO-1200 operating at LOS,

· Six sources observed that the existing specification can meet the performance requirement.

· One source observed that the existing specification cannot meet the performance requirement with at least 0.6 dB gap.

Conclusion

RAN1 concluded that enhancement is unnecessary for PUCCH format 3 with parameter set-1 for LEO-1200 operating at LOS, assuming -5dBi UE antenna gain.

Observation

For PUCCH for Msg4 HARQ-ACK with parameter set-1 for LEO-1200 operating at LOS,

· One source observed that the existing specification can meet the performance requirement.

· Three sources observed that the existing specification cannot meet the performance requirement with a gap of 1.8 to 6 dB.

Conclusion

RAN1 concluded that PUCCH for Msg4 HARQ-ACK should be enhanced to meet the coverage requirements for parameter set-1 for LEO-1200 operating at LOS, assuming -5dBi UE antenna gain.

Observation

For PUSCH for low data rate of 3 kbps with parameter set-1 for LEO-1200 operating at LOS,

· Eight sources observed that the existing specification can meet the performance requirement.

Conclusion

RAN1 concluded that enhancement is unnecessary for PUSCH for low data rate of 3 kbps with parameter set-1 for LEO-1200 operating at LOS, assuming -5dBi UE antenna gain.

R1-2207810 Summary #3 on 9.12.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

R1-2207811 Summary #4 on 9.12.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Friday session

Observation

For PRACH format 0 with parameter set-1 for LEO-1200 operating at LOS,

· One source observed that the existing specification can meet the performance requirement

· Eight sources observed that the existing specification cannot meet the performance requirement with a gap of 0.3 to 5.3 dB

For PRACH format 2 with parameter set-1 for LEO-1200 operating at LOS,

· Ten sources observed that the existing specification can meet the performance requirement

· Two sources observed that the existing specification cannot meet the performance requirement with a gap of 1.9 to 8.8 dB

For PRACH format B4 with parameter set-1 for LEO-1200 operating at LOS,

· Ten sources observed that the existing specification cannot meet the performance requirement with a gap of 1.2 to 11.9 dB

Note: for the observations above, some sources used 1 Rx antenna and some sources used 2 Rx antennas at the satellite.

Observation

For PUSCH for VoIP with parameter set-1 for LEO-1200 operating at LOS,

· Six sources observed that the existing specification can meet the performance requirement with a margin of 0 to 1.7 dB

o One company simulated by using 20 repetitions without DMRS bundling

o Four companies simulated by using 20 repetitions with DMRS bundling

o One company simulated by using 32 repetitions with DMRS bundling

§ Note: this is the only result using frame combining by application layer

· Nine sources observed that the existing specification cannot meet the performance requirement with a gap of 0.3 to 8.6 dB

o Eight companies simulated by using 20 repetitions without DMRS bundling

o Seven companies simulated without frequency hopping

o One company simulated by using 16 repetitions with DMRS bundling

Note: for the observations above, some sources used 1 Rx antenna and some sources used 2 Rx antennas at the satellite.

Observation

RAN1 concluded that enhancement for PUSCH for VoIP may be needed to meet the coverage requirements for parameter set-1 for LEO-1200 operating at LOS, assuming -5dBi UE antenna gain, when DMRS bundling is not applied.

Observation

For Msg3 PUSCH with parameter set-1 for LEO-1200 operating at LOS,

· Eight sources observed that the existing specification can meet the performance requirement

· One source observed that the existing specification cannot meet the performance requirement with a gap of 1.5 dB.

Conclusion

RAN1 concluded that enhancement is unnecessary for Msg3 PUSCH with parameter set-1 for LEO-1200 operating at LOS, assuming -5dBi UE antenna gain.

R1-2208268 Summary #5 on 9.12.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

Final summary in R1-2208269.

9.12.2 Network verified UE location for NR NTN

R1-2205827 Discussion on network verified UE location in NR NTN THALES

R1-2205859 Discussion on network-verified UE location for NR NTN Huawei, HiSilicon

R1-2206021 Discussion on network verified UE location for NR NTN ZTE

R1-2206064 Discussions on Network verified UE location for NR NTN vivo

R1-2206134 Network verified UE location for NR NTN Sony

R1-2206138 Network verified UE location for NR NTN MediaTek Inc.

R1-2206311 Discussion on network verified UE location for NR NTN OPPO

R1-2206387 Considerations on network verified UE location for NR NTN CATT

R1-2206424 Discussion on network verified UE location for NTN Panasonic

R1-2206503 On NTN NW verified UE location Lenovo

R1-2206631 Discussion on the network verified location for NTN Xiaomi

R1-2206849 Network verified UE location for NR NTN Samsung

R1-2206962 Discussion on network verified UE location for NTN ETRI

R1-2207141 Network verified UE positioning for NR over NTN Nokia, Nokia Shanghai Bell

R1-2207256 Network verified UE location for NR NTN Qualcomm Incorporated

R1-2207354 On Network Verified UE Location Apple

R1-2207359 Discussion on network verified UE location for NR NTN LG Electronics

R1-2207429 Discussion on Network verified UE location for NR NTN NTT DOCOMO, INC.

R1-2207682 On network verified UE location in NR NTN Ericsson

R1-2207628 FL Summary #1: Network verified UE location for NR NTN Moderator (THALES)

R1-2207629 FL Summary #2: Network verified UE location for NR NTN Moderator (THALES)

From Monday session

Agreement

The following 3GPP defined RAT dependent positioning methods shall be considered as starting point for the study on Network verified UE location in case of NGSO based NTN deployment:

· Multi-RTT

· DL/UL-TDOA

Note-1: Other methods (e.g. AoA based) are not precluded

Note-2: RAT independent positioning methods are not under the scope of the study

Agreement

For evaluating positioning performance in NTN, the following metrics apply.

· Horizontal accuracy:

o Horizontal accuracy is the difference between a calculated horizontal position by the network and the actual horizontal position of a UE (for evaluation purposes)

o At least CDFs of horizontal positioning errors are used as a performance metrics in NR positioning evaluations

o At least the following percentiles of positioning error is analyzed 50%, 67%, 80%, 90%, 95%

R1-2207630 FL Summary #3: Network verified UE location for NR NTN Moderator (THALES)

Agreement

· The following parameters are assumed for the evaluation of RAT dependent positioning methods study in NTN:

Parameter	Description/Value
Scenarios	Rural, LOS
Satellite Orbit	600km, optional: 1200km
Satellite parameters	Reuse Set-1satellite parameters as in table 6.1.1.1-1/2 of TR38.821
Channel model/ Delay spread	Based on section 6.7.2 of TR 38.811
FR/Carrier frequency	FR1: 2GHz, S-band (n256). Optional: FR2
BW	To be reported by companies
Subcarrier spacing, kHz	15 for FR1, optional: 120 kHz for FR2
Number of satellite in view	1 for single satellite case, ~~[3] for multi-satellite case~~
Orbit inclination	To be reported by companies
UE type	Handheld terminal, Optional: VSAT
UE related parameters	Handheld UE characteristics as in Table 6.1.1.1-3 of TR38.821 with update of polarization, Tx/Rx antenna gain, and antenna type and configuration as agreed under AI 9.12.1
Positioning signals (Note 1)	To be reported
Reference Signal Physical Structure and Resource Allocation (RE pattern)	To be reported
RS type of sequence/number of ports	To be reported
Number of symbols used per occasion	To be reported
number of occasions used per positioning estimate	To be reported
Time window for measurement collection	To be reported
Interference modelling (ideal muting, or other)	To be reported
Reference Signal Transmission Bandwidth	To be reported
Reference point for timing measurement	Satellite
Description of positioning technique / applied positioning algorithm	To be reported
UE speed	3km/h
Maximum timing measurement error	To be reported
Performance metrics	Horizontal accuracy (UE 2D position accuracy)
Additional notes, if any	Note 1: Time-related measurements can be performed via other downlink and uplink signals than PRS and SRS Note 2: The corresponding link budget should also be reported and the verification procedure should be done within the restriction of minimum elevation angle for service, e.g., 30 degree for LEO

Final summary in R1-2207631.

9.12.3 Disabling of HARQ feedback for IoT NTN

R1-2205831 Remaining Issues for HARQ Lockheed Martin

R1-2205857 Discussion on disabling of HARQ feedback for IoT NTN Huawei, HiSilicon

R1-2206010 Discussion on disabling of HARQ feedback for IoT NTN Spreadtrum Communications

R1-2206022 Discussion on disabling of HARQ feedback for IoT-NTN ZTE

R1-2206135 On disabling HARQ feedback for IoT-NTN Sony

R1-2206139 Disabling of HARQ for IoT NTN MediaTek Inc.

R1-2206312 Discussion on disabling of HARQ feedback for IoT NTN OPPO

R1-2206388 Discussion on disabling of HARQ feedback for IoT NTN CATT

R1-2206480 Disabling of HARQ feedback for IoT NTN NEC

R1-2206632 Discussion on HARQ operation for IoT NTN Xiaomi

R1-2206850 Disabling of HARQ feedback for IoT NTN Samsung

R1-2206881 Disabling of HARQ feedback for IoT NTN Nordic Semiconductor ASA

R1-2206933 Discussion on disabling of HARQ feedback for IoT NTN CMCC

R1-2207080 On disabling HARQ feedback for IOT-NTN Mavenir

R1-2207144 Discussions on disabling of HARQ feedback for IoT NTN Sharp

R1-2207150 Disabling HARQ feedback in IoT-NTN InterDigital, Inc.

R1-2207257 Disabling HARQ Feedback for IoT-NTN Qualcomm Incorporated

R1-2207291 Disabling of HARQ feedback for NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2207295 Disabling of HARQ feedback for IoT NTN Lenovo

R1-2207355 HARQ Feedback Disabling for IoT NTN Apple

R1-2207570 On disabling HARQ feedback for IoT NTN Ericsson

R1-2207772 FLS#1 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

R1-2207949 FLS#2 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

From Wed session

Agreement

For eMTC NTN, to configure/indicate enabling/disabling of HARQ feedback for downlink transmission, down select one or more from the following options:

· Option 1: per HARQ process via UE specific RRC signaling.

· Option 3: explicitly indicated by DCI (e.g., new field or reusing existing field).

· Option 4: implicitly indicated by existing configured/indicated/combined parameter(s) in the DCI (e.g., repetition number, TBS)

· Option 6: combinations of some options above.

Agreement

For NB-IoT NTN, to configure/indicate enabling/disabling of HARQ feedback for downlink transmission, down select one or more from the following options:

· Option 1: per HARQ process via UE specific RRC signaling

· Option 3: explicitly indicated by DCI (e.g., new field or reusing existing field)

· Option 4: implicitly indicated by existing configured/indicated/combined parameter(s) in the DCI (e.g., repetition number, TBS)

· Option 6: combinations of some options above

Agreement

For a DL HARQ process with disabled HARQ feedback in NB-IoT, at least the following UE behavior(s) can be considered:

Option 1: UE is not expected to receive another NPDCCH carrying a DCI scheduling a NPDSCH for a given HARQ process that starts until X(ms) after the end of the reception of the last NPDSCH for that HARQ process.

X =12

Option 2: UE is not required to monitor NPDCCH in a period of Y(ms) from the end of reception of the last NPDSCH

Y=12

Note: it may be different UE behaviors for different UE categories (e.g., UE with single/multiple HARQ processes).

Final summary in R1-2208011.

9.12.44 Improved GNSS operations for IoT NTN

R1-2205858 Discussion on improved GNSS operations for IoT NTN Huawei, HiSilicon

R1-2206011 Discussion on improved GNSS operations for IoT NTN Spreadtrum Communications

R1-2206023 Discussion on improved GNSS operation for IoT-NTN ZTE

R1-2206140 Improved GNSS operations for IoT NTN MediaTek Inc.

R1-2206313 Discussion on improved GNSS operations for IoT NTN OPPO

R1-2206389 Improved GNSS operations for IoT NTN CATT

R1-2206633 Discussion on improved GNSS operation for IoT NTN Xiaomi

R1-2206851 Improved GNSS operations for IoT NTN Samsung

R1-2206882 Improved GNSS operations for IoT NTN Nordic Semiconductor ASA

R1-2206934 Discussion on improved GNSS operations for IoT NTN CMCC

R1-2207151 On improved GNSS operation for IoT-NTN InterDigital, Inc.

R1-2207258 Improved GNSS Operations for IoT-NTN Qualcomm Incorporated

R1-2207259 On improved GNSS operation in IoT NTN Ericsson Limited

R1-2207292 Enhancements for long connections in NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2207296 Improved GNSS operations for IoT NTN Lenovo

R1-2207356 On Improved GNSS Operations for IoT NTN Apple

R1-2207736 Feature lead summary#1 of AI 9.12.4 on improved GNSS operations Moderator (MediaTek)

From Wed session

Agreement

GNSS assistance information that UE reports to eNB at least consists of:

GNSS position fix time duration for measurement
GNSS validity duration

Agreement

When eNB triggers UE to make GNSS measurements, UE re-acquires GNSS position fix

FFS details of signalling
FFS how UE reports GNSS assistance information after eNB trigger and the detailed content
Note: further discuss whether a UE is expected to handle all eNB triggers

Final summary in R1-2207737.

RAN1#110-bis-e

9.11 NTN (Non-Terrestrial Networks) enhancements

Please refer to RP-222654 for detailed scope of the WI on NR NTN enhancements. Also refer to RP-221820 and TR38.882 for additional information on network verified UE location for NR NTN. Please refer to RP-221806 for detailed scope of the WI on IoT NTN enhancements.

R1-2210694 Session notes for 9.11 (NTN (Non-Terrestrial Networks) enhancements) Ad-Hoc Chair (Huawei)

R1-2210186 R18 WI NR-NTN-enh work plan at RAN1, 2 and 3 THALES

9.11.1 Coverage enhancement for NR NTN

R1-2208395 Coverage enhancement for NR NTN MediaTek Inc.

R1-2208435 Discussion on coverage enhancement for NR NTN Huawei, HiSilicon

R1-2208567 Discussion on coverage enhancements for NTN Spreadtrum Communications

R1-2208662 Discussions on coverage enhancement for NR NTN vivo

R1-2208693 Discussion on coverage enhancement for NTN ZTE

R1-2208834 Discussion on coverage enhancement for NR NTN OPPO

R1-2208954 Discussion on UL coverage enhancement for NR NTN CATT

R1-2209071 On coverage enhancement for NR NTN Intel Corporation

R1-2209114 On coverage enhancement for NR NTN Sony

R1-2209264 Discussion on coverage enhancement for NR-NTN xiaomi

R1-2209356 Discussion on coverage enhancement for NR NTN CMCC

R1-2209411 Discussion on coverage enhancement for NR NTN ETRI

R1-2209422 Discussion on coverage enhancements aspects for NR NTN NEC

R1-2209599 On Coverage Enhancement for NR NTN Apple

R1-2209656 On coverage enhancements for NR NTN Ericsson

R1-2209750 On coverage enhancement for NR NTN Samsung

R1-2209768 Discussion on coverage enhancement for NR NTN Baicells

R1-2209796 Discussion on coverage enhancement for NR-NTN Panasonic

R1-2209802 Discussion on coverage enhancement for NR NTN LG Electronics

R1-2209921 Discussion on coverage enhancement for NR NTN NTT DOCOMO, INC.

R1-2210004 Coverage enhancements for NR NTN Qualcomm Incorporated

R1-2210023 Discussion on coverage enhancement for NR NTN Lenovo

R1-2210049 Considerations on coverage enhancements for NR over NTN Nokia, Nokia Shanghai Bell

[110bis-e-R18-NTN-01] – Shohei (NTT DOCOMO)

Email discussion on coverage enhancement for NR NTN by October 19

- Check points: October 14, October 19

R1-2210344 Summary #1 on 9.11.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Oct 12th GTW session

Agreement

For PUCCH for Msg4 HARQ-ACK,

Support PUCCH repetition

Further discuss the specification impact for at least the following

Procedure and signaling (e.g., cell-specific configuration, request to gNB and dynamic indication from gNB, UE capability indication before Msg4, etc.)
Repetition factor
Repetition slot counting for FDD

Further study whether to enhance or support the following

Frequency hopping
DMRS bundling

Agreement

For PUCCH repetition for Msg4 HARQ-ACK,

Discuss the following options of procedure to perform repetitions

Option 1: UE always performs repetition if configured in cell-specific manner

FFS: details of cell-specific configuration
FFS: behavior of UE being incapable of repetition

Option 2: UE requests repetition and is dynamically indicated to perform repetition

FFS: details of repetition request
FFS: details of configuration and dynamic repetition indication

Option 3: UE indicates repetition capability and is dynamically indicated to perform repetition
How UE indicates repetition capability before Msg4

Decision: As per email decision posted on Oct 16th,

Conclusion

For PUCCH repetition for Msg4 HARQ-ACK,

· The existing mechanism on repetition slot counting (as in section 9.2.6 of TS 38.213) can be applied.

o FFS: whether specification update to apply the existing mechanism to PUCCH repetition for Msg4 HARQ-ACK is needed.

R1-2210345 Summary #2 on 9.11.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Oct 18th GTW session

Agreement

For NTN-specific PUSCH DMRS bundling,

· Discuss further the need of enhancement in consideration of at least the following:

o Phase difference due to timing drift and/or doppler shift.

- e.g., whether/how long a UE can meet phase continuity requirement specified as Table 6.4.2.5-1 in 38.101-1 in consideration of frequency error within ± 0.1 PPM specified in section 6.4.1 of 38.101-5 and timing error specified in Table 7.1C.2-1 of 38.133, whether RAN1 should introduce enhancement to meet the requirement and/or recommend RAN4 to update the requirement or UE should pre-compensate phase difference by UE implementation, etc.

o An event which causes power consistency and phase continuity not to be maintained.

- e.g., whether the new event is necessary to determine actual TDW(s) from each nominal TDW or the existing specification can work without any specification change or whether such event may not occur depending on implementations, etc.

o Note: baseline performance for legacy UEs can include antenna switching

Decision: As per email decision posted on Oct 20th,

Agreement

For PUCCH transmission for Msg4 HARQ-ACK, supported number of transmissions are 1, 2, 4, 8.

· Note: single PUCCH transmission is performed as in the existing specification, and/or (if supported for single PUCCH transmission) according to configuration/indication e.g., in signaling with respect to number of transmissions.

· FFS: whether larger number of transmissions is supported

· FFS: whether/how single PUCCH transmission can be configured and/or indicated

Final summary in R1-2210346.

9.11.2 Network verified UE location for NR NTN

R1-2208389 Discussion on network verified UE location in NR NTN THALES

R1-2208396 Network verified UE location for NR NTN MediaTek Inc.

R1-2208436 Discussion on network-verified UE location for NR NTN Huawei, HiSilicon

R1-2208663 Discussions on network verified UE location for NR NTN vivo

R1-2208694 Discussion on network verified UE location for NR NTN ZTE

R1-2208835 Discussion on network verified UE location for NR NTN OPPO

R1-2208955 Evaluations on network verified UE location for NR NTN CATT

R1-2209072 On network verified UE location for NR NTN Intel Corporation

R1-2209115 Network verified UE location for NR NTN Sony

R1-2209265 Discussion on the network verified location xiaomi

R1-2209398 NTN NW verified UE location Lenovo

R1-2209600 Discussion on Network Verified UE Location Apple

R1-2209643 UE location determination during initial access in NTN InterDigital, Inc.

R1-2209649 On network verified UE location in NR NTN Ericsson Limited

R1-2209751 Network verified UE location for NR NTN Samsung

R1-2209922 Discussion on Network verified UE location for NR NTN NTT DOCOMO, INC.

R1-2210005 Network verified UE location for NR NTN Qualcomm Incorporated

R1-2210050 Further discussion on Network Verified UE Positioning Nokia, Nokia Shanghai Bell

R1-2210069 Discussion on network verified UE location for NTN PANASONIC

R1-2210195 Discussion on network verified UE location for NR NTN LG Electronics

[110bis-e-R18-NTN-02] – Mohamed (THALES)

Email discussion on network verified UE location for NR NTN by October 19

- Check points: October 14, October 19

R1-2208390 FL Summary #1: Network verified UE location for NR NTN THALES

From Oct 12th GTW session

Agreement

Deprioritize the discussion on UE location verification during initial access.

R1-2208391 FL Summary #2: Network verified UE location for NR NTN THALES

R1-2208392 FL Summary #3: Network verified UE location for NR NTN THALES

From Oct 18th GTW session

Agreement

For the evaluation of time based positioning methods, further evaluation results taking into account satellite movement between TX and RX measurements should be provided.

How this is characterised is also reported by companies

Final summary in R1-2208393.

9.11.3 Disabling of HARQ feedback for IoT NTN

R1-2208397 Disabling of HARQ for IoT NTN MediaTek Inc.

R1-2208437 Discussion on disabling of HARQ feedback for IoT NTN Huawei, HiSilicon

R1-2208568 Discussion on disabling of HARQ feedback for IoT NTN Spreadtrum Communications

R1-2208695 Discussion on disabling of HARQ feedback for IoT-NTN ZTE

R1-2208836 Discussion on disabling of HARQ feedback for IoT NTN OPPO

R1-2208956 Discussion on disabling of HARQ feedback for IoT NTN CATT

R1-2209157 Disabling of HARQ feedback for IoT NTN NEC

R1-2209218 Disabling of HARQ feedback for IoT NTN Nordic Semiconductor ASA

R1-2209245 Disabling of HARQ feedback for NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2209266 Discussion on the HARQ operation for IoT NTN xiaomi

R1-2209357 Discussion on disabling of HARQ feedback for IoT NTN CMCC

R1-2209601 Discussion on HARQ Feedback Disabling for IoT NTN Apple

R1-2209644 Disabling of HARQ feedback in IoT-NTN InterDigital, Inc.

R1-2209651 On disabling HARQ feedback for IOT-NTN Mavenir

R1-2209752 Disabling of HARQ feedback for IoT NTN Samsung

R1-2209931 Discussions on disabling of HARQ feedback for IoT NTN Sharp

R1-2210006 Disabling HARQ Feedback for IoT-NTN Qualcomm Incorporated

R1-2210024 Disabling of HARQ feedback for IoT NTN Lenovo

R1-2210071 On disabling HARQ feedback for IoT NTN Ericsson

[110bis-e-R18-NTN-03] – Zhi (Lenovo)

Email discussion on disabling of HARQ feedback for IoT NTN by October 19

- Check points: October 14, October 19

R1-2210329 FLS#1 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

Presented in Oct 10th GTW session

Decision: As per email decision posted on Oct 16th,

Agreement

For a DL HARQ process with disabled HARQ feedback in NB-IoT, UE is not required to monitor NPDCCH in a period of Y=12(ms) from the end of reception of the NPDSCH.

R1-2210330 FLS#2 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

From Oct 17th GTW session

Agreement

For NB-IoT NTN, to configure/indicate enabling/disabling of HARQ feedback for downlink transmission, down select ONE from the following options at RAN1#111:

· Option 6a-1: Support RRC signaling configured between Option 1 and Option 3

· Option 6a-4: Support Option 1 by default, and support Option 3 to override default configuration for corresponding transmission

9.11.44 Improved GNSS operations for IoT NTN

R1-2208398 Improved GNSS operations for IoT NTN MediaTek Inc.

R1-2208438 Discussion on improved GNSS operations for IoT NTN Huawei, HiSilicon

R1-2208569 Discussion on improved GNSS operations for IoT NTN Spreadtrum Communications

R1-2208696 Discussion on improved GNSS operation for IoT-NTN ZTE

R1-2208837 Discussion on improved GNSS operations for IoT NTN OPPO

R1-2208957 Improved GNSS operations for IoT NTN CATT

R1-2209219 Improved GNSS operations for IoT NTN Nordic Semiconductor ASA

R1-2209246 Enhancements for long connections in NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2209267 Discussion on the improved GNSS operation for IoT NTN xiaomi

R1-2209358 Discussion on improved GNSS operations for IoT NTN CMCC

R1-2209602 On Improved GNSS Operations for IoT NTN Apple

R1-2209645 GNSS acquisition and reporting in IoT NTN InterDigital, Inc.

R1-2209648 On improved GNSS operation in IoT NTN Ericsson Limited

R1-2209753 Improved GNSS operations for IoT NTN Samsung

R1-2210007 Improved GNSS Operations for IoT-NTN Qualcomm Incorporated

R1-2210025 Improved GNSS operations for IoT NTN Lenovo

[110bis-e-R18-NTN-04] – Wen (MediaTek)

Email discussion on improved GNSS operations for IoT NTN by October 19

- Check points: October 14, October 19

R1-2210260 Feature lead summary#1 of AI 9.11.4 on improved GNSS operations Moderator (MediaTek Inc.)

From Oct 10th GTW session

Agreement

· Support eNB to at least aperiodically trigger UE to make GNSS measurement.

Decision: As per email decision posted on Oct 16th,

Agreement

· If eNB aperiodically triggers UE to make GNSS measurement, a MAC CE is used.

R1-2210261 Feature lead summary#2 of AI 9.11.4 on improved GNSS operations Moderator (MediaTek Inc.)

From Oct 17th GTW session

Agreement

UE reports GNSS position fix time duration for measurement at least during the initial access stage

· which message carries this information is up to RAN2

Agreement

In connected mode, UE may report GNSS validation duration with MAC CE.

Final summary in R1-2210564.

RAN1#111

9.11 NTN (Non-Terrestrial Networks) enhancements

R1-2212849 Session notes for 9.11 (NTN (Non-Terrestrial Networks) enhancements) Ad-Hoc Chair (Huawei)

Endorsed and contents incorporated below.

[111-R18-NTN] – Mohamed (Thales)

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

R1-2210953 R18 WI NR-NTN-enh work plan at RAN1, 2 and 3 THALES

From AI 5

R1-2210807 LS on RACH-less handover in NTN RAN2, OPPO

R1-2212744 Discussion on how to reply to RAN2 LS on RACH-less handover in NTN Moderator (OPPO)

R1-2212809 [Draft] reply LS on RACH-less handover in NTN OPPO

From Nov 17th session

Proposal for draft reply LS:

RAN1 response:

For scenario (1)-(4), from RAN1 perspective the RACH-less handover is may be possible assuming the following notes can be satisfied, when UE UL transmission synchronization can be maintained by applying pre-compensation using the assistance information, e.g., epoch time, ephemeris, common TA, of the target cell.

Note 1: RAN1 assumes that the RAN4 UL synchronization requirement specified in Table 7.1C.2-1 of TS38.133 applies to the first UL transmission in the target cell.

Note 2: gNB is expected to provide valid assistance information of the target cell to UE.

Note 3: gNB is expected to ensure the UE can perform the UL transmission while respecting common TA and UE processing time.

2. Actions:

To RAN2:

RAN1 respectfully asks RAN2 to take the above response into account in the future work.

To RAN4:

RAN1 respectfully asks RAN4 whether RAN1’s assumption in Note 1 is correct.

R1-2212930 [Draft] reply LS on RACH-less handover in NTN OPPO

From Nov 18h session

Agreement

For the draft reply LS:

RAN1 response:

For scenario 1, from RAN1 perspective the RACH-less handover is possible, assuming the following notes can be satisfied, when UE UL transmission synchronization can be maintained by applying pre-compensation using the assistance information, e.g., epoch time, ephemeris, common TA, of the target cell.

For scenario (2)-(4), from RAN1 perspective the RACH-less handover may be possible, assuming the following notes can be satisfied, when UE UL transmission synchronization can be maintained by applying pre-compensation using the assistance information, e.g., epoch time, ephemeris, common TA, of the target cell.

Note 1: RAN1 assumes that the RAN4 UL synchronization requirement specified in Table 7.1C.2-1 of TS38.133 applies to the first UL transmission in the target cell.

Note 2: gNB is expected to provide valid assistance information of the target cell to UE.

Note 3: gNB is expected to ensure the UE can perform the UL transmission while respecting common TA and UE processing time.

2. Actions:

To RAN2:

RAN1 respectfully asks RAN2 to take the above response into account in the future work.

To RAN4:

RAN1 respectfully asks RAN4 whether RAN1’s assumption in Note 1 is correct.

R1-2212997 [Draft] reply LS on RACH-less handover in NTN OPPO

Decision: Response to RAN2 in R1-2212997 is endorsed. Final LS is approved in R1-2213001.

9.11.1 Coverage enhancement for NR NTN

R1-2210872 Discussion on coverage enhancement for NR NTN Huawei, HiSilicon

R1-2211026 Discussions on coverage enhancements for NR NTN vivo

R1-2211093 Coverage enhancement for NR NTN MediaTek Inc.

R1-2211109 Discussion on coverage enhancement for NTN ZTE

R1-2211115 Discussion on coverage enhancement for NR NTN Hyundai Motor Company

R1-2211176 Further discussion on UL coverage enhancement for NR NTN CATT

R1-2211247 Discussion on coverage enhancements for NTN Spreadtrum Communications

R1-2211328 Discussion on DMRS bundling for NR NTN NTPU

R1-2211342 Discussion on coverage enhancement for NR-NTN xiaomi

R1-2211416 On coverage enhancement for NR NTN Intel Corporation

R1-2211460 Discussion on coverage enhancement for NR NTN OPPO

R1-2211567 Discussion on coverage enhancement for NR NTN ETRI

R1-2211594 Discussion on coverage enhancement for NR-NTN Panasonic

R1-2211626 On coverage enhancement for NR NTN Sony

R1-2211699 Discussion on coverage enhancement for NR NTN CMCC

R1-2211754 Coverage enhancement for NR NTN NEC

R1-2211828 Discussion on Coverage Enhancement for NR NTN Apple

R1-2211883 Discussion on coverage enhancement for NR NTN Lenovo

R1-2211929 Discussion on coverage enhancement for NR NTN LG Electronics

R1-2212002 Discussion on coverage enhancement for NR NTN NTT DOCOMO, INC.

R1-2212064 On coverage enhancement for NR NTN Samsung

R1-2212136 Coverage enhancements for NR NTN Qualcomm Incorporated

R1-2212213 Discussion on coverage enhancement for NR NTN Baicells

R1-2212325 On coverage enhancements for NR NTN Ericsson

R1-2212401 Considerations on coverage enhancements for NR over NTN Nokia, Nokia Shanghai Bell

R1-2212569 Summary #1 on 9.11.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

Presented in Nov 15th session.

R1-2212570 Summary #2 on 9.11.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

R1-2212571 Summary #3 on 9.11.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Nov 17th session

Conclusion

For the study of NTN-specific PUSCH DMRS bundling, RAN1’s understanding is that Phase variation due to constant frequency error within ± 0.1 PPM specified in section 6.4.1 of 38.101-1 does not have impact on the phase continuity requirement for two adjacent slots specified as Table 6.4.2.5-1 in 38.101-1, according to annex F.9 and F.4 of 38.101-1.

R1-2212864 Summary #4 on 9.11.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Nov 18th session

Conclusion

RAN1 concluded that PUSCH DMRS bundling with sufficient TDW size should be applicable in NTN to meet the performance requirement for VoIP

· FFS: How to determine TDW size, including UE capability.

· Note: The above does not mean the performance requirements will be satisfied with DMRS bundling

Working assumption

For PUCCH repetition for Msg4 HARQ-ACK,

One or more repetition factors may be configured via SIB

If only one repetition factor is configured via SIB and if the value is one of {[1], 2, 4, 8}, UE capable of PUCCH repetition for Msg4 HARQ-ACK can perform repetition with the repetition factor

FFS: whether UE requests repetition or indicates repetition capability

If multiple factors from {1, 2, 4, 8} are configured via SIB, PUCCH repetition for Msg4 HARQ-ACK may be dynamically determined and indicated by gNB

FFS: whether UE requests repetition or indicates repetition capability
FFS: whether repetition factor is indicated by UE

FFS: UE behavior when repetition factor is not configured via SIB
FFS: whether one or more UE capabilities are needed for the above is for further discussion

Final summary in R1-2212865.

9.11.2 Network verified UE location for NR NTN

R1-2210873 Discussion on network-verified UE location for NR NTN Huawei, HiSilicon

R1-2210948 Discussion on network verified UE location in NR NTN THALES

R1-2211027 Discussions on UE location verification in NR NTN vivo

R1-2211094 Network verified UE location for NR NTN MediaTek Inc.

R1-2211110 Discussion on network verified UE location for NR NTN ZTE

R1-2211177 Further evaluations on network verified UE location for NR NTN CATT

R1-2211343 Discussion on the network verified location xiaomi

R1-2211417 On network verified UE location for NR NTN Intel Corporation

R1-2211461 Discussion on network verified UE location for NR NTN OPPO

R1-2211601 Discussion on Network-verified UE location for NTN PANASONIC

R1-2211627 Network verified UE location for NR NTN Sony

R1-2211746 NTN NW verified UE location Lenovo

R1-2211765 On network verified UE location in NR NTN Ericsson Limited

R1-2211829 On Network Verified UE Location Apple

R1-2211930 Discussion on network verified UE location for NR NTN LG Electronics

R1-2212003 Discussion on Network verified UE location for NR NTN NTT DOCOMO, INC.

R1-2212065 Network verified UE location for NR NTN Samsung

R1-2212137 Network verified UE location for NR NTN Qualcomm Incorporated

R1-2212402 Further discussion on Network Verified UE Positioning Nokia, Nokia Shanghai Bell

R1-2210949 FL Summary #1: Network verified UE location for NR NTN THALES

From Nov 15th session

Observation

For network verified UE location based on multi-RTT positioning method using Rx-Tx time difference measurements with single satellite, assuming the ambiguity of the mirror image position is resolved, if the UE reports needed to perform multi-RTT can be assumed to be trusted:

Five sources observed that multi-RTT positioning method can meet the NTN UE location verification accuracy requirement for LEO 600km:

Four sources observed that the positioning horizontal accuracy of less than 10km can be achieved with few seconds over-the-air latency (less or equal to 10s) with 95-percentile confidence level.

Regarding the above observation, the following inputs were reported by companies:

One source reported that the timing measurement error of SRS is smaller than 232 ns with 95% probability. And the timing measurement error of PRS can be smaller than 13ns and 16ns with 95% probability under the bandwidth of 8.64 MHz and 4.5 MHz, respectively. This source, reported also that satellite’s movement between TX and RX measurements is taken into account in the evaluation.
One source reported that the timing measurement error is around 11ns for PRS detection with PRS bandwidth of 9.36 MHz. While for the SRS measurement, the maximum timing error is around 50ns with SRS bandwidth of 9.36 MHz. Further, this source, proposed that the RTT estimation error due to the movement of the satellite should be taken into account.

Note: this source provided results using 2D positioning method is used.

One source considered the maximum timing measurement error: 30ns, 50ns, 100ns, 200ns and uniform distribution of timing measurement error.
One source reported that the timing measurement error of 95 percentile is equal to 8ns and 12.6ns for PRS and SRS respectively with an oversampling of 8. To take into account satellite movement between TX and RX measurements, for RTT calculation this source observed that the RTT between a satellite and a UE at time t0 can be approximated by the sum of the one-way delay at t0-T and the one-way delay at t0+T when T is small, e.g., less than 200 ms.

One source observed that the positioning horizontal accuracy of less than 10km can be achieved with 180 seconds latency for earth fixed beam with 90-percentile confidence level

This source reported that the timing measurement error of SRS and PRS can be smaller than 26.7ns and 6.1ns respectively with 95% probability under 30 degree elevation angle for LEO-600. Further, it observed that the satellite movement is taken into consideration when calculating the RTT.

Two sources observed that multi-RTT positioning method require latency larger than 60 seconds for UE located nearby the orbital plane of a satellite during a certain time duration.

Note 1: Some companies observed that when 2D positioning method is used (e.g. when UE altitude is known to the network) better positioning latency/accuracy can be achieved compared to 3D positioning method.

R1-2210950 FL Summary #2: Network verified UE location for NR NTN THALES

From Nov 17th session

Conclusion:

For network verification of UE location in NR NTN with single satellite in view with multi-RTT positioning:

· From RAN1 perspective, if the UE’s Rx-Tx time difference measurements report can be assumed to be trusted, multi-RTT positioning method using Rx-Tx time difference measurements can meet the accuracy requirement of less than 10km with 90% confidence, in case of:

o At least LEO600 based deployment

o Earth fixed cells

o Earth moving cell at least if UE dwell time within the cell is enough to perform at least two RTT measurements

Note: the required over-the-air latency reported in evaluations ranged from less than 10s up to 180s

R1-2210951 FL Summary #3: Network verified UE location for NR NTN THALES

From Nov 18th session

Observation

For network verified UE location based on DL-TDOA positioning method with single satellite:

Eight companies commented on the suitability of the method: Assuming the ambiguity of the mirror image position is resolved and if the UE reports needed to perform DL-TDOA can be assumed to be trusted:

· Five sources observed that DL-TDOA positioning method can meet the NTN UE location verification accuracy requirement for LEO 600km without considering UE Clock drift:

o Four sources observed that the positioning horizontal accuracy of less than 10km can be achieved with 30 seconds or less:

§ One of these 4 sources observed that horizontal positioning error is equal to 2.5km with 95% probability.

· This source reported that the timing measurement error is around 11ns for PRS detection with PRS bandwidth of 9.36 MHz

o Note 1: this source provided results using 2D positioning method.

§ One of these 4 sources observed that horizontal positioning error of DL-TDOA via PRS with 3 RSTDs and a latency of 24s is equal to 5.33km with 90% probability and 8.92km with 95% probability.

· This source reported that the timing measurement error of PRS can be smaller than 13ns and 16ns with 95% probability under the bandwidth of 8.64 MHz and 4.5 MHz, respectively.

· This source observed that existing CSI RS can be used to meet the requirement with comparable latency

§ One of these 4 sources observed that horizontal positioning accuracy for a latency of 30s with SNR of 5dB and with 90% probability is equal to 9.44km.

· This source observed that the maximum timing measurement error that can be allowed to meet the accuracy requirement of 10km is about 80ns.

§ One of these 4 sources observed the horizontal positioning accuracy of less than 10km can be achieved for 90% of UEs with 12 seconds latency and for 95% of UEs with 20 seconds latency.

· The maximum time measurement error considered by this source is equal to 6ns

o One source observed that the horizontal positioning error of DL-TDOA method can be smaller than 10 km with over 80% probability with 180 seconds latency.

§ This source reported that the timing measurement error of PRS can be smaller than 6.1ns with 95%

· One source observed that the geometry of UE location relative to the satellite orbit will impact the positioning performance in DL-TDOA method e.g. for UE’s location at 200km away from the orbital plane, the NTN UE location verification accuracy requirement can be met and the positioning error of DL-TDOA method can be smaller than 10 km with 95% probability (for UE’s location at 200km away from the orbital plane) and a latency of 220 seconds in case of LEO600km and 342 seconds in case of LEO1200km. For UE located under the satellite orbit, NTN UE location verification accuracy requirement can be meet only with 30% probability.

o This source considered 10 ns UE Clock drift for all time measurement window.

· Position accuracy requirements may not be met if realistic assumption on UE clock drift is considered.

Observation

For network verified UE location based on UL-TDOA positioning method with single satellite:

Two companies commented on the suitability of the method: Assuming the ambiguity of the mirror image position is resolved and if the measurements needed to perform UL-TDOA can be assumed to be trusted:

· One source observed that UL-TDOA cannot meet the target requirement for both earth fixed beam and earth moving beam. With 180s latency, positioning error performance that can be achieved is 34 km, CDF=90% and 13km, CDF=80%.

o This source reported that the timing measurement error of SRS can be smaller than 26.7ns with 95% probability under 30 degree elevation angle for LEO-600 set-1, rural LOS S-band scenario.

· One source observed that the geometry of UE location relative to the satellite orbit will impact the positioning performance in UL-TDOA method e.g. for UE’s location at 200km away from the orbital plane, the NTN UE location verification accuracy requirement can be met and the positioning error of UL-TDOA method can be smaller than 10 km with 95% probability (for UE’s location at 200km away from the orbital plane) and a latency of 220 seconds in case of LEO600km and 342 seconds in case of LEO1200km. For UE located under the satellite orbit, NTN UE location verification accuracy requirement can be meet only with 30% probability.

Conclusion

For network verification of UE location in NR NTN with single satellite in view with DL-TDOA positioning: From RAN1 perspective, if the UE’s RSTD measurements report can be assumed to be trusted, DL-TDOA positioning method can meet the accuracy requirement of less than 10km with 90% confidence, in case of:

· At least LEO600 based deployment

· Earth fixed cells

· Earth moving cell at least if UE dwell time within the cell is enough to perform at least two RSTD measurements

Note 1: the above is based on evaluation results that didn’t account for UE Clock drift

Note 2: the required over-the-air latency reported in evaluations ranged from less than 20s up to 180s

Note 3: The requirements of Network verification of UE location may not be met if realistic assumption on UE clock drift is considered.

Conclusion

For network verification of UE location in NR NTN based on multi-RTT using UE RX-TX time difference report, if the UE reports needed to perform multi-RTT can be assumed to be trusted, existing multi-RTT framework may be reused with potential enhancements to adapt it to NTN context. This may include, but not limited to:

· If justified: NTN-specific definition of UE RX-TX time difference, including as an example, potential modifications to UE Rx – Tx time difference to enable network verification of UE location without introducing any additional measurements at the UE (with respect to Rel-17 NTN)

o The following is not precluded: the UE Rx – Tx time difference is defined as T_UE-RX– T_UE-TX, where T_UE-RX– T_UE-TXis directly derived from the timing advance T_TA applied by the UE at a given subframe.

o Above does not imply that the relevant work is prioritized.

· Other assistance data (e.g. ephemeris) to be transferred from gNB to the LMF.

· If justified: Other assistance data (e.g. to resolve ambiguity on mirror position issue) to be transferred from UE to LMF

· If justified: Adaptations enabling Rx-TX measurements for Multi-RTT involving multiple cells within the same satellite

For network verification of UE location in NR NTN based on DL-TDOA positioning, if the UE reports needed to perform DL-TDOA positioning can be assumed to be trusted, existing DL-TDOA positioning framework may be reused with potential enhancements to adapt it to NTN context.

Final summary in R1-2210952.

9.11.3 Disabling of HARQ feedback for IoT NTN

R1-2210874 Discussion on disabling of HARQ feedback for IoT NTN Huawei, HiSilicon

R1-2210947 Considerations for Disablement of HARQ in IoT NTN Lockheed Martin

R1-2211095 Disabling of HARQ for IoT NTN MediaTek Inc.

R1-2211111 Discussion on disabling of HARQ feedback for IoT-NTN ZTE

R1-2211178 Discussion on remaining issues of disabling of HARQ feedback for IoT NTN CATT

R1-2211248 Discussion on disabling of HARQ feedback for IoT NTN Spreadtrum Communications

R1-2211344 Discussion on the HARQ operation for IoT NTN xiaomi

R1-2211462 Discussion on disabling of HARQ feedback for IoT NTN OPPO

R1-2211548 Disabling of HARQ feedback for NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2211700 Discussion on disabling of HARQ feedback for IoT NTN CMCC

R1-2211734 Disabling of HARQ feedback in IoT-NTN InterDigital, Inc.

R1-2211756 On disabling HARQ feedback for IOT-NTN Mavenir

R1-2211767 On disabling HARQ feedback for IoT NTN Ericsson

R1-2211830 On HARQ Feedback Disabling for IoT NTN Apple

R1-2211884 Disabling of HARQ feedback for IoT NTN Lenovo

R1-2212066 Disabling of HARQ feedback for IoT NTN Samsung

R1-2212138 Disabling HARQ Feedback for IoT-NTN Qualcomm Incorporated

R1-2212367 Disabling of HARQ feedback for IoT NTN NEC

R1-2212432 Disabling of HARQ feedback for IoT NTN Nordic Semiconductor ASA

R1-2212554 FLS#1 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

Presented in Nov 16th session

R1-2212555 FLS#2 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

From Nov 17th session

Working assumption

For NB-IoT NTN and eMTC NTN for CE Mode B, to configure/indicate enabling/disabling of HARQ feedback for downlink transmission:

Support Option 1 by default, and support Option 3 to override default configuration for corresponding transmission

Additional RRC signaling to enable Option 3
If the bitmap for option 1 is not present and if option 3 is configured then the DCI directly indicates HARQ enable/disable. Option 3 can also be configured when the bitmap for option 1 is configured.
FFS #1: Option 3 DCI-based overridden mechanism is applied to both semi-statically HARQ enabled and disabled processes or only applied to semi-statically HARQ disabled processes or only applied to semi-statically HARQ enabled processes.
FFS #2: whether/how to support Option 3 overriding default configuration for corresponding transmission for multiple TBs scheduled by single DCI

For eMTC NTN, to configure/indicate enabling/disabling of HARQ feedback for downlink transmission, take Option 1 for CE Mode A.

9.11.44 Improved GNSS operations for IoT NTN

R1-2210875 Discussion on improved GNSS operations for IoT NTN Huawei, HiSilicon

R1-2211096 Improved GNSS operations for IoT NTN MediaTek Inc.

R1-2211112 Discussion on improved GNSS operation for IoT-NTN ZTE

R1-2211179 Considerations on improved GNSS operationts for IoT NTN CATT

R1-2211249 Discussion on improved GNSS operations for IoT NTN Spreadtrum Communications

R1-2211345 Discussion on the improved GNSS operation for IoT NTN xiaomi

R1-2211463 Discussion on improved GNSS operations for IoT NTN OPPO

R1-2211549 Enhancements for long connections in NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2211701 Discussion on improved GNSS operations for IoT NTN CMCC

R1-2211735 GNSS acquisition and reporting in IoT NTN InterDigital, Inc.

R1-2211755 On Improved GNSS Operations for IoT NTN NEC

R1-2211764 On Improved GNSS operation in IoT NTN Ericsson Limited

R1-2211831 On Improved GNSS Operations for IoT NTN Apple

R1-2211885 Improved GNSS operations for IoT NTN Lenovo

R1-2212067 Improved GNSS operations for IoT NTN Samsung

R1-2212139 Improved GNSS Operations for IoT-NTN Qualcomm Incorporated

R1-2212433 Improved GNSS operation for IoT NTN Nordic Semiconductor ASA

R1-2212651 Feature lead summary#1 of AI 9.11.4 on improved GNSS operations Moderator (MediaTek)

From Nov 16th session

Agreement

For GNSS measurement in RRC connected, if eNB aperiodically triggers connected UE to make GNSS measurement, UE can re-acquire GNSS position fix with a gap

FFS details of gap configuration

The UE may re-acquire GNSS autonomously (when configured by the network) if UE does not receive eNB trigger to make GNSS measurement

FFS based on configured timing

R1-2212652 Feature lead summary#2 of AI 9.11.4 on improved GNSS operations Moderator (MediaTek)

Presented in Nov 17th session.

Final summary in R1-2212920.

RAN1#112

9.11 NTN (Non-Terrestrial Networks) enhancements

Please refer to RP-223534 for detailed scope of the WI on NR NTN enhancements. Also refer to RP-221820 and TR38.882 for additional information on network verified UE location for NR NTN. Please refer to RP-223519 for detailed scope of the WI on IoT NTN enhancements.

R1-2302067 Session notes for 9.11 (NTN (Non-Terrestrial Networks) enhancements) Ad-Hoc Chair (Huawei)

[112-R18-NTN] – Mohamed (Thales)

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

R1-2300324 R18 WI NR-NTN-enh work plan at RAN1, 2 and 3 THALES

9.11.1 Coverage enhancement for NR NTN

R1-2300117 Discussion on coverage enhancement for NR NTN Huawei, HiSilicon

R1-2300148 Consideration on coverage enhancement for NR NTN Lockheed Martin

R1-2300236 Discussion on coverage enhancements for NTN Spreadtrum Communications

R1-2300266 Discussion on coverage enhancement for NR NTN OPPO

R1-2300378 Considerations on coverage enhancements for NR over NTN Nokia, Nokia Shanghai Bell

R1-2300472 Discussions on coverage enhancements for NR NTN vivo

R1-2300497 Discussion on coverage enhancements for NR NTN NTPU, NYCU

R1-2300553 Discussion on coverage enhancement for NR-NTN xiaomi

R1-2300601 Discussion on coverage enhancement for NR NTN Baicells

R1-2300658 Further discussion on UL coverage enhancement for NR NTN CATT

R1-2300704 Discussion on coverage enhancement for NTN ZTE

R1-2300765 Coverage enhancement for NR NTN NEC

R1-2300888 On coverage enhancement for NR NTN Sony

R1-2300902 Discussion on coverage enhancement for NR NTN Hyundai Motor Company

R1-2300905 Discussion on coverage enhancement for NR-NTN Panasonic

R1-2300921 Discussion on coverage enhancement for NR NTN Lenovo

R1-2300939 On coverage enhancement for NR NTN Intel Corporation

R1-2301021 Discussion on coverage enhancement for NR NTN CMCC

R1-2301051 Discussion on coverage enhancement for NR NTN ETRI

R1-2301055 Coverage enhancement for NR NTN MediaTek Inc.

R1-2301072 Discussion on coverage enhancement for NR NTN LG Electronics

R1-2301283 On coverage enhancement for NR NTN Samsung

R1-2301365 On Coverage Enhancement for NR NTN Apple

R1-2301432 Coverage enhancements for NR NTN Qualcomm Incorporated

R1-2301512 Discussion on coverage enhancement for NR NTN NTT DOCOMO, INC.

R1-2301548 Views on Coverage enhancement for NR NTN Sharp

R1-2301726 On coverage enhancements for NR NTN Ericsson

R1-2301835 Summary #1 on 9.11.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Monday session

Observation

For NTN-specific PUSCH DMRS bundling, in LEO 1200 with elevation angle 30 deg. and SCS = 15 kHz, RAN1’s understanding is the following:

· Timing error limit (Table 7.1C.2-1 in 38.133) can be satisfied within at most 13 slots if TA pre-compensation update is not assumed.

o FFS: whether/how to consider the initial timing error at the beginning

o FFS: TA pre-compensation update is assumed

· Frequency error limit (Section 6.4.1 in 38.101-5) can be satisfied over 32 slots if frequency pre-compensation update is not assumed.

· FFS: impact of phase difference limit

R1-2301836 Summary #2 on 9.11.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Thursday session

Working assumption

For PUCCH repetition for Msg4 HARQ-ACK, discuss the following options as container of the [repetition request or capability report] indicated by UE.

Option A: PRACH preamble and/or occasion

FFS: whether PRACH resource partitioning is needed for indication of [repetition request or capability report]
FFS: whether or not indication of repetition factor is assumed
Note: the relation with R18 NR coverage enhancements for PRACH may need to be considered in future meetings

Option B: Higher layer signaling in Msg3 PUSCH

FFS: which signaling is used
Note: if higher layer signaling is preferred in RAN1, the feasibility will be asked to RAN2.

Option C: Physical layer signaling in Msg3 PUSCH

FFS: which signaling is used, e.g. DMRS ports

R1-2301837 Summary #3 on 9.11.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Friday session

Agreement

For PUCCH repetition for Msg4 HARQ-ACK, discuss the following alternatives for dynamic indication of repetition factor from gNB.

Alt 1: Field in DCI scheduling the Msg4 PDSCH

Alt 1-1: One or two bits of the existing field

Alt 1-1a: MCS field
Alt 1-1b: PUCCH resource indicator field (e.g., with repetition factor configuration per PUCCH resource)
Alt 1-1c: HARQ process number filed
Alt 1-1d: DAI field
Alt 1-1e: PDSCH-to-HARQ_feedback timing indicator field

Alt 1-2: New field with one or two bits

Alt 2: Field in DCI scheduling Msg3 PUSCH

PUCCH repetition factor is indicated jointly with Msg3 repetition factor by using a pre-defined/configured relationship between PUCCH repetition factor and Msg3 repetition factor
Note: it is assumed that there is impact on DCI design

Alt 3: CRC scrambling of DCI scheduling the Msg4 PDSCH

One or two CRC bits other than bits scrambled by TC-RNTI is used for the dynamic indication, etc.

Alt 4: Implicit mapping between Msg4 HARQ ACK repetition factor and indication of Msg3 PUSCH repetition with no re-interpreted field / new field (i.e. no change to DCI design)

Working assumption

For PUCCH repetition for Msg4 HARQ-ACK,

A RSRP threshold can be configured via SIB at least when the number of repetitions is configured by SIB.

If the RSRP threshold is configured and the configured RSRP threshold is smaller than X,

UE capable of PUCCH repetition for Msg4 HARQ-ACK transmits repetition request if measured RSRP is lower than a RSRP threshold.

If the RSRP threshold is not configured, or if the configured RSRP threshold is X,

UE capable of PUCCH repetition for Msg4 HARQ-ACK reports the capability of PUCCH repetition for Msg4 HARQ-ACK

FFS: value of X (the maximum configurable value of the RSRP threshold)
Down-select one from the following alternatives for the RSRP threshold.

Alt A: The same RSRP threshold as R17 Msg3 repetition (i.e., rsrp-ThresholdMsg3-r17) is used.
Alt B: New RSRP threshold is introduced.

Note: UE incapable of PUCCH repetition for Msg4 HARQ-ACK transmits neither repetition request nor capability report

Final summary in R1-2302230.

9.11.2 Network verified UE location for NR NTN

R1-2300118 Discussion on network-verified UE location for NR NTN Huawei, HiSilicon

R1-2300267 Discussion on network verified UE location for NR NTN OPPO

R1-2300319 Discussion on network verified UE location in NR NTN THALES

R1-2300320 FL Summary #1: Network verified UE location for NR NTN THALES

R1-2300321 FL Summary #2: Network verified UE location for NR NTN THALES

R1-2300322 FL Summary #3: Network verified UE location for NR NTN THALES

R1-2300323 FL Summary #4: Network verified UE location for NR NTN THALES

R1-2300379 Considerations on Network Verified UE Positioning Nokia, Nokia Shanghai Bell

R1-2300473 Discussions on UE location verification in NR NTN vivo

R1-2300554 Discussion on the network verified location for NR-NTN xiaomi

R1-2300659 Discussion on Network verified UE location for NR NTN CATT

R1-2300705 Discussion on network verified UE location for NR NTN ZTE

R1-2300714 Discussion on Network-verified UE location for NTN PANASONIC

R1-2300889 Network verified UE location for NR NTN Sony

R1-2300966 On network verified UE location for NR NTN Intel Corporation

R1-2301052 Discussion on Network verified UE location for NR NTN ETRI

R1-2301056 Network verified UE location for NR NTN MediaTek Inc.

R1-2301073 Discussion on network verified UE location for NR NTN LG Electronics

R1-2301217 NTN NW verified UE location Lenovo

R1-2301284 Network verified UE location for NR NTN Samsung

R1-2301305 On network verified UE location in NR NTN Ericsson Limited

R1-2301366 Discussion on Network Verified UE Location Apple

R1-2301433 Network verified UE location for NR NTN Qualcomm Incorporated

R1-2301513 Discussion on Network verified UE location for NR NTN NTT DOCOMO, INC.

R1-2301653 Discussion on Network Verified Location for NR NTN TCL Communication Ltd.

R1-2300320 FL Summary #1: Network verified UE location for NR NTN THALES

From Monday session

Agreement

Existing DL/UL reference signals for positioning are used for supporting Network verified UE location in NTN.

FFS: Whether some enhancements on these reference signals are needed for NTN

Agreement

In NTN, for the position of the reference point for definition of gNB Rx – Tx time difference measurement, consider the following options:

· Option 1: Onboard the satellite

· Option 2: The uplink time synchronization reference point

· Option 3: on the gNB

R1-2300321 FL Summary #2: Network verified UE location for NR NTN THALES

R1-2300322 FL Summary #3: Network verified UE location for NR NTN THALES

R1-2300323 FL Summary #4: Network verified UE location for NR NTN THALES

From Friday session

Agreement

Select one (or more) of the following options for enhancing UE Rx-Tx time difference in NTN

Option 1: The UE Rx – Tx time difference is defined as T_UE-RX –T_UE-TX

where:

UE Rx-Tx time difference is defined with respect to the Rx and Tx subframe timing associated with the TRP.

o For a Transmission Point

T_UE-RX is the UE received timing of downlink subframe #i from this Transmission Point (TP), defined by the first detected path in time.
T_UE-TX is the UE transmit timing of the uplink subframe corresponding to subframe #i received from the TP
One or multiple DL RS for positioning, as instructed by higher layers, can be used to determine the start of one subframe of the first arrival path of the TP.

o FFS: For a Transmission Point different from the serving cell (e.g. a DL-PRS-only TP)

Option 2:

For RTT measurement in NTN, support UE report that indicates the time difference between the arrival time of a DL RS for positioning and the transmit time of an SRS.
FFS: details of report and the definition of UE Rx-Tx time difference

Option 3: The legacy R17 definition of UE Rx-Tx time difference is adopted for NTN with an offset that is determined based on one of the following options:

Option 3-1: This offset is reported as the nearest integer value in the unit of milliseconds by rounding the time difference of transmit timing of uplink subframe #i and receive timing of downlink subframe#i
Option 3-2: UE report the index of the subframe j that is closest in time to the subframe #i received from the TP and LMF can derive the offset
Option 3-3: TA report which corresponds to the time difference of received timing of downlink subframe #i and transmit timing of uplink subframe#i rounding up to slot granularity.

Option 4:

UE Rx – Tx time difference T_UE-RX– T_UE-TX can be directly derived from timing advance T_TA

FFS: the granularity and the reporting range of TA.
Note: This implies that the existing framework for Multi-RTT positioning report can be used without need to specify a new TA report.

Note: The impact of UE autonomous adjustment of TA (when applied) should be taken into account

Agreement

Select one (or more) of the following options for the enhancement of gNB Rx-Tx time difference in NTN

Option 1: The gNB Rx – Tx time difference is defined as T_gNB-RX –T_gNB-TX

Where:

§ For a Transmission Point

T_gNB-RX is the Transmission and Reception Point (TRP) received timing of uplink subframe #i containing SRS associated with UE, defined by the first detected path in time.
T_gNB-TX is the TRP transmit timing of the downlink subframe corresponding to uplink subframe #i received from the UE
Multiple SRS resources can be used to determine the start of one subframe containing SRS.

§ FFS: For a Transmission Point different from the serving cell (e.g. a DL-PRS-only TP)

Option 2:

For RTT measurement in NTN, support gNB report of gNB Rx-Tx time as defined in 38.215 with the following change:

Only the SRS resource starting within a subframe can be used to determine the start of the subframe.

Option 3:

Keep the current gNB Rx-Tx definition, and report an offset which can covers the time duration corresponds to kmac if needed.

Option 4:

For RTT measurement in NTN, support gNB report that indicates the time difference between the transmit time of a DL RS for positioning and the arrival time of an SRS.

FFS: details of report.

Note: The impact of UE autonomous adjustment of TA (when applied) should be taken into account

Agreement

Study the following options to resolve the mirror positions ambiguity for multi-RTT positioning:

· Option 1: gNB or LMF implementation to solve the mirror error issue.

o FFS: whether there is spec impact

· Option 2: Reuse existing ECID method (e.g. combine UE neighbor measurements to solve the ambiguity between mirror positions), with potential enhancements

· Option 3: NR NTN UE should report the Doppler calculated on the service link

· Option 4: a VSAT UE should report its beam pointing in respect to satellite beam line of sight

· Option 5: Reporting of cell coverage information (e.g. cell footprint and reference point, or antenna pattern) to the LMF

· Option 6: Support and potentially enhance the optional Rel-17 UL-AoA measurements defined for multi-RTT positioningOther solutions are not precluded

Conclusion

Geometry relating the UE and the TRPs (satellites) affects positioning accuracy for network verified UE location based on Multi-RTT.

Final summary in R1-2302223.

9.11.3 Disabling of HARQ feedback for IoT NTN

R1-2300119 Discussion on disabling of HARQ feedback for IoT NTN Huawei, HiSilicon

R1-2300147 Considerations for Disablement of HARQ in IoT NTN Lockheed Martin

R1-2300237 Discussion on disabling of HARQ feedback for IoT NTN Spreadtrum Communications

R1-2300268 Discussion on disabling of HARQ feedback for IoT NTN OPPO

R1-2300555 Discussion on the HARQ operation for IoT NTN xiaomi

R1-2300660 Discussion on remaining issues of disabling of HARQ feedback for IoT NTN CATT

R1-2300706 Discussion on disabling of HARQ feedback for IoT-NTN ZTE

R1-2300825 Disabling of HARQ feedback for IoT NTN NEC

R1-2300890 Discussion on disabling of HARQ feedback for IoT-NTN Sony

R1-2300922 Disabling of HARQ feedback for IoT NTN Lenovo

R1-2301022 Discussion on disabling of HARQ feedback for IoT NTN CMCC

R1-2301057 Disabling of HARQ for IoT NTN MediaTek Inc.

R1-2301151 On disabling HARQ feedback for IoT NTN Ericsson

R1-2301158 Disabling of HARQ feedback for IoT NTN InterDigital, Inc.

R1-2301209 On disabling HARQ feedback for IOT-NTN Mavenir

R1-2301285 Disabling of HARQ feedback for IoT NTN Samsung

R1-2301367 Discussion on HARQ Feedback Disabling for IoT NTN Apple

R1-2301434 Disabling HARQ Feedback for IoT-NTN Qualcomm Incorporated

R1-2301549 Views on Disabling of HARQ feedback for IoT NTN Sharp

R1-2301566 Disabling of HARQ feedback for NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2301623 Disabling of HARQ feedback for IoT NTN Nordic Semiconductor ASA

R1-2301803 FLS#1 on disabling of HARQ feedback for IoT NTN Moderator(Lenovo)

From Tuesday session

Conclusion

For eMTC HD-FDD single TB scheduled by single DCI, UE is not expected to receive a DCI with “HARQ-ACK bundling flag” field set to 1 in case the corresponding HARQ process is configured with HARQ feedback disabled by RRC signaling.

Agreement

For a DL HARQ process with disabled HARQ feedback in eMTC, UE is not expected to receive another MPDCCH carrying a DCI scheduling a PDSCH for a given HARQ process or to receive another PDSCH without corresponding MPDCCH for the given HARQ process that starts at a BL/CE DL subframe until X=3 (ms) have passed after the end of the reception of the last PDSCH for that HARQ process.

Agreement

For HARQ feedback for eMTC SPS PDSCH, at least the following is supported: UE follows the per-process HARQ feedback enabled/disabled configuration for the associated HARQ process except for the first SPS PDSCH after activation

for the first SPS PDSCH after activation,

Option 1: If HARQ feedback for SPS activation is additionally enabled, ACK/NACK is reported by UE for the first SPS PDSCH after activation regardless of network configuration of enabled/disabled for this HARQ process, and follow per-process HARQ feedback enabled/disabled configuration otherwise.

Conclusion

For DCI indicating SPS PDSCH release, HARQ-ACK report is performed as legacy in eMTC, regardless of HARQ feedback enabled/disabled configuration.

Agreement

For DCI-based overridden mechanism/indication in single TB scheduled by DCI, down select one of the following alternatives based on the criteria DCI overhead, PDCCH monitoring/power consumption, HARQ timer, impact on scheduling flexibility, UE implementation complexity

Alternative 1: applies to both semi-statically HARQ enabled and disabled processes
Alternative 2: only applied to semi-statically HARQ disabled processes
Alternative 3: only applied to semi-statically HARQ enabled processes

R1-2301804 FLS#2 on disabling of HARQ feedback for IoT NTN Moderator(Lenovo)

From Thursday session

Agreement

Confirm the following working assumption with the following update:

Working assumption

For NB-IoT NTN and eMTC NTN for CE Mode B, to configure/indicate enabling/disabling of HARQ feedback for downlink transmission:

· ~~Support Option 1 by default, and support Option 3 to override default configuration for corresponding transmission~~

· Support Option 1 in case only per-HARQ process bitmap signaling is configured

· Support Option 3 DCI direct indication of HARQ feedback enable/disable in case only DCI solution enabling/disabling signaling is configured

· Support Option 3 DCI indication to override Option 1 configuration for corresponding transmission in case both per-HARQ process bitmap and DCI solution enabling/disabling signaling are configured

o ~~Additional RRC signaling to enable Option 3~~

o ~~If the bitmap for option 1 is not present and if option 3 is configured then the DCI directly indicates HARQ enable/disable. Option 3 can also be configured when the bitmap for option 1 is configured.~~

o FFS #1: Option 3 DCI-based overridden mechanism is applied to both semi-statically HARQ feedback enabled and disabled processes or only applied to semi-statically HARQ feedback disabled processes or only applied to semi-statically HARQ feedback enabled processes.

o FFS #2: whether/how to support Option 3 overriding ~~default~~ Option 1 configuration for corresponding transmission for multiple TBs scheduled by single DCI

o FFS#3：Option 3 DCI-based overridden mechanism is DCI signaling to reverse the HARQ feedback enable/disable for the corresponding transmission from per-HARQ process RRC configuration or DCI signaling to directly indicate the HARQ feedback enable/disable for the corresponding transmission regardless of per-HARQ process RRC configuration.

RAN1 strives to have a common design (in terms of DCI design, PDCCH monitoring, etc.) for “Option 3” and “Option 3 + Option 1”.

For eMTC NTN, to configure/indicate enabling/disabling of HARQ feedback for downlink transmission, take Option 1 for CE Mode A.

Agreement

For DCI-based overridden/direct indication, down select one of the following based on the criteria DCI overhead, PDCCH monitoring behavior, impact on scheduling flexibility, UE implementation complexity, etc

Option 1: Indication by adding one field in DCI
Option 2: Indication by reusing/reinterpreting existing field in DCI

9.11.44 Improved GNSS operations for IoT NTN

R1-2300120 Discussion on improved GNSS operations for IoT NTN Huawei, HiSilicon

R1-2300238 Discussion on improved GNSS operations for IoT NTN Spreadtrum Communications

R1-2300269 Discussion on improved GNSS operations for IoT NTN OPPO

R1-2300556 Discussion on the improved GNSS operation for IoT NTN xiaomi

R1-2300661 Considerations on improved GNSS operations for IoT NTN CATT

R1-2300707 Discussion on improved GNSS operation for IoT-NTN ZTE

R1-2300766 On Improved GNSS Operations for IoT NTN NEC

R1-2300923 Improved GNSS operations for IoT NTN Lenovo

R1-2301023 Discussion on improved GNSS operations for IoT NTN CMCC

R1-2301058 Improved GNSS operations for IoT NTN MediaTek Inc.

R1-2301159 Improved GNSS operations for IoT NTN InterDigital, Inc.

R1-2301286 Improved GNSS operations for IoT NTN Samsung

R1-2301303 On improved GNSS operation in IoT NTN Ericsson Limited

R1-2301368 Discussion on improved GNSS operations for IoT NTN Apple

R1-2301435 Improved GNSS Operations for IoT-NTN Qualcomm Incorporated

R1-2301567 Enhancements for long connections in NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2301624 Improved GNSS operations for IoT NTN Nordic Semiconductor ASA

R1-2301833 Feature lead summary#1 of AI 9.11.4 on improved GNSS operations Moderator (MediaTek)

From Tuesday session

Agreement

The following alternatives can be considered to inform eNB the success of GNSS measurement at UE side after GNSS measurement in RRC connected.

Alt-1: The UE will report the new GNSS validity duration
Alt-2: The reception of any UL transmission from the UE at eNB after the GNSS measurement

R1-2301834 Feature lead summary#2 of AI 9.11.4 on improved GNSS operations Moderator (MediaTek)

From Thursday session

Agreement

On the length of GNSS measurement gap, which is aperiodically triggered by eNB, the gap duration should be equal to or larger than the latest UE reported GNSS position fix time duration.

FFS: whether the gap duration is configured by eNB, or the gap duration is equal to the latest reported GNSS position fix time duration.

Agreement

On when the GNSS measurement gap starts, which is aperiodically triggered by eNB with MAC CE, RAN1 can down select one of the following alternatives:

Alt 1: the start time should be at n+ X, where n is the end of MAC CE receiving subframe/slot

FFS: details of X, e.g. predefined value or configured value

Alt 2: the start time should be based on the current GNSS validity duration with delay or without delay

Agreement

UE reports only one GNSS position fix time duration for GNSS measurement at least when moving to RRC connected state.

Agreement

At least for the case when frequency error is within frequency error requirements, study the mechanisms and conditions to allow UL transmission after original GNSS validity duration expires without GNSS re-acquisition for some duration.

FFS: with legacy closed loop time correction or enhanced closed loop time correction
This mechanism is enabled/configured by eNB
FFS: whether such mechanism will be specified depends on the outcome of this study

Final summary in R1-2302120.

RAN1#112-bis-e

9.9 NTN (Non-Terrestrial Networks) enhancements

Please refer to RP-230809 for detailed scope of the WI on NR NTN enhancements. Also refer to RP-221820 and TR38.882 for additional information on network verified UE location for NR NTN. Please refer to RP-223519 for detailed scope of the WI on IoT NTN enhancements.

R1-2304172 Session notes for 9.9 (NTN (Non-Terrestrial Networks) enhancements) Ad-Hoc Chair (Huawei)

R1-2302406 R18 WI NR-NTN-enh work plan at RAN1, 2 and 3 THALES

9.9.1 Coverage enhancement for NR NTN

R1-2302364 Discussion on coverage enhancement for NR NTN Huawei, HiSilicon

R1-2302433 Further considerations on coverage enhancements for NR over NTN Nokia, Nokia Shanghai Bell

R1-2302502 Discussions on remaining issues of coverage enhancements in NR NTN vivo

R1-2302564 Discussion on coverage enhancement for NR NTN OPPO

R1-2302616 Discussion on coverage enhancements for NTN Spreadtrum Communications

R1-2302719 Further discussion on UL coverage enhancement for NR NTN CATT

R1-2302738 Discussion on coverage enhancement for NR NTN Baicells

R1-2302748 Coverage enhancement for NR NTN NEC

R1-2302812 On coverage enhancement for NR NTN Intel Corporation

R1-2302857 On coverage enhancement for NR NTN Sony

R1-2302998 Discussion on coverage enhancement for NR-NTN xiaomi

R1-2303014 On coverage enhancements for NR NTN Ericsson

R1-2303032 Discussion on coverage enhancement for NR NTN China Telecom

R1-2303144 On coverage enhancement for NR NTN Samsung

R1-2303204 Discussion on coverage enhancement for NR NTN ETRI

R1-2303250 Discussion on coverage enhancement for NR NTN CMCC

R1-2303294 Discussion on coverage enhancement for NTN ZTE

R1-2303351 UL coverage enhancements MediaTek Inc.

R1-2303499 On Coverage Enhancement for NR NTN Apple

R1-2303534 Coverage enhancements for NR NTN Lenovo

R1-2303606 Coverage enhancements for NR NTN Qualcomm Incorporated

R1-2303625 Discussion on coverage enhancement for NR-NTN Panasonic

R1-2303643 Views on Coverage enhancement for NR NTN Sharp

R1-2303725 Discussion on coverage enhancement for NR NTN NTT DOCOMO, INC.

R1-2303748 Discussion on coverage enhancement for NR NTN LG Electronics

[112bis-e-R18-NTN-01] – Shohei (NTT DOCOMO)

Email discussion on coverage enhancement for NR NTN by April 26th

- Check points: April 21, April 26

R1-2303950 Summary #1 on 9.9.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From April 18th GTW session

Observation

For NTN-specific PUSCH DMRS bundling,

· In LEO 1200 with elevation angle 30 deg. and SCS = 15 kHz, RAN1’s understanding is the following:

o Phase difference limit (Table 6.4.2.5-1 in 38.101-1) cannot be satisfied over multiple slots (for carrier bandwidth 5 MHz or larger), if the PRB allocation is not within 6 PRBs from the DC carrier, pre-compensation by UE and post-compensation by gNB are not assumed, and 70.5 (us/s) timing drift rate is assumed.

o Note: this does not imply that UE shall be scheduled within 6 PRBs from the DC carrier.

Working assumption

For NTN-specific PUSCH DMRS bundling, to satisfy the phase difference limit without causing phase discontinuity, it is assumed that pre-compensation to keep phase rotation due to timing drift within the phase difference limit can be performed at UE side.

· UE shall not perform TA pre-compensation update within an actual TDW if it causes phase discontinuity that may violate the phase difference limit.

o FFS: how to determine the actual TDW

· FFS: specification impact

· Send an LS to RAN4

From April 20th GTW session

R1-2304093 [Draft] LS on PUSCH DMRS bundling for NR NTN coverage enhancement Moderator (NTT DOCOMO, INC.)

Decision: The draft LS is endorsed with the following revision to the action:

ACTION: RAN1 respectfully asks RAN4 to take the above RAN1 observations and ~~agreement~~ working assumption into account.

Final LS is approved in R1-2304094.

R1-2303951 Summary #2 on 9.9.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From April 20th GTW session

Working assumption

For PUCCH repetition for Msg4 HARQ-ACK, support Option B as container of the repetition request or capability report indicated by UE.

· Option B: Higher layer signaling in Msg3 PUSCH

Send an LS to RAN2 to ask the feasibility of Option B, and if feasible, to specify the details of Option B.

Comeback for LS – Shohei (NTT DOCOMO)

See below draft LS in x4252.

Agreement

For NTN-specific PUSCH DMRS bundling, support Alt 2 for TDW determination.

· Alt 2: gNB-centric TDW determination

o Nominal TDW is determined based on gNB configuration.

o Actual TDW is determined based on gNB configuration/indication.

o Note: Alt 2 does not imply that spec impact of actual TDW determination is assumed for NTN.

o FFS: details, including UE capability and assistance information reporting

Decision: As per email decision posted on April 23rd,

Agreement

For PUCCH repetition for Msg4 HARQ-ACK, support Alt 1-1 for dynamic indication of repetition factor from gNB. Further discuss which field(s) to be used.

Alt 1: Field in DCI scheduling the Msg4 PDSCH

Alt 1-1: One or two bits of the existing field(s)

Alt 1-1a: MCS field
Alt 1-1b: PUCCH resource indicator field (e.g., with repetition factor configuration per PUCCH resource)
Alt 1-1c: HARQ process number filed
Alt 1-1d: DAI field
Alt 1-1e: PDSCH-to-HARQ_feedback timing indicator field

Agreement

For PUCCH repetition for Msg4 HARQ-ACK, apply frequency hopping mechanism in R15/16/17 defined for PUCCH transmission for Msg4 HARQ-ACK, in every slot.

R1-2303952 Summary #3 on 9.9.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

R1-2303953 Summary #4 on 9.9.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From April 26th GTW session

R1-2304252 [Draft] LS on higher layer signaling in Msg3 PUSCH for PUCCH repetition for Msg4 HARQ-ACK Moderator (NTT DOCOMO, INC.)

Decision to send the LS at RAN1#113 to provide details of “repetition request or capability report”, and to ask the feasibility of Option B, and if feasible, to specify the details of Option B.

Agreement

For PUCCH repetition for Msg4 HARQ-ACK, candidate values of only one repetition factor configuration via SIB are {2, 4, 8}.

· i.e., configuration of only ‘1’ is not supported.

9.9.2 Network verified UE location for NR NTN

R1-2302365 Discussion on network-verified UE location for NR NTN Huawei, HiSilicon

R1-2302401 Discussion on network verified UE location in NR NTN THALES

R1-2302434 Further discussion on aspects related to network verified UE location for NR over NTN Nokia, Nokia Shanghai Bell

R1-2302503 Discussions on remaining issues of UE location verification in NR NTN vivo

R1-2302565 Discussion on network verified UE location for NR NTN OPPO

R1-2302720 Further discussion on Network verified UE location for NR NTN CATT

R1-2302813 On network verified UE location for NR NTN Intel Corporation

R1-2302858 On network verified UE location for NR NTN Sony

R1-2302894 Discussion on Network-verified UE location for NR-NTN PANASONIC

R1-2302999 Discussion on the network verified location for NR-NTN xiaomi

R1-2303145 Network verified UE location for NR NTN Samsung

R1-2303205 Discussion on Network verified UE location for NR NTN ETRI

R1-2303269 NTN NW verified UE location Lenovo

R1-2303295 Discussion on network verified UE location for NR NTN ZTE

R1-2303352 Network verified UE location for NR NTN MediaTek Inc.

R1-2303433 On Network verified UE location in NR NTN Ericsson Limited

R1-2303500 On Network Verified UE Location Apple

R1-2303607 Network verified UE location for NR NTN Qualcomm Incorporated

R1-2303659 Discussion on Network Verified UE Location for NR NTN TCL Communication Ltd.

R1-2303726 Discussion on Network verified UE location for NR NTN NTT DOCOMO, INC.

R1-2303749 Discussion on network verified UE location for NR NTN LG Electronics

R1-2303772 Network verified UE location for Rel-18 NR NTN Sharp

[112bis-e-R18-NTN-02] – Mohamed (THALES)

Email discussion on network verified UE location for NR NTN by April 26th

- Check points: April 21, April 26

R1-2302402 FL Summary #1: Network verified UE location for NR NTN THALES

Presented in April 18th GTW session.

R1-2302403 FL Summary #2: Network verified UE location for NR NTN THALES

From April 24th GTW session

Agreement

For RTT determination in NTN, discuss further the accuracy, and reporting details of combinations of the following UE and gNB receive-transmit time difference measurements:

· Alt-1: UE Rx-Tx time difference based on Option 3 and gNB Rx-Tx time difference as defined in TS 38.215.

o Note 1: The signaling method of UE Rx-Tx time difference definition option 1 is not precluded if Alt1 is adopted

· Alt-2: UE Rx-Tx time difference based on Option 2 and gNB Rx-Tx time difference as defined in TS 38.215.

o Note 2: The LMF will use the time stamp of the PRS and the time stamp of SRS to calculate the time difference between the transmission of PRS and the reception of SRS

· Alt-3: UE Rx-Tx time difference based on Option 2 and gNB Rx-Tx time difference based on Option 4

· FFS: One or multiple SRS can be used in determining the arrival time

· FFS: Additional enhancement including additional information to be reported, if justified

Note 3: The impact of UE autonomous adjustment of TA (when applied) should be taken into account

Note 4: The gNB Rx-Tx time difference option in the above alternatives may need updates accordingly based on the outcome of discussion on reference point for the gNB Rx – Tx time difference

R1-2302404 FL Summary #3: Network verified UE location for NR NTN THALES

Presented in April 26th GTW session.

Final summary in R1-2302405.

9.9.3 Disabling of HARQ feedback for IoT NTN

R1-2302366 Discussion on disabling of HARQ feedback for IoT NTN Huawei, HiSilicon

R1-2302566 Discussion on disabling of HARQ feedback for IoT NTN OPPO

R1-2302617 Discussion on disabling of HARQ feedback for IoT NTN Spreadtrum Communications

R1-2302721 Discussion on remaining issues of disabling of HARQ feedback for IoT NTN CATT

R1-2302837 Disabling of HARQ feedback for NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2302859 Discussion on disabling of HARQ feedback for IoT-NTN Sony

R1-2303000 Discussion on the HARQ operation for IoT NTN xiaomi

R1-2303020 On disabling HARQ feedback for IoT NTN Ericsson

R1-2303146 Disabling of HARQ feedback for IoT NTN Samsung

R1-2303175 Disabling of HARQ feedback for IoT NTN Nordic Semiconductor ASA

R1-2303251 Discussion on disabling of HARQ feedback for IoT NTN CMCC

R1-2303296 Discussion on disabling of HARQ feedback for IoT-NTN ZTE

R1-2303357 Disabling of HARQ for IoT NTN MediaTek Inc.

R1-2303419 On disabling HARQ feedback for IoT-NTN Mavenir

R1-2303501 On HARQ Feedback Disabling for IoT NTN Apple

R1-2303542 Disabling of HARQ feedback for IoT NTN InterDigital, Inc.

R1-2303608 Disabling HARQ Feedback for IoT-NTN Qualcomm Incorporated

R1-2303627 Disabling of HARQ feedback for IoT NTN Lenovo

R1-2303642 Views on Disabling of HARQ feedback for IoT NTN Sharp

R1-2303685 Disabling of HARQ feedback for IoT NTN NEC

[112bis-e-R18-NTN-03] – Zhi (Lenovo)

Email discussion on disabling of HARQ feedback for IoT NTN by April 26th

- Check points: April 21, April 26

R1-2303998 FLS#1 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

From April 20th GTW session

Agreement

For Option 3 DCI indication:

Option A: when both per-HARQ process bitmap and DCI solution enabling/disabling signaling are configured

DCI-based overridden mechanism is DCI signaling to reverse the HARQ feedback enable/disable for the corresponding transmission from per-HARQ process RRC configuration

For single TB scheduled by DCI, the DCI based overridden indication is applied to one of the following options (to be down-selected):

Option A-1: only applied to semi-statically HARQ disabled processes
Option A-4: applied to both semi-statically HARQ disabled and enabled processes

FFS for multiple TBs scheduled by single DCI

Option B: DCI-based HARQ enabling/disabling direct indication in case DCI solution enabling/disabling signaling is configured and per-HARQ process bitmap signaling is not configured (i.e. no bitmap is configured)

DCI-based mechanism is DCI signaling to directly indicate the HARQ feedback enable/disable for the corresponding transmission

For single TB scheduled by DCI, DCI-based direct indication is applied to the scheduled TB
FFS for multiple TBs scheduled by single DCI

R1-2303999 FLS#2 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

Presented in April 24th GTW session.

Decision: As per email decision posted on April 27th,

Agreement

For single TB scheduled by DCI, for DCI-based direct indication, down select one of the following based on the criteria DCI overhead, PDCCH monitoring behavior, impact on scheduling flexibility, UE implementation complexity, etc

· Option 1: Indication by adding one field in DCI (e.g., 1-bit)

o Note: Other fields in DCI are the same as legacy.

· Option 2: Indication by reusing/reinterpreting existing field in DCI

o Option 2A: HARQ-ACK related field

§ For eMTC CE mode B, one state of “HARQ-ACK resource offset” field in DCI format 6-1B is used for indication of HARQ feedback disabled, other states are used for indication of HARQ feedback enabled and corresponding HARQ-ACK resource.

· FFS: detailed state

§ For NBIoT, one state of “HARQ-ACK resource” field in DCI format N1 is used for indication of HARQ feedback disabled, other states are used for indication of HARQ feedback enabled and corresponding HARQ-ACK resource.

· FFS: detailed state

o Option 2B: MCS or repetition number field

§ Reduce 1bit of legacy MCS or repetition number field and add 1bit new field in DCI format 6-1B and N1 to indicate the HARQ feedback enabled/disabled

· FFS: detailed for interpreting of the reduced MCS or repetition number field

o Option 2C: HARQ-ACK related field v2

§ For eMTC CE mode B, reduce 1bit of legacy “HARQ-ACK resource offset” field and add 1bit new field in DCI format 6-1B to indicate the HARQ feedback enabled/disabled

· FFS: detailed for interpreting of the reduced “HARQ-ACK resource offset” field

§ For NBIoT, reduce 1bit of legacy “HARQ-ACK resource” field and add 1bit new field in DCI format N1 to indicate the HARQ feedback enabled/disabled

· FFS: detailed for interpreting of the reduced “HARQ-ACK resource” field

o Option 2D: Other indication by reusing/reinterpreting existing field

9.9.44 Improved GNSS operations for IoT NTN

R1-2302367 Discussion on improved GNSS operations for IoT NTN Huawei, HiSilicon

R1-2302567 Discussion on improved GNSS operations for IoT NTN OPPO

R1-2302618 Discussion on improved GNSS operations for IoT NTN Spreadtrum Communications

R1-2302722 Discussion on remaining issues of improved GNSS operations for IoT NTN CATT

R1-2302749 On Improved GNSS Operations for IoT NTN NEC

R1-2302838 Enhancements for long connections in NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2303001 Discussion on the improved GNSS operation for IoT NTN xiaomi

R1-2303147 Improved GNSS operations for IoT NTN Samsung

R1-2303176 Improved GNSS operations for IoT NTN Nordic Semiconductor ASA

R1-2303252 Discussion on improved GNSS operations for IoT NTN CMCC

R1-2303297 Discussion on improved GNSS operation for IoT-NTN ZTE

R1-2303358 Improved GNSS operations for IoT NTN MediaTek Inc.

R1-2303432 On improved GNSS operation in IoT NTN Ericsson Limited

R1-2303502 On improved GNSS operations for IoT NTN Apple

R1-2303543 Improved GNSS operations for IoT NTN InterDigital, Inc.

R1-2303609 Improved GNSS Operations for IoT-NTN Qualcomm Incorporated

R1-2303628 Improved GNSS operations for IoT NTN Lenovo

[112bis-e-R18-NTN-04] – Wen (MediaTek)

Email discussion on improved GNSS operations for IoT NTN by April 26th

- Check points: April 21, April 26

R1-2303911 Feature lead summary#1 of AI 9.9.4 on improved GNSS operations Moderator (MediaTek)

From April 19th GTW session

Agreement

For the GNSS measurement gap aperiodically triggered with MAC CE, the duration for the GNSS measurement gap can be configured by eNB.

· The gap duration is equal to the latest reported GNSS position fix time duration for measurement when the duration for GNSS measurement gap is not included in the configuration by eNB.

Decision: As per email decision posted on April 23rd,

Conclusion

From RAN1 perspective, UE is not forbidden to autonomously re-acquire GNSS position fix during inactive state of Connected DRX.

· Note: The configured DL/UL transmissions during inactive state of Connected DRX should not be impacted

· Note: details are up to RAN2

Send an LS to RAN2 for the conclusion.

Agreement

On when the aperiodic GNSS measurement gap starts, which is aperiodically triggered by eNB with MAC CE, the start time should be at n+ X, where n is the end of MAC CE receiving subframe/slot

· FFS: details of X, e.g. predefined value or configured value, considering HARQ feedback for the MAC CE, etc

R1-2303912 Feature lead summary#2 of AI 9.9.4 on improved GNSS operations Moderator (MediaTek)

From April 24th GTW session

R1-2304125 [Draft] LS on GNSS position fix during inactive state of Connected DRX for improved GNSS operations Moderator (MediaTek)

Agreement

Draft LS in R1-2304125 is endorsed. Final LS is approved in R1-2304126.

Decision: As per email decision posted on April 27th,

Agreement

UE reports one GNSS position fix time duration for GNSS measurement via a N-bit field at least including [1,2] seconds as component values.

· FFS: value of N, other component value(s) of GNSS position fix time duration (e.g. N=3, with value in [3,7,13,19,25, X] seconds, and X is FFS).

FFS: whether RAN4 input is needed.

Final summary in R1-2304073.

RAN1#113

9.9 NTN (Non-Terrestrial Networks) enhancements

Rapporteurs to provide initial input on higher layer signalling under agenda item 9.9. For input on higher layer signalling from any other source, please include it as part of your tdoc to relevant sub-agenda items.

R1-2306150 Session notes for 9.9 (NTN (Non-Terrestrial Networks) enhancements) Ad-Hoc Chair (Huawei)

[113-R18-NTN] – Mohamed (Thales)

Email discussion on NR-NTN / IoT-NTN

- 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

R1-2304615 R18 WI NR-NTN-enh work plan at RAN1, 2 and 3 THALES

R1-2306250 RRC parameters for Rel-18 IoT NTN enhancements Rapporteur (MediaTek Inc.) (rev of R1-2305851)

R1-2306253 Summary of offline discussion on RRC parameters for Rel-18 NR NTN enhancements Moderator (Thales) (rev of R1-2306004)

R1-2306264 RAN1 agreements for Rel-18 WI on NR NTN enhancements up to RAN1#113 WI rapporteur (Thales) (rev of R1-2306005)

R1-2306273 RAN1 agreements for Rel-18 WI on IoT NTN enhancements up to RAN1#113 Moderator (MediaTek)

From AI 5

R1-2304322 LS on RACH-less Handover RAN2, Samsung

R1-2306152 Moderator summary on reply LS on RACH-less handover Moderator (Samsung)

From Thursday session

For Q1 (pre-allocated grant)

Agreement

One company thinks that when the network knows the suitable DL beam for RACH-less handover, the pre-allocated grant can be associated with a SSB index of the target cell, and when the network does not know the suitable DL beam, RACH-based HO can be used instead of introducing beam-sweeped pre-allocated grants associated with multiple SSB indexes. Other companies think that the association between the pre-allocated grant for initial transmission and SSB index should be supported without any condition(s), and think that RSRP threshold may be helpful.

For Q2 (target cell PDCCH monitoring)

Agreement

If single beam is indicated, UE will monitor the target cell PDCCH scheduling the first PUSCH based on the indicated beam. RAN1 will further discuss the case where multiple beams are indicated.

Comeback on Friday for draft LS

R1-2306151 Draft reply LS on RACH-less Handover Moderator (Samsung)

Decision: The draft LS in R1-2306151 is endorsed. Final LS is approved in R1-2306217.

R1-2304323 LS on unchanged PCI RAN2, CATT

R1-2306201 FL summary on RAN2 LS reply on unchanged PCI Moderator (CATT)

From Thursday session

Conclusion

From RAN1 perspective, no feasibility issue is identified for hard satellite switching without PCI change.

Reply to RAN2 with the following LS content:

Question 1: For hard satellite switching without PCI change, if RAN1 identifies any major technical issues?

Reply:

RAN1 discussed the resynchronization of UE when hard switching, given that new common TA, K_mac, ephemeris and cell-specific K-offset are applied during resynchronization to new satellite.

From RAN1 perspective, no feasibility issue is identified for hard satellite switching without PCI change.

Comeback on Friday for draft LS

R1-2306209 Draft reply LS on unchanged PCI CATT

Decision: The draft LS in R1-2306209 is endorsed. Final LS is approved in R1-2306210.

9.9.1 Coverage enhancement for NR NTN

R1-2304408 Coverage enhancements for NR NTN Quectel

R1-2304434 Coverage enhancements for NR over NTN Nokia, Nokia Shanghai Bell

R1-2304496 Discussions on remaining issues of coverage enhancements in NR NTN vivo

R1-2304573 Discussion on coverage enhancements for NTN Spreadtrum Communications

R1-2304632 Discussion on coverage enhancement for NR NTN Huawei, HiSilicon

R1-2304678 Discussion on coverage enhancements for NR NTN CCU, NTPU

R1-2304751 Further discussion on UL coverage enhancement for NR NTN CATT

R1-2304815 On coverage enhancement for NR NTN Intel Corporation

R1-2304863 Discussion on coverage enhancement for NR NTN China Telecom

R1-2304916 Discussion on coverage enhancement for NR-NTN xiaomi

R1-2304920 Discussion on coverage enhancement for NR NTN Baicells

R1-2304965 Discussion on coverage enhancement for NR NTN Hyundai Motor Company

R1-2305006 On coverage enhancements for NR NTN Ericsson

R1-2305068 Coverage enhancement for NR NTN NEC

R1-2305109 Discussion on coverage enhancement for NR NTN CMCC

R1-2305212 Coverage enhancements for NR NTN Lenovo

R1-2305259 Coverage Enhancement for NR NTN Apple

R1-2305352 Coverage enhancements for NR NTN Qualcomm Incorporated

R1-2305390 Discussion on coverage enhancement for NR NTN LG Electronics

R1-2305436 Discussion on coverage enhancement for NR NTN OPPO

R1-2305529 On coverage enhancement for NR NTN Samsung

R1-2305556 Discussion on coverage enhancement for NTN ZTE

R1-2305611 Discussion on coverage enhancement for NR NTN NTT DOCOMO, INC.

R1-2305640 UL coverage enhancements MediaTek Inc.

R1-2305699 Discussion on coverage enhancement for NR-NTN Panasonic

R1-2305782 Discussion on coverage enhancements for NR NTN FGI

R1-2305800 Discussion on coverage enhancement for NR NTN ETRI

R1-2305847 Discussions on Coverage enhancement for NR NTN Sharp

R1-2306022 Summary #1 on 9.9.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Monday session

Working assumption

For PUCCH repetition for Msg4 HARQ-ACK,

Two-state information is transmitted as ‘repetition request or capability report’ in the existing agreements/working assumptions.

The two-state information represents state 1: ‘repetition request or capability report’ or state 2: no indication.
How to transmit the two-state information is up to RAN2 when higher layer signaling is used for the transmission.
In state 1, only either repetition request or capability report is transmitted from each UE when transmitted, and they are not differentiated in the signaling.
Note: repetition request and capability report are defined as in the working assumption reached at RAN1#112.

R1-2306085 [Draft] LS on higher layer signaling in Msg3 PUSCH for PUCCH repetition for Msg4 HARQ-ACK Moderator (NTT DOCOMO, INC.)

Decision: Draft LS to RAN2 in R1-2306085 is endorsed with the following change:

It is noted that ~~the following~~an additional ~~agreement~~ working assumption was reached for repetition request or capability report.

Final LS is approved in R1-2306105.

Agreement

If PUCCH repetition discussed in R18 NR NTN coverage enhancement is supported for PUCCH transmission when dedicated PUCCH resource configuration is not provided:

· The agreements and working assumptions for PUCCH for Msg4 HARQ-ACK are applied to any PUCCH transmission by using common PUCCH resource.

· The same repetition factor is applied for PUCCH for Msg4 HARQ-ACK and subsequent PUCCH transmissions by using common PUCCH resource.

· Note: It is not precluded for gNB to provide dedicated PUCCH config via Msg4 PDSCH.

R1-2306023 Summary #2 on 9.9.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

R1-2306024 Summary #3 on 9.9.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Thursday session

Working assumption

For NTN-specific PUSCH DMRS bundling, reuse clause 6.1.7 in TS38.214 for nominal TDW determination, except for aspects related to UE capabilities and assistance information (if needed).

· i.e., if PUSCH-TimeDomainWindowLength is configured, nominal TDW is determined by PUSCH-TimeDomainWindowLength; otherwise, nominal TDW is determined based on UE capability(ies) signaling.

· FFS: which UE capability(ies) signaling is(are) used

· FFS: whether/how to use UE assistance information, if supported

Agreement

For NTN-specific PUSCH DMRS bundling, one or more of the following is down-selected for actual TDW determination.

Actual TDW is determined by the existing events and,

Alt A: No additional event

i.e., no spec impact is assumed for actual TDW determination.

Alt B: New event of TA pre-compensation timing dynamically indicated by gNB

i.e., TA pre-compensation timing can be dynamically indicated by gNB
Note: UE can perform TA pre-compensation update at the indicated timing
FFS: detailed indication

Alt C: as dynamically indicated by gNB

i.e., actual TDW can be dynamically indicated by gNB
FFS: detailed indication

Alt D: New event based on epoch time

FFS details

Alt E: New event based on antenna switching

Agreement

For NTN-specific PUSCH DMRS bundling,

As UE capability report (in addition to FG 44-2), one or more of the following is down-selected.

Option 1a: No new capability except for FG44-2

Note: FG 30-4 is reported [in consideration of pre-compensation to keep phase rotation due to timing drift within the phase difference limit and without taking TA pre-compensation update into account]

Option 1b: Max TDW size when pre-compensation to keep phase rotation due to timing drift within the phase difference limit is performed and without taking TA pre-compensation update into account

Note: FG 30-4 is not reported for NTN band

Option 1c: Support of antenna switching with DMRS bundling in NTN
Option 1d: Max TDW size per NTN platform (e.g., LEO, MEO, GEO) with taking TA pre-compensation update into account

FFS details

Option 1e: Max TDW size per elevation angle with taking TA pre-compensation update into account
Option 1f: Whether to support actual TDW across pre-compensation segments

Segments defined in R17 IoT-NTN is baseline, FFS details

Option 1g: Whether to support TA pre-compensation update within an actual TDW that does not violate the phase difference limit

As UE assistance information (i.e., report by signaling other than UE capability report (FFS details)), one or more of the following is down-selected.

Option 2a: No assistance information
Option 2b: Max TDW size based on reporting timing

FFS which timing is referred

Option 2c: TA adjustment timing
Option 2d: Antenna switching interval

Agreement

For PUCCH repetition for Msg4 HARQ-ACK,

Support Alt 1-1d for dynamic indication of repetition factor:

Alt 1-1d: DAI field

DAI field in DCI format 1_0 with CRC scrambled by TC-RNTI is used for indication.

Final summary in R1-2306228.

9.9.2 Network verified UE location for NR NTN

R1-2304435 Aspects related to network verified UE location for NR over NTN Nokia, Nokia Shanghai Bell

R1-2304497 Discussions on remaining issues of UE location verification in NR NTN vivo

R1-2304610 Discussion on network verified UE location in NR NTN THALES

R1-2304633 Discussion on network-verified UE location for NR NTN Huawei, HiSilicon

R1-2304752 Further discussion on Network verified UE location for NR NTN CATT

R1-2304816 On network verified UE location for NR NTN Intel Corporation

R1-2304917 Discussion on the network verified location for NR-NTN xiaomi

R1-2305048 On network verified UE location for NR NTN Sony

R1-2305260 Network Verified UE Location Apple

R1-2305353 Network verified UE location for NR NTN Qualcomm Incorporated

R1-2305391 Discussion on network verified UE location for NR NTN LG Electronics

R1-2305437 Discussion on network verified UE location for NR NTN OPPO

R1-2305530 Network verified UE location for NR NTN Samsung

R1-2305557 Discussion on network verified UE location for NR NTN ZTE

R1-2305612 Discussion on Network verified UE location for NR NTN NTT DOCOMO, INC.

R1-2305641 Network verified UE location for NR NTN MediaTek Inc.

R1-2305678 Further Discussion on Network Verified UE Location TCL Communication Ltd.

R1-2305681 Discussion on Network-verified UE location for NR NTN Panasonic

R1-2305745 NTN NW verified UE location Lenovo

R1-2305801 Discussion on Network verified UE location for NR NTN ETRI

R1-2305848 Network verified UE location for Rel-18 NR NTN Sharp

R1-2305918 On network verified UE location NR NTN Ericsson

R1-2304611 FL Summary #1: Network verified UE location for NR NTN THALES

From Monday session

Agreement

For network verified UE location in NTN, satellite ephemeris information should be available at the LMF.

Agreement

For network verified UE location in NTN common TA information should be reported at least from gNB to LMF.

Working assumption

In NTN, gNB receive-transmit time difference calculated at uplink time synchronization reference point is reported to the LMF.

R1-2304612 FL Summary #2: Network verified UE location for NR NTN THALES

Presented in Thursday session

Final summary in R1-2304613.

9.9.3 Disabling of HARQ feedback for IoT NTN

From AI 5

R1-2304324 LS on HARQ Enhancements RAN2, OPPO

R1-2306106 Summary of discussion on LS on HARQ enhancements Moderator (OPPO)

Agreement

Adopt the response below to RAN2’s question 3:

· Understanding 2 is the correct understanding.

Agreement

For a NB-IoT UE operating with two HARQ processes, for an UL HARQ process with HARQ mode B, the minimum time between the end of NPUSCH transmission and the start of NPDCCH monitoring for the same HARQ process is 1 ms.

· Note: this implies a RAN1 specification change in Rel-18

Agreement

For the response to RAN2’s question 1a: provide the agreement above.

Agreement

Adopt the response below to RAN2’s question 1b:

For an UL HARQ process with HARQ mode B for eMTC UEs, the minimum time between the end of PUSCH transmission and the start of MPDCCH monitoring for the same HARQ process is 1 ms for Type B half-duplex FDD operation, and there is no minimum time restriction between the end of PUSCH transmission and the start of MPDCCH monitoring for full-duplex FDD operation.

Agreement

Adopt the response below to RAN2’s question 2:

Whether/how to support case 1, case 2 and/or case 3 for UL multiple TB scheduling for eMTC and NB-IoT is transparent to RAN1 and can be left to RAN2 decision.

R1-2306179 Summary#2 of discussion on LS on HARQ enhancements Moderator (OPPO)

From Thursday session

Agreement

For a NB-IoT UE operating with one HARQ process, for an UL HARQ process with HARQ mode B, the minimum time between the end of NPUSCH transmission and the start of NPDCCH monitoring is 1 ms.

Note: this implies a RAN1 specification change in Rel-18

Agreement

For the response to RAN2’s question 1a: provide the agreement above.

R1-2306134 Draft reply LS on HARQ Enhancements Moderator (OPPO)

Decision: The draft LS in R1-2306134 is endorsed with the following changes:

Add the agreement on NB-IoT UE operating with one HARQ process to the list of RAN1 agreements listed in the LS
Change “kindly” to “respectfully” in the action

Final LS is approved in R1-2306182.

R1-2304574 Discussion on disabling of HARQ feedback for IoT NTN Spreadtrum Communications

R1-2304634 Discussion on disabling of HARQ feedback for IoT NTN Huawei, HiSilicon

R1-2304687 Disabling of HARQ feedback for NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2304753 Discussion on remaining issues of disabling of HARQ feedback for IoT NTN CATT

R1-2304781 Disabling of HARQ feedback for IoT NTN InterDigital, Inc.

R1-2304851 Disabling of HARQ feedback for IoT NTN Lenovo

R1-2304918 Discussion on the HARQ operation for IoT NTN xiaomi

R1-2304984 Disabling of HARQ feedback for IoT NTN NEC

R1-2305049 Discussion on disabling of HARQ feedback for IoT-NTN Sony

R1-2305110 Discussion on disabling of HARQ feedback for IoT NTN CMCC

R1-2305184 On disabling HARQ feedback for IoT NTN Ericsson

R1-2305261 HARQ Feedback Disabling for IoT NTN Apple

R1-2305354 Disabling HARQ Feedback for IoT-NTN Qualcomm Incorporated

R1-2305438 Discussion on disabling of HARQ feedback for IoT NTN OPPO

R1-2305531 Disabling of HARQ feedback for IoT NTN Samsung

R1-2305558 Discussion on disabling of HARQ feedback for IoT-NTN ZTE

R1-2305650 Disabling of HARQ for IoT NTN MediaTek Inc.

R1-2305849 Views on Disabling of HARQ feedback for IoT NTN Sharp

R1-2305909 Disabling of HARQ feedback for IoT NTN Nordic Semiconductor ASA

R1-2306020 FLS#1 on disabling of HARQ feedback for IoT NTN Moderator(Lenovo)

From Tuesday session

Working assumption

For DCI-based direct indication in single TB scheduled by DCI,

Indication by reusing/reinterpreting HARQ-ACK related field in DCI

For eMTC CE mode B, one state of “HARQ-ACK resource offset” field in DCI format 6-1B is used for indication of HARQ feedback disabled, other states are used for indication of HARQ feedback enabled and corresponding HARQ-ACK resource.

FFS: detailed state, and whether this state is different across different UEs

For NBIoT, one state of “HARQ-ACK resource” field in DCI format N1 is used for indication of HARQ feedback disabled, other states are used for indication of HARQ feedback enabled and corresponding HARQ-ACK resource.

FFS: detailed state, and whether this state is different across different UEs

If reusing/reinterpreting HARQ-ACK related field in DCI is also used for DCI overriding scheme, the interpretation of the state can be different than for DCI-based direct indication.

R1-2306021 FLS#2 on disabling of HARQ feedback for IoT NTN Moderator(Lenovo)

From Thursday session

Agreement

For single TB scheduled by DCI,

Working assumption 1 DCI based overridden indication is applied to both semi-statically HARQ disabled and enabled processes

For DCI based overridden indication, adopt indication by reusing/reinterpreting HARQ-ACK related field in DCI

For eMTC CE mode B, “HARQ-ACK resource offset” field in DCI format 6-1B is used for indication of maintaining/reversing the HARQ feedback enable/disable for the corresponding transmission from per-HARQ process RRC configuration and corresponding HARQ-ACK resource in case of indication of HARQ feedback enabled.

HARQ feedback disabled is reversed to enabled in case of any states other than state A in “HARQ-ACK resource offset”, otherwise is maintained as disabled.
HARQ feedback enabled is maintained in case of any states other than state A in “HARQ-ACK resource offset”, otherwise is reversed to disabled.

FFS: detailed state A, and whether this state A is different across different UEs

For NBIoT, “HARQ-ACK resource” field in DCI format N1 is used for indication of maintaining/reversing the HARQ feedback enable/disable for the corresponding transmission from per-HARQ process RRC configuration and corresponding HARQ-ACK resource in case of indication of HARQ feedback enabled.

The same DCI indication functionality as eMTC is adopted.

Working assumption 2 For Option 1 + Option 3 DCI based overridden mechanism, for a HARQ process configured as HARQ feedback disabled by per-HARQ process bitmap signaling and further reversed to HARQ feedback enabled by DCI, the NBIoT UE does not wait for an RTT+3ms (i.e., till subframe n+Kmac+3 in TS36.213 section 16.6) before monitoring NPDCCH for the same HARQ process (or monitoring any NPDCCH for the case of single HARQ process configuration).
Send an LS to RAN2 with the following contents:

RAN1 respectfully ask RAN2 for the feasibility of Working assumption 2 (taking into account potential RAN2 spec impact).

Comeback on Friday for draft LS to RAN2

R1-2306205 [Draft] LS on NPDCCH monitoring restriction for NBIoT NTN Moderator (Lenovo)

Decision: The draft LS in R1-2306205 is endorsed. Final LS is approved in R1-2306245.

Agreement

For the RRC configuration of DCI solution enabling/disabling of HARQ feedback for NB-IoT and LTE-MTC in CE Mode B, the RRC configuration is UE-specific.

Agreement

for NB-IoT and LTE-MTC in CE Mode B, if multiple TBs is configured, for DCI-based HARQ enabling/disabling direct indication in multiple TBs scheduled by single DCI, the same indication is applied to all scheduled TBs, i.e. HARQ is enabled or disabled for all TBs.

9.9.44 Improved GNSS operations for IoT NTN

R1-2304575 Discussion on improved GNSS operations for IoT NTN Spreadtrum Communications

R1-2304635 Discussion on improved GNSS operations for IoT NTN Huawei, HiSilicon

R1-2304688 Enhancements for long connections in NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2304754 Discussion on remaining issues of improved GNSS operations for IoT NTN CATT

R1-2304782 Improved GNSS operations for IoT NTN InterDigital, Inc.

R1-2304852 Improved GNSS operations for IoT NTN Lenovo

R1-2304919 Discussion on the improved GNSS operation for IoT NTN xiaomi

R1-2305069 On Improved GNSS Operations for IoT NTN NEC

R1-2305111 Discussion on improved GNSS operations for IoT NTN CMCC

R1-2305262 On improved GNSS operations for IoT NTN Apple

R1-2305286 Remaining issues on improved GNSS operations for IoT NTN Sharp

R1-2305355 Improved GNSS Operations for IoT-NTN Qualcomm Incorporated

R1-2305439 Discussion on improved GNSS operations for IoT NTN OPPO

R1-2305532 Improved GNSS operations for IoT NTN Samsung

R1-2305559 Discussion on improved GNSS operation for IoT-NTN ZTE

R1-2305651 Improved GNSS operations for IoT NTN MediaTek Inc.

R1-2305910 Improved GNSS operations for IoT NTN Nordic Semiconductor ASA

R1-2305916 On improved GNSS operation in IoT NTN Ericsson

R1-2305998 Feature lead summary#1 of AI 9.9.4 on improved GNSS operations Moderator (MediaTek)

From Tuesday session

Agreement

From RAN1 perspective, at least for the case when frequency error and timing error are within frequency and timing error requirements with legacy closed loop time correction, UL transmission can be allowed in a duration X after original GNSS validity duration expires without GNSS re-acquisition.

RAN1 will decide further details of the above.

Agreement

UE reports one GNSS position fix time duration for GNSS measurement via a 4-bit field with component values [1,2,3,4,5,6,7,13,19,25,31]

· FFS: other component values

R1-2305999 Feature lead summary#2 of AI 9.9.4 on improved GNSS operations Moderator (MediaTek)

From Thursday session

Agreement

The UE is not required to transmit or receive any channel / signal within the aperiodic GNSS measurement gap duration before the UE reacquires GNSS successfully.

FFS: UE’s behavior within the duration after UE reacquires GNSS successfully to the end of the gap if the UE reacquires GNSS successfully before the end of the gap.

Agreement

For the aperiodic GNSS measurement gap triggered by eNB with MAC CE, down select one of the alternatives for the start time of the gap:

Alt 1: should be at n+ X, where n is the end of MAC CE receiving subframe/slot and X>= 12ms for NB-IoT, X>= 3ms for eMTC

Note: X is one value regardless of HARQ feedback enabled or disabled for the MAC CE
FFS: details, e.g. X is predefined value or configured value

Alt 2: should be at n+ X1, where n is the end of MAC CE receiving subframe/slot when HARQ feedback for the MAC CE is disabled and X1>= 12ms for NB-IoT, X1>= 3ms for eMTC, or should be at p+ X2, where p is the end of HARQ feedback transmission subframe/slot when HARQ feedback for the MAC CE is enabled

FFS: details, e.g. X1 and X2 are predefined value or configured value, including whether X1 and X2 can be the same

Alt3: should be at p+ X, where p is the end of HARQ feedback transmission subframe/slot, where HARQ feedback for the MAC CE is always enabled

FFS: details, e.g. X is predefined value or configured value

Agreement

For NB-IoT and eMTC, at least for the case where the network configuration does not include a periodicity (if supported), for autonomous GNSS re-acquisition, the UE may re-acquire GNSS autonomously during GNSS measurement timer, the start time of the autonomous GNSS measurement timer is based on the original GNSS validity duration.

FFS: additional delay and details of delay (if any), e.g. delay can be zero or can be equal to/larger than the duration X where UL transmission can be allowed after original GNSS validity duration expires without GNSS re-acquisition.
Note1: Autonomous GNSS re-acquisition mechanism is enabled or disabled by network.
Note2: The length of GNSS measurement timer can be configured by network and the length of GNSS measurement timer is equal to the latest reported GNSS position fix time duration for measurement when the length of GNSS measurement timer is not configured.
Note3: The autonomous GNSS re-acquisition can be periodic in certain conditions without further spec impact.

Final summary in R1-2306202.

RAN1#114

9.9 NTN (Non-Terrestrial Networks) enhancements

Please refer to RP-231484 for detailed scope of the WI on NR NTN enhancements. Please refer to RP-231407 for detailed scope of the WI on IoT NTN enhancements. Including any input on higher layer signalling (provide as part of tdoc in each sub-agenda item).

R1-2308547 Session notes for 9.9 (NTN (Non-Terrestrial Networks) enhancements) Ad-Hoc Chair (Huawei)

Endorsed and contents incorporated below.

[114-R18-NTN] – Mohamed (Thales)

Email discussion on NR-NTN / IoT-NTN

- 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

R1-2306704 Correction on corresponding scaling factors table IPLOOK

Note TR38.811 responsible group is RAN, not RAN1 – issue to be brought up to next RAN.

RRC parameters

R1-2308480 Summary of offline discussion on RRC parameters for Rel-18 NR NTN enhancements Moderator (Thales)

R1-2308432 Moderator Summary for RRC parameters for Rel-18 IoT NTN enhancements Moderator (MediaTek)

R1-2308678 RAN1 agreements for Rel-18 WI on NR NTN enhancements up to RAN1#114 WI rapporteur (Thales)

R1-2308749 RAN1 agreements for Rel-18 WI on IoT NTN enhancements up to RAN1#114 WI rapporteur (MediaTek)

===========================

From RAN1#113, R1-2304309/R4-230592: LS on the system parameters for NTN above 10 GHz

R1-2306408 Discussion on RAN4 LS on the system parameters for NTN above 10 GHz THALES

Monday decision:

Continue discussion at RAN1#114 on the potential impact to RAN1 specification of the RAN4 work on NTN above 10 GHz, including PRACH preambles in FR2 NTN FDD and potentially other aspects – Frank (Nokia)

R1-2308416 Discussion on RAN4 LS on FR2-NTN aspects Moderator (Nokia)

From Thursday session

Observation

There is potential RAN1 discussion on the following aspects to support the RAN4 work on NTN above 10 GHz:

PRACH configuration
UE autonomous timing advance in connection with transmit timing errors and their associated requirements.
Timing issues, e.g. MAC-CE application time in case of VSAT antenna for NR over NTN
Reference subcarrier spacing for FR2-NTN
Potential specification impact

No RAN1 specification impact is foreseen on channel raster and synchronization raster for NTN above 10 GHz.

===========================

From agenda item 5

R1-2304322 LS on RACH-less Handover RAN2, Samsung

Decision: Follow up discussion to be handled in agenda item 9.9. To be moderated by Sungjin (Samsung).

R1-2308443 Moderator summary on reply LS on RACH-less handover Moderator (Samsung)

From Thursday session

Agreement

The following response to Question 2 in RAN2 LS (R1-2304322) is agreed:

· To monitor target cell PDCCH for dynamic grant for initial UL transmission, RAN1 think that there is no case where multiple beams are indicated for RACH-less handover. In this case, UE doesn’t expect that multiple beams are indicated from NW.

Agreement

For pathloss measurement in case of dynamic scheduled initial PUSCH for RACH-less handover, the UE calculates using a RS resource from an SS/PBCH block with same SS/PBCH block index as the one the UE uses to monitor PDCCH scheduling dynamic UL grant for initial transmission.

Agreement

The following response to Question 3 in RAN2 LS (R1-2304322) is agreed:

· For the initial UL transmission scheduled by dynamic grant in RACH-less handover, RAN1 thinks that it follows the principle for power control for Msg3 (or MsgA) PUSCH as described in clause 7.1.1 in TS 38.213 except for pathloss determination. For pathloss determination, the UE uses a RS resource from an SS/PBCH block with same SS/PBCH block index as the one the UE uses to monitor PDCCH scheduling dynamic UL grant for initial transmission.

· RAN1 may continue further discussion on question 3.

R1-2308567 Draft Reply LS on RACH-less Handover Moderator (Samsung)

Friday decision: The draft LS in R1-2308567 is endorsed. Final LS is approved in in R1-2308568.

===========================

From agenda item 5

R1-2304323 LS on unchanged PCI RAN2, CATT

Decision: Follow up discussion to be handled in agenda item 9.9. To be moderated by Deshan (CATT).

R1-2308442 Discussion on RAN2 LS reply on unchanged PCI CATT

From Thursday session

Agreement

Endorse the draft LS content below:

Question 2: If it is feasible to support soft satellite switching without PCI change?

Reply:

Under the following conditions:

· UE is not required to connect to two satellites simultaneously during soft satellite switching.

· Interference avoidance/mitigation between two satellites may potentially be done by gNB implementation at least to ensure non-colliding SSB with same PCI at UE side.

· UE is provided with the information on new common TA, K_mac, ephemeris and cell-specific K-offset are applied during resynchronization to new satellite.

· UE may be provided with the information if needed to detect the SSB of the new satellite for soft satellite switching.

· The same UE behavior may be applied for soft satellite switching and hard satellite switching

RAN1 concludes it is feasible for soft satellite switching without PCI change.

R1-2308441 Draft reply LS to RAN2 on unchanged PCI Moderator (CATT)

Friday decision: The draft LS in R1-2308441 is endorsed. Final LS is approved in in R1-2308566.

9.9.1 Coverage enhancement for NR NTN

Consider additional RAN agreement from RAN#100 (RP-231482, proposal 5 – option 1).

R1-2306419 On coverage enhancements for NR NTN Ericsson

R1-2306486 Discussion on coverage enhancement for NR NTN Huawei, HiSilicon

R1-2306563 Discussion on coverage enhancement for NTN ZTE

R1-2306660 Discussion on coverage enhancements for NTN Spreadtrum Communications

R1-2306765 Discussions on remaining issues of coverage enhancements in NR NTN vivo

R1-2306892 Discussion on coverage enhancement for NR NTN LG Electronics

R1-2306943 Coverage enhancement for NR NTN NEC

R1-2307102 Further discussion on UL coverage enhancement for NR NTN CATT

R1-2307210 Discussion on coverage enhancement for NR NTN CMCC

R1-2307245 Remaining issues related to NTN coverage enhancements Nokia, Nokia Shanghai Bell

R1-2307293 On Coverage Enhancement for NR NTN Apple

R1-2307341 Discussion on coverage enhancement for NR NTN Baicells

R1-2307399 Discussion on coverage enhancement for NR-NTN xiaomi

R1-2307406 Discussion on coverage enhancement for NR-NTN Panasonic

R1-2307431 Discussions on Coverage enhancement for NR NTN Sharp

R1-2307486 Discussion on coverage enhancement for NR NTN NTT DOCOMO, INC.

R1-2307543 Discussion on coverage enhancement for NR NTN OPPO

R1-2307593 Discussion on coverage enhancement for NR NTN Hyundai Motor Company

R1-2307614 Coverage enhancement for NR NTN Lenovo

R1-2307693 On coverage enhancement for NR NTN Samsung

R1-2307735 Discussion on coverage enhancements for NR NTN CCU, NTPU

R1-2307750 Discussion on coverage enhancement for NR NTN ETRI

R1-2307942 Coverage enhancements for NR NTN Qualcomm Incorporated

R1-2308050 Coverage enhancement for NR NTN MediaTek Inc.

R1-2308322 Summary #1 on 9.9.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Monday session

Agreement

For NTN-specific PUSCH DMRS bundling,

As UE capability report,

UE reports the max TDW size it can support by fulfilling the phase difference limit requirement.

Note: phase difference limit requirement is assumed to be at gNB receiver from RAN1 perspective.
Details, e.g., whether FG 30-4 is used without new FG or new FG is introduced, is discussed in UE feature session.

No consensus on whether to support Option 1d/1e/1f/1g.

Agreement

For NTN-specific PUSCH DMRS bundling, actual TDW is determined by the existing events and no additional event is defined.

Conclusion

For NTN-specific PUSCH DMRS bundling,

· For UE assistance information (i.e., report by signaling other than UE capability report),

o No consensus on whether to support Option 2b/2c/2d

Agreement

The working assumption at the RAN1#112 meeting is superseded by the following agreement:

For PUCCH repetition for Msg4 HARQ-ACK,

A RSRP threshold can be configured via SIB ~~at least~~ when the number of repetitions is configured by SIB.

If the RSRP threshold is configured,

UE capable of PUCCH repetition for Msg4 HARQ-ACK reports the capability of PUCCH repetition for Msg4 HARQ-ACK only if measured RSRP is lower than the configured RSRP threshold.

If the RSRP threshold is not configured,

UE capable of PUCCH repetition for Msg4 HARQ-ACK reports the capability of PUCCH repetition for Msg4 HARQ-ACK

Alt B: New RSRP threshold is introduced.

Note: the same value between the new RSRP threshold and the RSRP threshold for R17 Msg3 repetition can be configured by gNB implementation.
The range of RSRP threshold for PUCCH repetition for Msg4 HARQ-ACK is the same as the range of the RSRP threshold for R17 Msg3 repetition.

FFS signaling details, e.g. whether RSRP threshold for PUCCH repetition for Msg4 HARQ-ACK is signaled as a relative or absolute value

Note: UE incapable of PUCCH repetition for Msg4 HARQ-ACK transmits neither repetition request nor capability report
Note 2: RAN1 considers that there is no difference between “repetition request” and “capability report” in earlier RAN1 agreements

R1-2308323 Summary #2 on 9.9.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

Presented in Thursday session.

Final summary in R1-2308324.

9.9.2 Network verified UE location for NR NTN

Refer to RP-221820 and TR38.882 for additional information on network verified UE location for NR NTN. Also consider additional RAN agreement from RAN#100 (RP-231482, proposal 2).

R1-2306404 Discussion on network verified UE location in NR NTN THALES

R1-2306410 Feature Lead Summary #1 on Network verified UE location for NR NTN THALES

R1-2306411 Feature Lead Summary #2 on Network verified UE location for NR NTN THALES

R1-2306412 Feature Lead Summary #3 on Network verified UE location for NR NTN THALES

R1-2306413 Feature Lead Summary #4 on Network verified UE location for NR NTN THALES

R1-2306487 Discussion on network-verified UE location for NR NTN Huawei, HiSilicon

R1-2306564 Discussion on network verified UE location for NR NTN ZTE

R1-2306766 Discussions on remaining issues of UE location verification in NR NTN vivo

R1-2306793 Discussion on Network-verified UE location for NR-NTN PANASONIC

R1-2306893 Discussion on network verified UE location for NR NTN LG Electronics

R1-2306919 On network verified UE location for NR NTN Sony

R1-2306949 On Network verified UE location in NR NTN Ericsson

R1-2307103 Further discussion on Network verified UE location for NR NTN CATT

R1-2307246 Further aspects related to network verified UE location Nokia, Nokia Shanghai Bell

R1-2307294 On Network Verified UE Location Apple

R1-2307400 Discussion on the network verified location for NR-NTN xiaomi

R1-2307432 Network verified UE location for Rel-18 NR NTN Sharp

R1-2307487 Discussion on Network verified UE location for NR NTN NTT DOCOMO, INC.

R1-2307544 Discussion on network verified UE location for NR NTN OPPO

R1-2307694 Network verified UE location for NR NTN Samsung

R1-2307751 Discussion on Network verified UE location for NR NTN ETRI

R1-2307837 Network verified UE location for NR NTN Lenovo

R1-2307875 Discussion on Network Verified UE Location TCL

R1-2307943 Network verified UE location for NR NTN Qualcomm Incorporated

R1-2308051 Network verified UE location for NR NTN MediaTek Inc.

R1-2306410 Feature Lead Summary #1 on Network verified UE location for NR NTN Moderator (THALES)

Presented in Monday session.

R1-2306412 Feature Lead Summary #3 on Network verified UE location for NR NTN Moderator (THALES)

From Thursday session

Agreement

The legacy R17 definition of UE Rx-Tx time difference is adopted for NTN with an offset that is determined based on the following:

· UE reports the actual index difference between subframe j and subframe i

o The uplink subframe j is closest in time to the DL subframe #i received from the TP

· The DL timing drift due to Doppler over the service link associated with the UE RX-TX time difference measurement period is reported

Agreement

Confirm the working assumption with the additional note below:

Working assumption

In NTN, gNB receive-transmit time difference calculated at uplink time synchronization reference point is reported to the LMF.

Note: This does not imply that the actual gNB receive-transmit time difference measurement is necessarily made at the uplink time synchronization reference point.

Conclusion

No need to support common TA information report from UE to LMF with consideration that common TA information report from gNB has been agreed supported.

Conclusion

To resolve the mirror positions ambiguity for multi-RTT positioning, the following methods can be used without RAN1 specification impact from RAN1 perspective:

by gNB or LMF implementation
existing ECID method
UL-AoA

R1-2306413 Feature Lead Summary #4 on Network verified UE location for NR NTN Moderator (THALES)

From Friday session

Agreement

Ephemeris information for UE location verification, including accurate satellite position and velocity at the time of measurement, should be available at LMF.

Final summary in R1-2308608.

9.9.3 Disabling of HARQ feedback for IoT NTN

R1-2306490 Discussion on disabling of HARQ feedback for IoT NTN Huawei, HiSilicon

R1-2306565 Discussion on disabling of HARQ feedback for IoT-NTN ZTE

R1-2306661 Discussion on disabling of HARQ feedback for IoT NTN Spreadtrum Communications

R1-2306879 Disabling of HARQ feedback for NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2306920 Discussion on disabling of HARQ feedback for IoT-NTN Sony

R1-2307104 Discussion on remaining issues of disabling of HARQ feedback for IoT NTN CATT

R1-2307117 Disabling of HARQ feedback for IoT NTN NEC

R1-2307211 Discussion on disabling of HARQ feedback for IoT NTN CMCC

R1-2307295 On HARQ Feedback Disabling for IoT NTN Apple

R1-2307401 Discussion on the HARQ operation for IoT NTN xiaomi

R1-2307433 Disabling of HARQ feedback for IoT NTN Sharp

R1-2307545 Discussion on disabling of HARQ feedback for IoT NTN OPPO

R1-2307615 Disabling of HARQ feedback for IoT NTN Lenovo

R1-2307695 Disabling of HARQ feedback for IoT NTN Samsung

R1-2307799 On disabling HARQ feedback for IoT NTN Ericsson

R1-2307944 Disabling HARQ Feedback for IoT-NTN Qualcomm Incorporated

R1-2308010 Disabling of HARQ feedback for IoT NTN Nordic Semiconductor ASA

R1-2308058 Disabling of HARQ for IoT NTN MediaTek Inc.

R1-2308231 FLS#1 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

From Tuesday session

Agreement

Confirm the following working assumption:

Working assumption

For DCI-based direct indication in single TB scheduled by DCI,

· Indication by reusing/reinterpreting HARQ-ACK related field in DCI

o For eMTC CE mode B, one state of “HARQ-ACK resource offset” field in DCI format 6-1B is used for indication of HARQ feedback disabled, other states are used for indication of HARQ feedback enabled and corresponding HARQ-ACK resource.

§ FFS: detailed state, and whether this state is different across different UEs

o For NBIoT, one state of “HARQ-ACK resource” field in DCI format N1 is used for indication of HARQ feedback disabled, other states are used for indication of HARQ feedback enabled and corresponding HARQ-ACK resource.

§ FFS: detailed state, and whether this state is different across different UEs

· If reusing/reinterpreting HARQ-ACK related field in DCI is also used for DCI overriding scheme, the interpretation of the state can be different than for DCI-based direct indication.

For single TB scheduled by DCI,

Working assumption 1 DCI based overridden indication is applied to both semi-statically HARQ disabled and enabled processes

For DCI based overridden indication, adopt indication by reusing/reinterpreting HARQ-ACK related field in DCI

For eMTC CE mode B, “HARQ-ACK resource offset” field in DCI format 6-1B is used for indication of maintaining/reversing the HARQ feedback enable/disable for the corresponding transmission from per-HARQ process RRC configuration and corresponding HARQ-ACK resource in case of indication of HARQ feedback enabled.

HARQ feedback disabled is reversed to enabled in case of any states other than state A in “HARQ-ACK resource offset”, otherwise is maintained as disabled.
HARQ feedback enabled is maintained in case of any states other than state A in “HARQ-ACK resource offset”, otherwise is reversed to disabled.

FFS: detailed state A, and whether this state A is different across different UEs

For NBIoT, “HARQ-ACK resource” field in DCI format N1 is used for indication of maintaining/reversing the HARQ feedback enable/disable for the corresponding transmission from per-HARQ process RRC configuration and corresponding HARQ-ACK resource in case of indication of HARQ feedback enabled.

The same DCI indication functionality as eMTC is adopted.

Agreement

For DCI-based direct indication in multiple TBs scheduled by single DCI, reuse/reinterpret the HARQ-ACK related field in corresponding DCI for indication of HARQ feedback enabled/disabled.

· The same DCI direct indication functionality as single TB scheduled by DCI scenarios. (i.e., same state of HARQ related field is used)

Agreement

For the DCI based overridden indication for multiple TBs scheduled by single DCI,

· reuse/reinterpret the HARQ-ACK related field in corresponding DCI for overridden indication of HARQ feedback enabled/disabled.

o The same DCI overridden indication functionality as single TB scheduled by DCI scenarios.

§ This implies that all scheduled TBs by single DCI are HARQ feedback enabled or HARQ feedback disabled by the DCI overridden indication.

Agreement

For both RRC bitmap-based solution and DCI-based solutions (i.e., DCI-based direct indication and DCI-based overridden indication),

· For LTE-MTC/NB-IoT multiple TBs scheduled by single DCI without HARQ-ACK bundling,

o HARQ feedback is reported for each TB at least in case that all TBs scheduled by single DCI are configured/indicated as HARQ feedback enabled.

o HARQ feedback is not reported at least in case all TBs scheduled by single DCI are configured/indicated as HARQ feedback disabled.

· For LTE-MTC/NB-IoT multiple TBs scheduled by single DCI with HARQ-ACK bundling,

o bundled HARQ feedback is reported at least in case that all TBs scheduled by single DCI are configured/indicated as HARQ feedback enabled.

o HARQ feedback is not reported at least in case all TBs scheduled by single DCI are configured/indicated as HARQ feedback disabled.

Agreement

For LTE-MTC/NB-IoT, for the multiple TBs scheduled by single DCI with only RRC bitmap-based solution configuration, down select one of the options at RAN1#114.

Option 2: Support mixed HARQ feedback enabled/disabled configuration, and in case of mixed HARQ feedback enabled/disabled configuration,

Option 2a: HARQ feedback is always reported based on the decoding results of corresponding transmission for all scheduled TBs for both HARQ-ACK bundling and non-HARQ-ACK bundling cases.
Option 2c: HARQ feedback is reported or not for all scheduled TBs depending on the HARQ feedback enabled/disabled configuration of the TB with the lowest HARQ process number among scheduled TBs for both HARQ-ACK bundling and non-HARQ-ACK bundling cases.
Option 2d: HARQ feedback is reported for TB with HARQ feedback enabled configuration and ACK is reported for TB with HARQ feedback disabled configuration for both HARQ-ACK bundling and non-HARQ-ACK bundling cases.
Option 2e: HARQ feedback is reported for TB with HARQ feedback enabled configuration.

Without HARQ-ACK bundling

HARQ feedback is not reported for TB with HARQ feedback disabled configuration.
HARQ timing for TBs with HARQ feedback enabled configuration does not count the legacy HARQ-ACK resource/HARQ timing adopted for TBs with HARQ feedback disabled configuration.

With HARQ-ACK bundling

HARQ feedback is not reported for TB with HARQ feedback disabled configuration.

Mapping of TBs to bundles is done as per legacy (i.e., TS36.213 Table 7.3-1 for LTE-MTC) based on all scheduled TBs.
The TB with HARQ feedback disabled configuration does not count in the HARQ bundling (i.e., it is not part of the logical AND operation). If all TBs in a bundle have HARQ feedback disabled, the UE does not send HARQ-ACK corresponding to this TB bundle.
HARQ timing for bundles for which HARQ-ACK feedback is sent do not count the legacy HARQ-ACK resource/HARQ timing adopted for bundles for which HARQ-ACK feedback is not sent.

Note: mixed HARQ feedback enabled/disabled configuration means among TBs scheduled by single DCI, some TBs are RRC configured as HARQ feedback enabled, and the other TBs are RRC configured as HARQ feedback disabled.

R1-2308232 FLS#2 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

From Thursday session

Agreement

For LTE-MTC/NB-IoT, for the multiple TBs scheduled by single DCI with only RRC bitmap-based solution configuration and with mixed HARQ feedback enabled/disabled scheduling

Without HARQ-ACK bundling

HARQ feedback is not reported for TB with HARQ feedback disabled configuration.
HARQ timing for TBs with HARQ feedback enabled configuration does not count the legacy HARQ-ACK resource/HARQ timing adopted for TBs with HARQ feedback disabled configuration. (Option 2e)

With HARQ-ACK bundling

Option 2f-b：ACK is reported for TB with HARQ feedback disabled configuration for HARQ-ACK bundling. No change to HARQ feedback timeline. (Option 2d)

Agreement

For DCI-based direct/overridden indication, for the state of HARQ-related field (i.e., “HARQ-ACK resource offset” field for eMTC, “HARQ-ACK resource” field for NBIoT) in DCI to indicate the HARQ feedback enabled/disabled.

Option 1: one common state is used for all UEs

Option 1-1: the state of indication of HARQ feedback disabled and state A are state of “11” for eMTC and state of “1111” for NB-IoT (i.e., for both 3.75kHz and 15kHz subcarrier spacing) respectively.

9.9.44 Improved GNSS operations for IoT NTN

R1-2306491 Discussion on improved GNSS operations for IoT NTN Huawei, HiSilicon

R1-2306566 Discussion on improved GNSS operation for IoT-NTN ZTE

R1-2306662 Discussion on improved GNSS operations for IoT NTN Spreadtrum Communications

R1-2306880 Enhancements for long connections in NB-IoT/eMTC over NTN Nokia, Nokia Shanghai Bell

R1-2306944 On Improved GNSS Operations for IoT NTN NEC

R1-2306950 On improved GNSS operation in IoT NTN Ericsson

R1-2307105 Discussion on remaining issues of improved GNSS operations for IoT NTN CATT

R1-2307212 Discussion on improved GNSS operations for IoT NTN CMCC

R1-2307296 On improved GNSS operations for IoT NTN Apple

R1-2307402 Discussion on the improved GNSS operation for IoT NTN xiaomi

R1-2307546 Discussion on improved GNSS operations for IoT NTN OPPO

R1-2307616 Improved GNSS operations for IoT NTN Lenovo

R1-2307696 Improved GNSS operations for IoT NTN Samsung

R1-2307945 Improved GNSS Operations for IoT-NTN Qualcomm Incorporated

R1-2308011 Improved GNSS operations for IoT NTN Nordic Semiconductor ASA

R1-2308059 Improved GNSS operations MediaTek Inc.

R1-2308235 Feature lead summary#1 of AI 9.9.4 on improved GNSS operations Moderator (MediaTek)

From Tuesday session

Agreement

From RAN1 perspective, during connected mode, reporting of GNSS position fix time duration is not needed except via RRCConnectionReestablishmentComplete, RRCConnectionReestablishmentComplete-NB and RRCConnectionReconfigurationComplete for HO case.

Agreement

For the aperiodic GNSS measurement gap triggered by eNB with MAC CE, the start time of the gap should be at

· n+ X1, where n is the end of MAC CE receiving subframe/slot when HARQ feedback for the MAC CE is disabled and X1>= 12ms for NB-IoT, X1>= 3ms for eMTC,

· or should be at p+ X2, where p is the end of HARQ feedback transmission subframe/slot when HARQ feedback for the MAC CE is enabled

o X1 is predefined values, where X1=12ms for NB-IoT, and FFS X1 for eMTC

o FFS: X2 is predefined value or configured value.

Agreement

Network can configure the length for GNSS measurement gap via a 4-bit field with component values [1,2,3,4,5,6,7,13,19,25,31] second.

· FFS: other component values

· Note: RAN2 can further discuss whether separate configurations are needed for GNSS measurement gap and GNSS measurement timer, and whether the configuration is by RRC or MAC CE

Agreement

For autonomous GNSS timer, the start time of the autonomous GNSS measurement timer is where the original GNSS validity duration expires, and the duration X (if any) expires.

Note (as already agreed): The duration X is where UL transmission can be allowed after original GNSS validity duration expires without GNSS re-acquisition.

Agreement

Network can configure the length for GNSS measurement timer via a 4-bit field with component values [1,2,3,4,5,6,7,13,19,25,31] second.

· FFS: other component values

· Note: RAN2 can further discuss whether separate configurations are needed for GNSS measurement gap and GNSS measurement timer

R1-2308236 Feature lead summary#2 of AI 9.9.4 on improved GNSS operations Moderator (MediaTek)

From Thursday session

Agreement

For the aperiodic GNSS measurement gap triggered by eNB with MAC CE, the start time of the gap should be at n+ X1, where n is the end of MAC CE receiving subframe/slot when HARQ feedback for the MAC CE is disabled.

· X1=12ms for NB-IoT

· X1=6ms for eMTC

Agreement

From RAN1 perspective, after autonomous GNSS measurement timer expires if UE failed to re-acquire GNSS position fix within the autonomous GNSS measurement timer UE goes to IDLE mode.

Agreement

The UE is not required to monitor N/MPDCCH within the aperiodic GNSS measurement gap, except after a CBRA (PRACH) is sent.

CBRA (PRACH) can be sent at least to request UL resource to report the remaining GNSS validity duration.

Note1: The CBRA (PRACH) can only be sent within the duration after UE reacquires GNSS successfully to the end of the gap.

Note2: Whether CBRA (PRACH) is sent is up to UE implementation.

Note3: no change to existing CBRA procedures

FFS: whether other RA procedure is needed.

Agreement

From RAN1 perspective, for the aperiodic GNSS measurement gap triggered by eNB with MAC CE, down select one of the alternatives for the failure of GNSS measurement:

· Alt-1: UE goes to IDLE mode after the end of GNSS measurement gap if UE failed to re-acquire GNSS position fix within GNSS measurement gap.

Agreement

From RAN1 perspective, down select one for the duration X:

Alt-3: when timeAlignmentTimer is not infinity, X is equal to remaining timeAlignmentTimer; when timeAlignmentTimer is infinity, X is equal to Y.

FFS: whether X can be used to extend the original GNSS validity duration.
Y is a configured value.

Note 1: The feature can be enabled/disabled by network

Note 2 (as already agreed): The duration X is where UL transmission can be allowed after original GNSS validity duration expires without GNSS re-acquisition.

From Friday session

Agreement

In RRC connected, every time after successful GNSS measurement, UE reports the new remaining GNSS validity duration.

FFS: Whether UE should report the new remaining GNSS validity duration within a duration D.

Final summary in R1-2308237.

RAN1#114-bis

8.13 Maintenance on NTN (Non-Terrestrial Networks) Enhancements

R1-2310544 Session notes for 8.13 (Maintenance on NTN (Non-Terrestrial Networks) enhancements) Ad-Hoc Chair (Huawei)

Friday decision: The session notes are endorsed and contents reflected below.

[114bis-R18-NTN] – Mohamed (Thales)

Email discussion on NR-NTN / IoT-NTN

- 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

Rel-18 NR-NTN: Continuation of discussions in response to R1-2304309 from RAN1#113

Decision: Discussion to be handled in agenda item 8.13.

R1-2309149 Discussion on the RAN1 related aspects for NTN above 10 GHz ZTE

R1-2309333 Discussion on RAN4 LS on FR2-NTN PRACH aspects LG Electronics

R1-2309492 Discussion on FR2 issues for NR NTN CATT

R1-2309543 Discussion on the RAN1 impact for NTN above 10GHz Beijing Xiaomi Mobile Software

R1-2309849 Discussion on NTN above 10 GHz Apple

R1-2309988 Discussion on RAN4 LS on the system parameters for NTN above 10 GHz MediaTek Inc.

R1-2310049 Discussion on FR2-NTN for NR NTN NTT DOCOMO, INC.

R1-2310108 Discussions on RAN4 LS on FR2-NTN aspects Sharp

R1-2310412 Discussion on RAN4 LS on FR2-NTN aspects Moderator (Nokia)

From Tuesday session

Working assumption

For PRACH configuration for operation in FR2-NTN, Table 6.3.3.2-4 of TS 38.211 is used as baseline.

FFS: Whether further modifications would be needed

Conclusion

For operation in FR2-NTN, the value range in ms for K_offset and K-MAC shall be the same as for Rel-17 NR over NTN.

Working assumption

For operation in FR2-NTN, use a reference SCS of 15 kHz for the indication of K_offset and K_MAC.

Working assumption

For operation in FR2-NTN, for cell search procedure, at least Case D in TS 38.213 is used to allow FDD operation in bands defined by FR2-NTN without any update to SSB pattern.

FFS: whether Case E can also be used

R1-2310564 Discussion on RAN4 LS on FR2-NTN aspects, second round Moderator (Nokia)

From Thursday session

Conclusion

For operation in FR2-NTN and for Rel-18, no additional MAC CE TCI application delay is introduced to facilitate mechanical beam steering with VSAT.

Working assumption

From RAN1 perspective, for operation in FR2-NTN, the granularity used for TA reporting is the same as corresponding to the reference subcarrier spacing applied for K_offset.

-----------------------------------------

From AI 5

Rel-18 NR-NTN: Continuation of discussions in response to R1-2304322 from RAN1#113

Decision: Discussion to be handled in agenda item 8.13.

R1-2310158 Power control for RACH-less handover in NR NTN Qualcomm Incorporated

R1-2310496 Summary of discussion on remaining issues for RACH-less handover Moderator (Samsung)

From Thursday session

Observation

There is potential RAN1 discussion for the following aspects to support the RAN2 work on RACH-less handover.

· The pre-allocated grant is provided with association to SSBs

· The mapping between type-1 CG and SSBs in CG-SDT can be the baseline of how to configure pre-allocated grant mapped to SSBs

-----------------------------------------

R1-2308863 Considerations on the system parameters for FR2-NTN THALES

R1-2310650 Rel-18 Higher Layer Parameters for NR NTN Moderator (Thales)

From Friday session

Agreement

Endorse the attachment in R1-2310650 with the following updates:

· Row 3 column P: the following FFS text should be marked in black:

o FFS signaling details, e.g. whether RSRP threshold for PUCCH repetition for Msg4 HARQ-ACK is signaled as a relative or absolute value

· Row 3 column P: add the RAN plenary agreement as in row 2

· Row 5 column P: add square brackets as shown below

o value range: [-265…+265 (-26,5 µs/s… +26,5 µs/s)]

R1-2310682 Rel-18 Higher Layer Parameters for IoT NTN Moderator (MediaTek)

R1-2310221 R18 WI NR-NTN-enh work plan at RAN1, 2 and 3 THALES

R1-2310687 RAN1 agreements for Rel-18 WI on NR NTN enhancements up to RAN1#114-bis WI rapporteur (Thales)

R1-2310689 RAN1 agreements for Rel-18 WI on IoT NTN enhancements up to RAN1#114bis Moderator (MediaTek)

8.13.1 Coverage enhancement for NR NTN

R1-2308908 Maintenance of coverage enhancement for NR NTN Huawei, HiSilicon

R1-2309091 Discussions on remaining issues of coverage enhancements in NR NTN vivo

R1-2309150 Remaining issue on coverage enhancement ZTE

R1-2309230 Remaining issues on coverage enhancement for NR NTN Spreadtrum Communications

R1-2309250 Maintenance of coverage enhancement for NR NTN Baicells

R1-2309313 On coverage enhancements for NR NTN Ericsson

R1-2309334 Remaining issues on coverage enhancement for NR NTN LG Electronics

R1-2309392 Remaining issues on coverage enhancement for NR NTN Samsung

R1-2309434 Discussion on remaining issues on coverage enhancement for NR-NTN xiaomi

R1-2309504 Discussion on remaining issues of UL coverage enhancement for NR NTN CATT

R1-2309598 Discussion on remaining issue for coverage enhancement for NR NTN OPPO

R1-2309687 Remaining issues on coverage enhancement for NR NTN CMCC

R1-2309710 Maintenance of coverage enhancements for NR NTN ETRI

R1-2309712 Remaining issues on coverage enhancement for NR-NTN Panasonic

R1-2309736 Open issues related to coverage enhancements for NR over NTN Nokia, Nokia Shanghai Bell

R1-2309793 Discussion on remaining issues of coverage enhancement for NR NTN Lenovo

R1-2309850 On Remaining Issues of Coverage Enhancement for NR NTN Apple

R1-2309986 Coverage enhancement for NR NTN MediaTek Inc.

R1-2310050 Maintenance of coverage enhancement for NR NTN NTT DOCOMO, INC.

R1-2310109 Remaining issues on coverage enhancement for NR NTN Sharp

R1-2310159 Maintenance on coverage enhancements for NR NTN Qualcomm Incorporated

R1-2310294 Summary #1 on 8.13.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Tuesday session

Agreement

For RSRP threshold to determine whether capability of PUCCH repetition on common PUCCH resources is reported or not,

· Option 1: the RSRP threshold is signaled as an absolute value, i.e. not as a relative value to RSRP threshold for R17 Msg3 repetition.

Agreement

With respect to dynamic indication of PUCCH repetition factor by using DAI field in DCI format 1_0 with CRC scrambled by TC-RNTI for UE that has indicated capability of the PUCCH repetition, when multiple repetition factors are configured:

· the 1^st/2^nd/3^rd/4^th configured repetition factors are mapped to ‘00’, ’01’, ‘10’, ‘11’ of 2 bits DAI field, respectively. When the 3^rd and/or the 4^th repetition factors is/are not configured, the corresponding codepoint(s) (i.e., ‘10’ and/or ‘11’) is(are) not used.

R1-2310295 Summary #2 on 8.13.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Thursday session

Agreement

The TP below is endorsed for TS38.212 clause 7.3.1.2.1.

- Reason for change

A: How to map the configured repetition factors to DAI bits in DCI format 1_0 with CRC scrambled by TC-RNTI to indicate the PUCCH repetition factor is unclear in the current specification.

B: The use of DAI bits in DCI format 1_0 with CRC scrambled by TC-RNTI to indicate the PUCCH repetition factor should be conditioned on that the UE has indicated capability of PUCCH repetition on common PUCCH resources.

- Summary of change

A: Regardless of the number of configured repetition factors, two bits are used for indication of repetition factor. If two or three repetition factors, the third and/or the fourth codepoint(s) is/are not used.

B: It is clarified that the use of DAI bits in DCI format 1_0 with CRC scrambled by TC-RNTI to indicate the PUCCH repetition factor is conditioned on that the UE has indicated capability of PUCCH repetition on common PUCCH resources.

- Consequences if not approved

A: gNB and UE may have misunderstanding of an indicated repetition factor.

B: The DAI field in DCI format 1_0 with CRC scrambled by TC-RNTI is incorrectly defined to carry repetition information to UEs that have not indicated support for repetition.

7.3.1.2.1 Format 1_0

<Unchanged parts omitted>

The following information is transmitted by means of the DCI format 1_0 with CRC scrambled by TC-RNTI:

<Unchanged parts omitted>

- Downlink assignment index – 2 bits

- 2 bits indicating the number of repetitions for PUCCH as defined in clause 9.2.6 of [5, TS38.213] according to Table 7.3.1.2.1-4, if the higher layer parameter numberOfPUCCHforMsg4HARQACK-RepetitionsList is configured with at least two values and the UE has indicated capability of PUCCH repetition on common PUCCH resource [8, TS38.321];

- otherwise, reserved.

<Unchanged parts omitted>

Table 7.3.1.2.1-4: Number of repetitions as a function of 2 bits of Downlink assignment index field

Bit field
00	First value of numberOfPUCCHforMsg4HARQACK-RepetitionsList
01	Second value of numberOfPUCCHforMsg4HARQACK-RepetitionsList
10	Third value of numberOfPUCCHforMsg4HARQACK-RepetitionsList (if provided)
11	Fourth value of numberOfPUCCHforMsg4HARQACK-RepetitionsList (if provided)

<Unchanged parts omitted>

Agreement

Update higher layer parameters for R18 NR NTN PUCCH repetitions as follows, and include the RAN plenary agreement in the comment column.

Parameter name in the spec

Description

Value range

Default value aspect

Per (UE, cell, TRP, …)

numberOfPUCCHforMsg4HARQACK-RepetitionsList

Indicates the number of repetitions for PUCCH transmission for Msg4 HARQ-ACK. If multiple values are configured, a single value from the configured values is indicated in DCI.

One or more of {1,2,4,8} except for {1}

Per cell

rsrp-ThresholdPUCCHforMsg4HARQACK

If this parameter is configured, and numberOfPUCCHforMsg4HARQACK-RepetitionsList is provided, UE capable of PUCCH repetition for Msg4 HARQ-ACK reports the capability of PUCCH repetition for Msg4 HARQ-ACK only if measured RSRP is lower than the configured RSRP threshold indicated by this parameter.
If this parameter is not configured, and numberOfPUCCHforMsg4HARQACK-RepetitionsList is provided, UE capable of PUCCH repetition for Msg4 HARQ-ACK reports the capability of PUCCH repetition for Msg4 HARQ-ACK

~~[This RSRP threshold is an absolute value / a relative value of the RSRP threshold for R17 Msg3 repetition]~~

~~TBD~~

RSRP-range

Per cell

Final summary in R1-2310296.

8.13.2 Network verified UE location for NR NTN

R1-2308862 Maintenance on network verified UE location in NR NTN THALES

R1-2308909 Maintenance of network-verified UE location for NR NTN Huawei, HiSilicon

R1-2309092 Discussions on remaining issues of UE location verification in NR NTN vivo

R1-2309151 Remaining issue on network verified UE location ZTE

R1-2309393 Remaining issues on network verified UE location for NR NTN Samsung

R1-2309505 Discussion on remaining issues on Network verified UE location for NR NTN CATT

R1-2309599 Discussion on remaining issue for network verified UE location for NR NTN OPPO

R1-2309737 Open issues related to network verified UE location for NR over NTN Nokia, Nokia Shanghai Bell

R1-2309851 On Remaining Issues of Network Verified UE Location Apple

R1-2309987 Network verified UE location for NR NTN MediaTek Inc.

R1-2310051 Remaining issue on Network verified UE location for NR NTN NTT DOCOMO, INC.

R1-2310160 Maintenance on network verified UE location for NR NTN Qualcomm Incorporated

R1-2310236 On maintenance of network verified UE location for NR NTN Ericsson Limited

R1-2308864 Feature Lead Summary #1 on Network verified UE location for NR NTN THALES

From Tuesday session

Agreement

The actual index difference between subframe j and subframe i defined in RAN1#114 agreement on UE Rx-Tx time difference is reported in 10 bits with a value range up to 542 subframes.

Working assumption

The DL timing drift due to Doppler over the service link associated with the UE RX-TX time difference measurement period is reported with the following range, granularity and bits allocation:

Value range	Granularity	Bits allocation
[ (i.e: )]		10 bits

Value range

Granularity

Bits allocation

[

(i.e: )]

10 bits

Note: value range is given in unit of corresponding granularity

Agreement

For network verified UE location in NTN common TA, parameters (ta-Common, ta-CommonDrift, ta-CommonDriftVariant, Epoch time) can be reported from gNB to LMF.

Agreement

· Endorse the following TP for TS 38.215

--- unchanged text omitted ---

5.2.3 gNB Rx – Tx time difference

Definition

The gNB Rx – Tx time difference is defined as T_gNB-RX –T_gNB-TX

Where:

T_gNB-RX is the Transmission and Reception Point (TRP) [18] received timing of uplink subframe #i containing SRS associated with UE, defined by the first detected path in time.

T_gNB-TX is the TRP transmit timing of downlink subframe #j that is closest in time to the subframe #i received from the UE.

Multiple SRS resources can be used to determine the start of one subframe containing SRS.

The reference point for T_gNB-RX shall be:

· - for type 1-C base station TS 38.104 [9]: the Rx antenna connector,

· - for type 1-O or 2-O base station TS 38.104 [9]: the Rx antenna (i.e. the centre location of the radiating region of the Rx antenna),

· - for type 1-H base station TS 38.104 [9]: the Rx Transceiver Array Boundary connector.

The reference point for T_gNB-TX shall be:

· - for type 1-C base station TS 38.104 [9]: the Tx antenna connector,

· - for type 1-O or 2-O base station TS 38.104 [9]: the Tx antenna (i.e. the centre location of the radiating region of the Tx antenna),

· - for type 1-H base station TS 38.104 [9]: the Tx Transceiver Array Boundary connector.

· In NTN, the gNB Rx – Tx time difference at the uplink time synchronization reference point [5] is reported.

--- End of text proposal ---

R1-2308865 Feature Lead Summary #2 on Network verified UE location for NR NTN THALES

From Thursday session

Agreement

Endorse the following TP for TS38.215 clause 5.1.46.

*Reason for change:*	Modify the definition of UE Rx – Tx time difference subframe offset to align with the RAN1#114 agreement.

*Summary of change:*	Modify the definition of UE Rx – Tx time difference subframe offset · modify measurement naming · add more clarification to the defintion

*Consequences if not approved:*	The definition of this new UE measurement is ambiguous. It does not reflect the RAN1#114 agreement. And the wording used (i.e. “actual”) is not consistent with specification language

--- unchanged text omitted ---

5.1.46 UE Rx – Tx time difference subframe offset

Definition

UE Rx – Tx time difference offset is the actual index difference between subframe #j and subframe #i of the subframes used for the UE Rx – Tx time difference measurement as defined in Clause 5.1.30, where uplink subframe #j is the closest in time to the DL subframe #i received from a transmission point (TP) [18].

UE Rx – Tx time difference subframe offset is the index difference which represents the number of subframes between the uplink subframe #j and the uplink subframe #i, where uplink subframe #j is the closest in time to the DL subframe #i received from a transmission point (TP) [18] as defined in Clause 5.1.30 and i is the index of the DL subframe used for the UE Rx – Tx time difference measurement as defined in Clause 5.1.30.

For frequency range 1, the reference point for UE Rx – Tx time difference subframe offset measurement shall be the same antenna connectors as defined in Clause 5.1.30 for the UE Rx – Tx time difference measurement. For frequency range 2, the reference point UE Rx – Tx time difference subframe offset measurement shall be the same antenna as defined in Section 5.1.30 for of the UE Rx – Tx time difference measurement.

Applicable for

RRC_CONNECTED

--- End of change ---

Agreement

Endorse the following TP for TS 38.215:

*Reason for change:*	Modify the definition of DL timing drift in clause 5.1.47 to align with the RAN1#114 agreement.

*Summary of change:*	Add more clarification to the defintion of DL timing drift
*Consequences if not approved:*	The definition of this new UE measurement is ambiguous

--- unchanged text omitted ---

5.1.47 DL timing drift

Definition

DL timing drift ~~measurement~~ is defined as the variation rate of the downlink delay in ppm due to the ~~as estimated~~ service link Doppler as ~~the DL timing~~ ~~to be shifted due to Doppler over the service link associated with~~ over the UE Rx-Tx time difference measurement period.

For frequency range 1, the reference point for the DL timing drift measurement shall be the Rx antenna connector of the UE. For frequency range 2, the reference point for the DL timing drift measurement shall be the Rx antenna of the UE.

Applicable for

RRC_CONNECTED

--- End of change ---

Agreement

Adopt the following TP for TS 38.214:

*Reason for change:*	Existing spec TS 38.214 is still pending with bracket on “actual” which is not used so far in the specifications

*Summary of change:*	The detailed definition of UE Rx – Tx time difference subframe offset as well as the DL timing drift has already been defined in section 5.1.46 and 5.1.47 of TS 38.215. Then, to avoid the duplicated description and potential mismatch, in TS 38.214, it is sufficient to update the spec with simply citation on the offset and timing drift defined in TS 38.215

*Consequences if not approved:*	Duplicated description and potential mismatch between specs

----------------------------------------TP: Start of TP for TS 38.214 V18.0.0---------------------------

5.1.6.5 PRS reception procedure

The UE may be configured to measure and report, via higher layer parameter [undetermined NTN related parameter] subject to UE capability, UE Rx-Tx time difference measurements on a PRS resource associated with a dl-PRS-ID~~. T~~, and report the ~~UE shall report the [actual] index difference between the uplink subframe j and closest in time DL subframe i,~~ UE Rx – Tx time difference subframe offset and the DL timing drift ~~due to Doppler over the radio link associated with the UE RX-TX time difference measurement period~~ as described in [7, TS 38.215].

--------------------End of TP for TS 38.214 V18.0.0 ---------------------------------

Final summary in R1-2308866.

8.13.3 Disabling of HARQ feedback for IoT NTN

R1-2308911 Maintenance of disabling of HARQ feedback for IoT NTN Huawei, HiSilicon

R1-2309000 Remaining issues on disabling of HARQ feedback for IoT NTN Spreadtrum Communications

R1-2309172 Remaining issue on disabling of HARQ feedback ZTE

R1-2309280 Disabling of HARQ-ACK feedback for IoT NTN NEC

R1-2309600 Discussion on remaining issue on disabling of HARQ feedback for IoT NTN OPPO

R1-2309651 Maintenance on disabling of HARQ feedback for IoT NTN Nokia, Nokia Shanghai Bell

R1-2309794 Disabling of HARQ feedback for IoT NTN Lenovo

R1-2309852 On Higher Layer Signaling for HARQ Feedback Disabling for IoT NTN Apple

R1-2309888 Maintenance on disabling HARQ feedback for IoT NTN Ericsson

R1-2309979 Remaining issues on disabling of HARQ for IoT NTN MediaTek Inc.

R1-2310161 Disabling HARQ Feedback for IoT-NTN Qualcomm Incorporated

R1-2310356 FLS#1 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

From Wednesday session

Agreement

Confirm the following working assumptions from RAN1#113:

For single TB scheduled by DCI,

· Working assumption 2 For Option 1 + Option 3 DCI based overridden mechanism, for a HARQ process configured as HARQ feedback disabled by per-HARQ process bitmap signaling and further reversed to HARQ feedback enabled by DCI, the NBIoT UE does not wait for an RTT+3ms (i.e., till subframe n+Kmac+3 in TS36.213 section 16.6) before monitoring NPDCCH for the same HARQ process (or monitoring any NPDCCH for the case of single HARQ process configuration).

Agreement

The TP1b in section 13 of R1-2310356 is endorsed for TS36.213 clause 7.3.

Agreement

The TP2b in R1-2310356 is endorsed for TS36.213 clause 16.4.2.

R1-2310615 FLS#2 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

From Friday session

Agreement

There is ambiguity for definition of N_TB in clause 7.1.7.1 and 10.2 as follows:

For clause 10.2: N_TB is the number of TBs with HARQ feedback enabled
For clause 7.1.7.1: N_TB is the number of scheduled TBs

It is recommended to the spec editor of TS36.213 to resolve that ambiguity accounting for HARQ feedback enabling/disabling.

8.13.44 Improved GNSS operations for IoT NTN

R1-2308912 Maintenance of improved GNSS operations for IoT NTN Huawei, HiSilicon

R1-2309001 Remaining issues on improved GNSS operations for IoT NTN Spreadtrum Communications

R1-2309152 Remaining issue on improved GNSS operation ZTE

R1-2309395 Remaining issues on improved GNSS operations for IoT NTN Samsung

R1-2309436 Discussion on the remaining issues for the improved GNSS operation for IoT NTN xiaomi

R1-2309506 Discussion on remaining issues of improved GNSS operations for IoT NTN CATT

R1-2309601 Discussion on remaining issue for improved GNSS operation for IoT NTN OPPO

R1-2309652 Maintenance on improved GNSS operations for IoT NTN Nokia, Nokia Shanghai Bell

R1-2309688 Remaining issues on improved GNSS operations for IoT NTN CMCC

R1-2309853 On improved GNSS operations for IoT NTN Apple

R1-2309980 Remaining issues on improved GNSS operations for IoT NTN MediaTek Inc.

R1-2310162 Improved GNSS Operations for IoT-NTN Qualcomm Incorporated

R1-2310188 Improved GNSS operations for IoT NTN Nordic Semiconductor ASA

R1-2310235 On maintenance of improved GNSS operations for IoT NTN Ericsson Limited

R1-2310297 Feature lead summary#1 of AI 8.13.4 on improved GNSS operations Moderator (MediaTek)

From Wednesday session

Issue #1: UL transmission after original validity duration expires and potential enhancements

Agreement

When timeAlignmentTimer is infinity, the duration X is equal to Y. Network can configure Y via a 3-bit field at least with component values [sf500, sf750, sf1280, sf1920, sf2560, sf5120, sf10240].

FFS: whether there is a new value.

Agreement

The feature of “UL transmission after original validity duration expires with duration X” can be enabled/disabled by network via RRC signalling.

Issue #2: GNSS measurement gap

Agreement

For the aperiodic GNSS measurement gap triggered by eNB with MAC CE, the start time of the gap should be at p+ X2, where p is the end of HARQ feedback transmission subframe/slot when HARQ feedback for the MAC CE is enabled and X2 is a predefined value, down select

· Alt- A: X2 = 1ms

· Alt- B: X2 = 2ms

· Alt- C: X2 = 3ms

· Alt- E: X2 = 1ms for NB-IoT, X2 = 4ms for eMTC

Agreement

New texts for GNSS measurement gaps for NB-IoT and eMTC in TS36.213 should be added to capture the determination of the start time of GNSS measurement gap triggered by MAC CE.

R1-2310298 Feature lead summary#2 of AI 8.13.4 on improved GNSS operations Moderator (MediaTek)

From Friday session

Agreement

Endorsed the TP below for TS36.213, and leave it to the spec editor whether to create new clauses for this TP and if so to decide the title of the new clauses.

· Reason for change: In the TS 36.213 v18.0.0, the determination of the start time of GNSS measurement gap triggered by MAC CE for IoT NTN is not captured.

· Summary of change: Introduce the determination of the start time of GNSS measurement gap triggered by MAC CE for IoT NTN in TS36.213.

· Consequence if not approved: The RAN1 agreements for the start time of GNSS measurement gap triggered by MAC CE are not captured in specification.

================== Start of TP #1 for TS 36.213 ===================

< Unchanged parts are omitted >

16.10 [GNSS measurement gap related procedures for a NB-IoT UE]

For a NB-IoT UE in a NTN FDD serving cell, when the UE receives a GNSS Measurement Command MAC CE in a NPDSCH ending in DL subframe n

- if the UE shall not provide HARQ-ACK information for the HARQ process associated with the transport block in the NPDSCH carrying the GNSS Measurement Command MAC CE,

- the UE shall assume the start of the measurement gap in subframe n+12;

- otherwise,

- the UE shall assume the start of the measurement gap in subframe k+2, where k is the first DL subframe after the end of the transmission of the NPUSCH carrying ACK/NACK response for the HARQ process associated with the transport block in the NPDSCH.

< Unchanged parts are omitted >

18 [GNSS measurement gap related procedures for a BL/CE UE]

For a BL/CE UE in a NTN FDD serving cell, when the UE receives a GNSS Measurement Command MAC CE in a PDSCH ending in DL subframe n

- if the UE shall not provide HARQ-ACK information for the HARQ process associated with the transport block in the PDSCH carrying the GNSS Measurement Command MAC CE,

- the UE shall assume the start of the measurement gap in subframe n+6;

- otherwise,

- the UE shall assume the start of the measurement gap in subframe k+2, where k is the first DL subframe after the end of HARQ-ACK transmission for the HARQ process associated with the transport block in the PDSCH.

================End of TP #1 for TS 36.213 ===================

Final summary in R1-2310299.

RAN1#115

8.13 Maintenance on NTN (Non-Terrestrial Networks) Enhancements

R1-2312510 Session notes for 8.13 (Maintenance on NTN (Non-Terrestrial Networks) enhancements) Ad-Hoc Chair (Huawei)

Friday decision: The session notes are endorsed and contents (with the addition of the approved LS R1-2312696 under AI 8.13.4) reflected below.

[115-R18-NTN] – Mohamed (Thales)

Email discussion on NR-NTN / IoT-NTN

- 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

R1-2312655 RAN1 agreements for Rel-18 WI on IoT NTN enhancements up to RAN1#115 Moderator (MediaTek Inc.)

Higher Layer Parameters

R1-2312424 Rel-18 Higher Layer Parameters for NR NTN Moderator (Thales)

From Tuesday session

Agreement

The higher layer parameters in R1-2312424 are endorsed.

R1-2312301 Rel-18 Higher Layer Parameters for IoT NTN Moderator (MediaTek)

From Wednesday session

Agreement

The higher layer parameters in R1-2312301 are endorsed.

-------------------------------------

TP for TS 38.300

R1-2312246 TP for TS 38.300 THALES

R1-2312495 TP for TS 38.300 Moderator (THALES)

R1-2312518 FLS#1 on NR-NTN TP for TS 38.300 Moderator (THALES)

From Wednesday session

Agreement

The TP below for TS38.300 is endorsed from RAN1 perspective.

· Note: further text may be provided later for NTN-specific PUSCH DMRS bundling.

---------- TEXT PROPOSAL BEGIN ---------

16.14.X Support for NR NTN coverage enhancements

To improve NR uplink coverage in NTN, the following enhancements are supported:

- PUCCH repetition for Msg4 HARQ-ACK:

· Supported number of transmissions are 1, 2, 4, 8.

o If a single value from {2, 4, 8} is configured via SIB, the configured repetition factor is applied.

o If multiple values from {1, 2, 4, 8} are configured via SIB, one of the multiple values is indicated in DAI field of DCI format 1_0 with CRC scrambled by TC-RNTI.

· The existing mechanism on repetition slot counting (as in section 9.2.6 of TS 38.213) is applied.

· Frequency hopping mechanism in R15/16/17 defined for PUCCH transmission for Msg4 HARQ-ACK, in every slot is applied.

· A RSRP threshold can be configured via SIB when the number of repetitions is configured by SIB. If the RSRP threshold is configured, UE capable of PUCCH repetition for Msg4 HARQ-ACK reports the capability of PUCCH repetition for Msg4 HARQ-ACK via Msg3 PUSCH only if measured RSRP is lower than the configured RSRP threshold. If the RSRP threshold is not configured, UE capable of PUCCH repetition for Msg4 HARQ-ACK reports the capability of PUCCH repetition for Msg4 HARQ-ACK via Msg3 PUSCH.

· The repetition factor applied to Msg4 HARQ-ACK is used also for any PUCCH transmission before dedicated PUCCH resource is provided.

- NTN-specific PUSCH DMRS bundling

16.14.x Verification of UE location

For UE location verification based on multi-RTT with single satellite in NTN, at least the following UE and gNB measurements specified in [38.215] are reported: gNB receive-transmit time difference at the uplink time synchronization reference point, UE receive-transmit time difference, UE receive-transmit time difference subframe offset and DL timing drift.

The assistance information reported to the CN may include ephemeris information including accurate satellite position and velocity at the time of multi-RTT measurement, and common TA parameters (ta-Common, ta-CommonDrift, ta-CommonDriftVariant, Epoch time).

*** Unchanged text is omitted ***

---------- TEXT PROPOSAL END ---------

R1-2312625 FLS#2 on NR-NTN TP for TS 38.300 Moderator (THALES)

From Thursday session

Agreement

The TP below for TS38.300 is endorsed from RAN1 perspective.

---------- TEXT PROPOSAL BEGIN ---------

16.14.X Support for NR NTN coverage enhancements

<UNCHANGED TEXT IS OMITTED>

- NTN-specific PUSCH DMRS bundling enhancement that enables DMRS bundling in presence of timing drift, whereby UE maintains phase continuity considering effects of transmission delay variation between UE and uplink time synchronization reference point to enable improved channel estimation.

---------- TEXT PROPOSAL END ---------

Comeback for draft LS to RAN2 with the text proposal for TS38.300 according to the above two agreements.

R1-2312669 TP for TS 38.300 Moderator (Thales)

Friday decision: The TP is endorsed.

R1-2312670 LS on NR-NTN TP for TS 38.300 (rev of R1-2312496)

Friday decision: The LS in R1-2312670 is endorsed, and will be revised to change the source to RAN1, with the attachment in R1-2312669.

Final LS is approved in R1-2312681.

-------------------------------------

FR2-NTN

R1-2310877 Discussion on RAN1 impact to support the RAN4 work on NTN above 10GHz Huawei, HiSilicon

R1-2310917 On RAN1 impact of NTN above 10 GHz Ericsson

R1-2310936 Considerations on the system parameters for FR2-NTN THALES

R1-2311199 Discussion on the RAN1 related aspects for NTN above 10 GHz ZTE

R1-2311312 Remaining issue on NTN above 10 GHz CATT

R1-2311585 Discussion on the RAN1 impact for NTN above 10GHz Beijing Xiaomi Mobile Software

R1-2311636 Discussion on FR2-NTN for NR NTN NTT DOCOMO, INC.

R1-2311700 Discussion on NTN above 10 GHz Apple

R1-2311772 Discussions on RAN4 LS on FR2-NTN aspects Sharp

R1-2311996 Discussion on RAN4 LS on the system parameters for NTN above 10 GHz MediaTek Inc.

R1-2312136 Further discussion of open issues related to NTN operation in frequency bands above 10 GHz Nokia, Nokia Shanghai Bell

R1-2312247 On RAN1 related aspects for NTN above 10 GHz Mitsubishi Electric RCE

R1-2312141 Summary #1 for FR2-NTN Moderator (Nokia)

From Monday session

Agreement

Confirm working assumption from RAN1#114-bis on reference SCS for K_offset and K_MAC.

Agreement

Confirm working assumption from RAN1#114-bis on the TA reporting granularity.

Agreement

The working assumption for cell search procedure is replaced with the following, and confirmed:

For operation in FR2-NTN, for cell search procedure, Case D and Case E in TS 38.213 are used to allow FDD operation in bands defined by FR2-NTN without any update to SSB pattern.

R1-2312142 Summary #2 for FR2-NTN Moderator (Nokia)

From Wednesday session

Agreement

Confirm the working assumption from RAN1#114-bis on the PRACH configuration.

Working assumption

For PRACH configuration for operation in FR2-NTN, Table 6.3.3.2-4 of TS 38.211 is used as baseline.

FFS: Whether further modifications to the PRACH configuration Table would be needed

Agreement

Create an LS response for RAN4 with the following text, and copy the relevant RAN1 agreements and conclusions made for FR2-NTN in the LS:

Overall description

RAN1 would like to thank RAN4 for their LS R4-2305926 (R1-2304309) on the operation of NR over NTN in frequency bands above 10 GHz.

RAN1 have had discussion on the topic over the past meetings and have reached a number of agreements, but some topics are still under consideration. The topics still under consideration are mainly related to the timing requirements associated to operation in bands defined by FR2-NTN. To help RAN1 progressing on the topic, it would be appreciated if RAN4 could provide the timing requirements for supporting NR over NTN in bands defined by FR2-NTN.

Actions:

RAN1 respectfully asks RAN4 to provide a response to the above question in order to aid the RAN1 discussions related to timing accuracy requirements.

Final LS in:

R1-2312553 Response on LS on the system parameters for NTN above 10 GHz RAN1, Nokia

Thursday decision: The LS is approved.

-------------------------------------

From AI 5

RACH-less handover in NR NTN

Follow up discussion on R1-2308910 from RAN1#114

R1-2310876 Further discussion on LS for RACH-less handover Huawei, HiSilicon

R1-2311064 Discussions on RAN2 LS on RACH-less Handover vivo

R1-2311211 Discussion on RAN2 LS on RACH-less Handover ZTE

R1-2311249 Discussion on remaining issue for RACH less handover for NR NTN OPPO

R1-2311281 Discussion on RAN2 LS on RACH-less handover Ericsson

R1-2311664 Discussion on RAN2 LS on RACH-less Handover Apple

R1-2311805 Discussion on RAN2 LS on RACH-less handover Samsung

R1-2312176 Discussions on RAN2 LS on RACH-less Handover CATT

R1-2311429 Power control for RACH-less handover in NR NTN NEC

R1-2312051 On RACH-less handover in NR NTN Qualcomm Incorporated

R1-2312377 Summary of discussion on remaining issues for RACH-less handover Moderator (Samsung)

From Wednesday session

Agreement

The text proposal for TS 38.213 in section 3.3 in R1-2312377 is endorsed in principle. Draft CR to be reviewed and endorsed in RAN1#116.

· Note: further discuss the TP for search space, repetition, power control, collision with valid PRACH occasion, TDD aspect, etc.

· Note to the TS 38.213 editor: it is not expected to capture this TP for RAN#102.

Conclusion

Which CORESET to use for RACH-less handover can be further discussed at a future meeting.

8.13.1 Coverage enhancement for NR NTN

R1-2310874 Maintenance of coverage enhancement for NR NTN Huawei, HiSilicon

R1-2310916 On maintenance of coverage enhancements for NR NTN Ericsson

R1-2311112 Discussions on remaining issues of coverage enhancements in NR NTN vivo

R1-2311179 Remaining issues on coverage enhancements for NTN Spreadtrum Communications

R1-2311200 Remaining issue on coverage enhancement ZTE

R1-2311245 Discussion on remaining issue for coverage enhancement for NR NTN OPPO

R1-2311389 Discussion on remaining issues on coverage enhancement for NR-NTN xiaomi

R1-2311498 Remaining issues on coverage enhancement for NR NTN CMCC

R1-2311513 Remaining issues on NR NTN Coverage Enhancement NEC

R1-2311637 Maintenance on coverage enhancement for NR NTN NTT DOCOMO, INC.

R1-2311773 Maintenance on coverage enhancement for NR NTN Sharp

R1-2311861 Remaining issues on coverage enhancement for NR NTN Samsung

R1-2311918 Remaining issues of coverage enhancement for NR NTN LG Electronics

R1-2311994 Coverage enhancement for NR NTN MediaTek Inc.

R1-2312004 Remaining issues on coverage enhancements for NR NTN Hyundai Motor Company

R1-2312052 Maintenance on coverage enhancements for NR NTN Qualcomm Incorporated

R1-2312091 Maintenance of coverage enhancement for NR NTN Baicells

R1-2312137 Open issues related to coverage enhancements for NR over NTN Nokia, Nokia Shanghai Bell

R1-2312319 Summary #1 on 8.13.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Monday session

Conclusion

For frequency hopping of PUCCH repetition on common PUCCH resources for NR NTN, no specification change in Rel-18.

Conclusion

For PUCCH repetition on common PUCCH resources for NR NTN, for the case of SI modification and no DCI format 1_0 with CRC scrambled by a TC-RNTI, no further discussion for this issue in Rel-18.

Conclusion

There is no consensus on the following for PUCCH repetition on common PUCCH resources in Rel-18 NR NTN.

· Whether to introduce dynamic indication when a single repetition factor is configured

· Whether to enhance capacity of common PUCCH resources

· Whether to extend previous agreements for common PUCCH resources to dedicated PUCCH resources

Conclusion

No further discussion is necessary for the following for PUCCH repetition on common PUCCH resources in Rel-18 NR NTN.

· UE behavior when no repetition factor is configured

· UE behavior if configured repetition factor(s) does not include ‘1’, the RSRP threshold is configured, and the measured RSRP < the RSRP threshold

Conclusion

There is no consensus on antenna switching-related enhancements for PUSCH DMRS bundling in Rel-18 NR NTN.

R1-2312320 Summary #2 on 8.13.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Wednesday session

Agreement

The TP below is endorsed for TS38.213

· Reason for change: It was agreed that this WI can support PUCCH repetition not only for Msg4 HARQ-ACK but also for subsequent PUCCH e.g., to report HARQ-ACK corresponding to a PDSCH conveying RRC configuration parameters.

· Summary of change: It is clarified that the indicated repetition factor is applied to any PUCCH transmission by using common PUCCH resource.

· Consequences if not approved: It is unclear which repetition factor is applied to PUCCH transmissions after Msg4 HARQ-ACK transmission when dedicated PUCCH resource configuration is not provided.

9.2.6 PUCCH repetition procedure

A UE that does not have dedicated PUCCH resource configuration and indicates a capability to transmit with repetitions a PUCCH with HARQ-ACK information [11, TS 38.321], determines a number of slots for repetitions of a PUCCH transmission with HARQ-ACK information based on an indication by numberOfPUCCHforMsg4HARQACK-RepetitionsList. If numberOfPUCCHforMsg4HARQACK-RepetitionsList provides more than one values, the DAI field in a DCI format 1_0 with CRC scrambled by a TC-RNTI scheduling a PDSCH reception that includes a UE contention resolution identity indicates from the more than one values. The number of repetitions is applied to any PUCCH transmission before dedicated PUCCH resource configuration is provided. The UE transmits each repetition of the PUCCH using frequency hopping as described in Clause 9.2.1.

In the remaining of this clause, a UE without dedicated PUCCH resource configuration determines a value of a parameter, if applicable, according to Table 9.2.1-1 and/or as specified above in this clause for a PUCCH transmission with repetitions from the UE.

*** Unchanged parts are omitted ***

R1-2312321 Summary #3 on 8.13.1 Coverage enhancement for NR NTN Moderator (NTT DOCOMO, INC.)

From Thursday session

Conclusion

For PUCCH repetition on common PUCCH resources, with respect to the number of symbols and the first symbol for PUCCH transmission, no specification change in Rel-18.

Final summary in R1-2312672.

8.13.2 Network verified UE location for NR NTN

R1-2310875 Maintenance of network-verified UE location for NR NTN Huawei, HiSilicon

R1-2310935 Maintenance on network verified UE location in NR NTN THALES

R1-2310937 Feature Lead Summary #1 on Network verified UE location for NR NTN Moderator (THALES)

R1-2310938 Feature Lead Summary #2 on Network verified UE location for NR NTN Moderator (THALES)

R1-2310939 Feature Lead Summary #3 on Network verified UE location for NR NTN Moderator (THALES)

R1-2311113 Discussions on remaining issues of UE location verification in NR NTN vivo

R1-2311201 Remaining issue on network verified UE location ZTE

R1-2311246 Discussion on remaining issue for network verified UE location for NR NTN OPPO

R1-2311325 Remaining issue on network verified UE location CATT

R1-2311521 Maintenance on Network-verified UE location for NR-NTN PANASONIC

R1-2311638 Remaining issue on Network verified UE location for NR NTN NTT DOCOMO, INC.

R1-2311701 On Remaining Issues of Network Verified UE Location Apple

R1-2311759 Remaining Issues on Network Verified UE Location for NR NTN ETRI

R1-2311862 Remaining issues on network verified UE location for NR NTN Samsung

R1-2311942 On maintenance of network verified UE location for NR NTN Ericsson Inc.

R1-2312258 Network verified UE location for NR NTN MediaTek Inc. (rev of R1-2311995)

R1-2312053 Maintenance on network verified UE location for NR NTN Qualcomm Incorporated

R1-2312138 Remaining open issues related to network verified UE location for NR over NTN Nokia, Nokia Shanghai Bell

R1-2310937 Feature Lead Summary #1 on Network verified UE location for NR NTN Moderator (THALES)

From Monday session

Agreement

Confirm the following working assumption with the following modification: replacing with ppm and removing the brackets.

Working assumption

The DL timing drift due to Doppler over the service link associated with the UE RX-TX time difference measurement period is reported with the following range, granularity and bits allocation

Value range	Granularity	Bits allocation
i.e:		10 bits

Value range

Granularity

Bits allocation

i.e:

10 bits

Note: value range is given in unit of corresponding granularity

R1-2310938 Feature Lead Summary #2 on Network verified UE location for NR NTN Moderator (THALES)

From Wednesday session

Working assumption

For UE RX-TX measurements in NTN, the time of the beginning of a subframe is determined by assuming the time durations of the OFDM symbols at the receiver are the same as defined in 38.211.

Final summary in R1-2310939.

8.13.3 Disabling of HARQ feedback for IoT NTN

R1-2310878 Maintenance of disabling of HARQ feedback for IoT NTN Huawei, HiSilicon

R1-2310965 Maintenance on disabling HARQ feedback for IoT NTN Ericsson

R1-2311180 Remaining issues on disabling of HARQ feedback for IoT NTN Spreadtrum Communications

R1-2311202 Remaining issue on disabling of HARQ feedback ZTE

R1-2311247 Discussion on remaining issue on disabling of HARQ feedback for IoT NTN OPPO

R1-2311654 Maintenance on disabling of HARQ feedback for IoT NTN Nokia, Nokia Shanghai Bell

R1-2311702 On Higher Layer Signaling for HARQ Feedback Disabling for IoT NTN Apple

R1-2311728 Disabling of HARQ feedback for IoT NTN Lenovo

R1-2311998 Remaining issues of disabling of HARQ feedback for IoT NTN MediaTek Inc.

R1-2312388 FLS#1 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

R1-2312389 FLS#2 on disabling of HARQ feedback for IoT NTN Moderator (Lenovo)

From Tuesday session

Agreement

When multiple TBs are scheduled by a single DCI:

· For Option 1 + Option 3 DCI based overridden mechanism, when DCI indicates HARQ feedback enabled, then the NB-IoT UE always wait for an RTT+3ms (i.e., till subframe n+Kmac+3 in TS36.213 section 16.6) before monitoring NPDCCH.

Agreement

It is up to editor to select TP 2-2b or TP 2-3a in section 7 of R1-2312389 to be endorsed for TS36.213 clause 7.3.

R1-2312460 FLS#3 on disabling of HARQ feedback for IoT NTN Moderator(Lenovo)

From Thursday session

Agreement

The TP 4-1c in section 8 of R1-2312460 is endorsed for TS36.213 clause 7.3.1.

8.13.44 Improved GNSS operations for IoT NTN

R1-2310879 Maintenance of improved GNSS operations for IoT NTN Huawei, HiSilicon

R1-2311181 Remaining issues on improved GNSS operations for IoT NTN Spreadtrum Communications

R1-2311203 Remaining issue on improved GNSS operation ZTE

R1-2311248 Discussion on remaining issue for improved GNSS operation for IoT NTN OPPO

R1-2311512 Remaining issues on Improved GNSS Operations for IoT NTN NEC

R1-2311586 Discussion on the remaining issues for the improved GNSS operation for IoT NTN Beijing Xiaomi Mobile Software

R1-2311655 Maintenance on improved GNSS operations for IoT NTN Nokia, Nokia Shanghai Bell

R1-2311703 Remaining issues on improved GNSS operations for IoT NTN Apple

R1-2311863 Remaining issues for improved GNSS operations for IoT NTN Samsung

R1-2311943 On maintenance of improved GNSS operations for IoT NTN Ericsson Inc.

R1-2311999 Remaining issues on improved GNSS operations for IoT NTN MediaTek Inc.

R1-2312054 Improved GNSS Operations for IoT-NTN Qualcomm Incorporated

R1-2312128 Improved GNSS operations for IoT NTN Nordic Semiconductor ASA

R1-2312298 Feature lead summary#1 of AI 8.13.4 on improved GNSS operations Moderator (MediaTek)

From Tuesday session

Agreement

Modify X1 value of RAN1#114 agreement on start time of GNSS measurement gap as below and endorse the corresponding TP below:

· X1=12ms for NB-IoT

· X1=56ms for eMTC

Reason for change: In the endorsed CR R1-2310771 Clause 16.10, the starting point of a measurement gap is counted from the starting point of last subframe carrying triggering MAC CE, which is one subframe early than the agreement in RAN1#114. To keep the same time budget for processing the triggering MAC CE, the starting point of measurement gap should be in subframe n+13 for NB-IoT.

Summary of change: Change the start of the measurement gap in subframe n+13 if UE shall not provide HARQ-ACK information for the NPDSCH carrying the triggering MAC CE.

Consequence if not approved: The RAN1 agreement for GNSS measurement is not captured correctly in specification.

========================= Start of TP #1 for TS 36.213 =========================

< Unchanged parts are omitted >

16.10 GNSS measurement gap related procedures

For a NB-IoT UE in a NTN FDD serving cell, when the UE receives a GNSS Measurement Command MAC CE in a NPDSCH ending in DL subframe n,

· - if the UE shall not provide HARQ-ACK information for the HARQ process associated with the transport block in the NPDSCH carrying GNSS Measurement Command MAC CE,

- the UE shall assume the start of the measurement gap in subframe n+1213

· - otherwise,

============================= End of TP #1 for TS 36.213 =============================

Agreement

Delete the TBD length in the value range column of higher layer parameters downlinkHARQ-FeedbackDisabled-Bitmap and downlinkHARQ-FeedbackDisabled-Bitmap-NB for R18 IoT NTN as follows:

Parameter name in the text	Description	Value range
downlinkHARQ-FeedbackDisabled-Bitmap	Used to disable the DL HARQ feedback, sent in the uplink, per HARQ process ID	Bitmap ~~[TBD length]~~
downlinkHARQ-FeedbackDisabled-Bitmap-NB	Used to disable the DL HARQ feedback, sent in the uplink, per HARQ process ID	Bitmap ~~[TBD length]~~

Agreement

Add new higher layer parameters ULTransmissionExtension and ULTransmissionExtension-NB for R18 IoT NTN as follows:

WI code

Sub-feature group

RAN1 specification

Section

RAN2 Parent IE

RAN2 ASN.1 name

Parameter name in the spec

New or existing?

Parameter name in the text

Description

Value range

Default value aspect

Per (UE, cell, TRP, …)

Required for initial access or IDLE/INACTIVE

Specification

Comment

IoT_NTN_enh-Core

UL transmission after original GNSS validity duration expires for eMTC

36.213

ULTransmissionExtension

New

ULTransmissionExtension

“UL transmission after original GNSS validity duration expires with duration X” is enabled/disabled by network.

BOOLEAN

per UE

36.331

IoT_NTN_enh-Core

UL transmission after original GNSS validity duration expires for NB-IoT

36.213

ULTransmissionExtension-NB

New

ULTransmissionExtension-NB

“UL transmission after original GNSS validity duration expires with duration X” is enabled/disabled by network.

BOOLEAN

per UE

36.331

R1-2312299 Feature lead summary#2 of AI 8.13.4 on improved GNSS operations Moderator (MediaTek)

From Thursday session

Agreement

From RAN1 perspective, the start time of duration X is at the point where original GNSS validity duration expires

· when timeAlignmentTimer is infinity, the end of X is at the point where new timer ULTransmissionExtentionTimer expires and ULTransmissionExtentionTimer is reset with length equal to Y every time when a MAC CE (to be defined by RAN2) is received

o Note 1: It is up to RAN2 to decide whether the MAC CE is the legacy TAC or a new TAC or a new MAC CE.

· Note 2: It is up to RAN2 to implement the above behaviour based on new timer, existing timer, or by extending GNSS validity.

· Send an LS to RAN2

Comeback for draft LS to RAN2.

From eom Friday session

R1-2312656 Draft LS on improved GNSS operations in Rel-18 IoT NTN Moderator (MediaTek Inc.)

Decision: The draft LS is endorsed, assuming the following correction - replace “conclusion” by “agreement” in the Actions to RAN2. Final LS is approved in R1-2312696.

Agreement

TP#2 in section 4.2.5 of R1-2312299 is endorsed for TS36.213 Clause 16.10 and Clause 18.

Agreement

Add new higher layer parameter ul-TransmissionExtensionValue for eMTC and NB-IoT for R18 IoT NTN as follows:

WI code

Sub-feature group

RAN1 specification

Section

RAN2 Parent IE

RAN2 ASN.1 name

Parameter name in the spec

New or existing?

Parameter name in the text

Description

Value range

Default value aspect

Per (UE, cell, TRP, …)

Required for initial access or IDLE/INACTIVE

Specification

Comment

IoT_NTN_enh-Core

UL transmission after original GNSS validity duration expires for eMTC

36.213

ul-TransmissionExtensionValue

New

ul-TransmissionExtensionValue

Indicates the duration after original GNSS validity duration expires within which UL transmission is allowed. Value in number of sub-frames, value sf500 corresponds to 500 sub-frames, sf750 corresponds to 750 sub-frames and so on.

{sf500, sf750, sf1280, sf1920, sf2560, sf5120, sf10240, spare1}

per UE

36.331

IoT_NTN_enh-Core

UL transmission after original GNSS validity duration expires for NB-IoT

36.213

ul-TransmissionExtensionValue-NB

New

ul-TransmissionExtensionValue

{sf500, sf750, sf1280, sf1920, sf2560, sf5120, sf10240, spare1}

per UE

36.331

Final summary in R1-2312300.

RAN1#116

8.100 Maintenance on NR NTN enhancements

R1-2401764 Session notes for 8.10 (Maintenance on NR NTN enhancements) Ad-Hoc Chair (Huawei)

Friday decision: The session notes are endorsed and contents reflected below.

[116-R18-NR_NTN] – Mohamed (Thales)

Email discussion on NR-NTN

- 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

Maintenance on coverage enhancement for NR NTN

R1-2400224 Maintenance on Rel-18 NR NTN vivo

R1-2400353 Remaining issue on NR-NTN ZTE

R1-2400532 Discussion on remaining issues in NR NTN enhancements xiaomi

R1-2400970 Open aspects related to Rel-18 maintenance for NR over NTN Nokia, Nokia Shanghai Bell

R1-2400976 On maintenance of NR NTN enhancements Ericsson

R1-2401167 Maintenance on coverage enhancement for NR NTN Sharp

R1-2401377 Maintenance of coverage enhancement for NR NTN Huawei, HiSilicon

R1-2401498 Summary #1 on 8.10 Coverage enhancement for NR NTN Moderator (NTT DOCOMO)

From Monday session

Conclusion

For the case where a DCI format 1_0 with CRC scrambled by C-RNTI schedules Msg4 PDSCH, there is no consensus on whether a specification change is necessary for Rel-18 NR NTN.

Conclusion

For NTN-specific PUSCH DMRS bundling, with respect to TA pre-compensation update within an actual TDW, no consensus on whether RAN1 specification change in Rel-18 is necessary or not.

Conclusion

For NTN-specific PUSCH DMRS bundling, with respect to phase continuity compensation for effects of transmission delay variation, RAN1 can discuss at a later time whether to include in Rel-18 specifications a reference to corresponding RAN4 requirements once defined by RAN4.

Final summary in R1-2401499.

Maintenance on Network verified UE location for NR NTN

R1-2400224 Maintenance on Rel-18 NR NTN vivo

R1-2400713 Maintenance on NR NTN enhancements Samsung

R1-2400976 On maintenance of NR NTN enhancements Ericsson

R1-2401377 Maintenance of coverage enhancement for NR NTN Huawei, HiSilicon

R1-2401422 Maintenance on NR NTN enhancements Qualcomm Incorporated

R1-2401537 FL Summary #1: Maintenance on Network verified UE location for NR NTN Moderator (Thales)

From Monday session

Agreement

Confirm the following working assumption:

Working assumption

For UE RX-TX measurements in NTN, the time of the beginning of a subframe is determined by assuming the time durations of the OFDM symbols at the receiver are the same as defined in 38.211.

Agreement

The TP below is endorsed

------------------------------------------------------- Start of TP for TS 38.215 ------------------------------------------------------------

5.1.30 UE Rx – Tx time difference

Definition

The UE Rx – Tx time difference is defined as T_UE-RX –T_UE-TX

Where:

T_UE-RX is the UE received timing of downlink subframe #i from a Transmission Point (TP) [18], defined by the first detected path in time.

T_UE-TX is the UE transmit timing of uplink subframe #j that is closest in time to the subframe #i received from the TP.

Multiple DL PRS or CSI-RS for tracking resources, as instructed by higher layers, can be used to determine the start of one subframe of the first arrival path of the TP. The time of the beginning of a subframe is determined by assuming the time durations of the OFDM symbols at the receiver are the same as defined in 38.211.

For frequency range 1, the reference point for T_UE-RX measurement shall be the Rx antenna connector of the UE and the reference point for T_UE-TX measurement shall be the Tx antenna connector of the UE. For frequency range 2, the reference point for T_UE‑RX measurement shall be the Rx antenna of the UE and the reference point for T_UE‑TX measurement shall be the Tx antenna of the UE.

Applicable for

RRC_CONNECTED,

RRC_INACTIVE

------------------------------------------------------- End of TP for TS 38.215 ------------------------------------------------------------

Conclusion

No need to modify the value of NR-TimingQuality for NTN in Rel-18.

Conclusion

For supporting Multi-RTT method in NTN, UE specific TA offset based on which the UE pre-compensates the two-way transmission delay on the service link should not be reported together with the UE Rx-Tx time difference from UE to LMF. No specification impact.

R1-2401538 FL Summary #2: Maintenance on Network verified UE location for NR NTN Moderator (Thales)

R1-2401539 FL Summary #3: Maintenance on Network verified UE location for NR NTN Moderator (Thales)

Maintenance on RACH-less handover

R1-2400214 Discussions on RAN2 LS on RACH-less Handover vivo

R1-2400350 Further discussion on RAN2 LS on RACH-less Handover ZTE

R1-2400697 Discussion on RAN2 LS on RACH-less handover Samsung

R1-2400981 Discussion on RAN2 LS on RACH-less Handover Apple

R1-2401341 Discussion on RAN2 LS on RACH-less handover Ericsson

R1-2401378 Further discussion on LS for RACH-less handover Huawei, HiSilicon

R1-2400587 Discussion on maintenance on NR NTN enhancements OPPO

R1-2401096 Maintenance of NR NTN enhancements NTT DOCOMO, INC.

R1-2401535 Moderator summary #1 on remaining issues for RACH-less handover Moderator (Samsung)

From Monday session

Agreement

TP#1_2 in section 2 of R1-2401535 is endorsed for TS38.213 clause 22.

Agreement

TP#3_2 in section 2 of R1-2401535 is endorsed for TS38.213 clause 22.

Maintenance on FR2-NTN aspects

R1-2400349 Further discussion on LS on the system parameters for NTN above 10 GHz ZTE

R1-2400404 Discussion on FR2 issues for Rel-18 NTN CATT

R1-2400816 Considerations on the system parameters for FR2-NTN THALES

R1-2400968 Further discussion on NR over NTN operation in bands defined by FR2-NTN Nokia, Nokia Shanghai Bell

R1-2400975 Discussion on RAN4 LS on the system parameters for NTN above 10 GHz Ericsson

R1-2400980 Discussion of RAN4 LS on the system parameters for NTN above 10 GHz Apple

R1-2401163 Discussions on RAN4 LS on FR2-NTN aspects Sharp

R1-2401379 Discussion on RAN1 impact to support the RAN4 work on NTN above 10GHz Huawei, HiSilicon

R1-2401096 Maintenance of NR NTN enhancements NTT DOCOMO, INC.

R1-2401540 Discussion on FR2-NTN aspects at RAN1#116, first round Moderator (Nokia)

From Monday session

Conclusion

RAN1 does not pursue the aspects on negative timing advance indication through TAC in MAC RAR for FR2-NTN unless specifically requested by RAN4.

Conclusion

For frequency bands defined by FR2-NTN, RAN1 will not consider expanding the scope of extended cyclic prefix to cover SCS other than 60 kHz in Rel-18.

R1-2401669 Discussion on FR2-NTN aspects at RAN1#116, second round Moderator (Nokia)

R1-2401846 Discussion on FR2-NTN aspects at RAN1#116, third round Moderator (Nokia)

From Friday session

Conclusion

RAN1 will decide at RAN1#116bis on whether to reuse Table 6.3.3.2-4 of TS 38.211 without modification for NR over NTN for FR2-NTN in Rel-18, or to reuse the table with modifications.

Maintenance on satellite switch with resync

From AI 5

R1-2400009 LS on RAN2 agreements for satellite switch with resync RAN2, Apple

R1-2401609 Moderator summary of Reply LS to R1-2400009 (LS on RAN2 agreements for satellite switch with resync) Moderator (Apple)

R1-2401610 Draft Reply LS on Satellite Switch with Resync Moderator (Apple)

Decision: The draft reply LS in R1-2401610 is endorsed with the deletion of “CC RAN WG4” in the action. Final LS is approved in R1-2401748.

Other LS

From AI 5

R1-2400027 LS on UE capability to support DMRS bundling for GSO and NGSO RAN4, Ericsson

R1-2401813 DRAFT Reply LS on UE capability to support DMRS bundling for GSO and NGSO Ericsson

Decision: No consensus to send a reply to RAN4.