Please enter the search related information in the fields below. Partial information works, e.g. "SP-21" in the "tdoc" field lists all TSG SA documents from 2021. Regular expressions mostly work in all fields (e.g. "2[34].501" in the "Spec" field lists all documents related to 23.501 and 24.501. Capitalization is disregarded, i.e. "3GPP" gives the same results as "3gpp".
Download results in JSON format
| tdoc | Title | Type / Revs | Source | Spec / CR | S/WID | Release | Meeting | Status | Links |
|---|---|---|---|---|---|---|---|---|---|
| RP-201528 | View on RAN4 R17 WI SI package | discussion | OPPO | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201588 | Email discussion summary for RAN4 Rel-17 demodulation scope |
report revised to RP-201967 |
China Telecom | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201589 | New WID: Further enhancement on NR demodulation performance |
WID new revised to RP-201968 |
China Telecom | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201599 | Motivation for supporting non-colocated scenarios for band 42 and n77 | discussion | SoftBank Corp., KDDI | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201600 | Motivation paper on Rel-17 RRM further enhancement | discussion | Apple, Intel | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201601 | WID of REL-17 NR RRM further enhancement |
WID new revised to RP-202053 |
Apple, Intel | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201602 | Email discussion summary of RRM work area |
report revised to RP-201985 |
Apple | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201603 | Motivation on UL gap for UE self-calibration and monitoring | discussion | Apple | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201605 | New WID on NR RF Enhancements for FR2 |
WID new revised to RP-202034 |
Nokia, Nokia Shanghai Bell | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201609 | Email discussion summary for Rel-17 FR2 RF work area | report | Nokia, Nokia Shanghai Bell | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201610 | New WID on NR CSI-RS L3 measurement enhancement | WID new | OPPO | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201615 | Motivation for new WI on enahncement for NR high speed train scenario | WID new | CMCC | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201616 | New WID on enhancement for NR high speed train scenario |
WID new revised to RP-202043 |
CMCC | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201626 | Email discussion summary for RAN4 R17 non-spectrum work areas: FR1 HST and ATG | report | CMCC | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201627 | Views on Rel-17 RAN4 non-spectrum items | discussion | CMCC | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201628 | On Rel-17 UL Tx switching between 2Tx carrier and 2Tx carrier | discussion | CMCC | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201629 | Motivation for new WI on air-to-ground network for NR | discussion | CMCC | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201630 | New WID on air-to-ground network for NR | WID new | CMCC | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201633 | Motivation of new WID on UE EMC enhancement Rel-17 | discussion | Xiaomi | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201634 | New WID: on UE EMC enhancement Rel-17 | WID new | Xiaomi | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201635 | Views on RAN4 Rel-17 non-spectrum WI/SI package | discussion | Xiaomi | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201641 | Email discussion summary for RAN4 Rel-17 FR2 HST | report | Samsung | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201644 | New SID: Study on high power UE (power class 2) for one NR FDD band | SID new | China Unicom | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201645 | Motivation for Study on high power UE (power class 2) for one NR FDD band | discussion | China Unicom, Huawei, HiSilicon | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201649 | Considerations on R17 RRM enhancement scope | discussion | vivo | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201650 | Motivation for optimizations on power class fall back | discussion | vivo | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201651 | New SID: Study on Optimizations on power class fall back | SID new | vivo, China Unicom | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201652 | Motivation for WI: NR FR1 UE SA and EN-DC TRP and TRS | discussion | vivo | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201653 | New WID: NR FR1 UE SA and EN-DC TRP and TRS | WID new | vivo, OPPO, CMCC, CAICT, Rohde & Schwarz | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201672 | Email discussion summary for BS EMC & DL 1024QAM FR1 | report | Ericsson | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201673 | Motivation for Introducing DL 1024QAM in NR FR1 | discussion | Ericsson | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201674 | New WI: Introduction of DL 1024QAM for NR FR1 |
WID new revised to RP-201961 |
Ericsson | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201685 | SID proposal: Study on Dynamic OTA testing for FR2 | SID new | Qualcomm Incorporated | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201686 | Summary of email discussions on Dynamic OTA for FR2 | report | Qualcomm Incorporated | Rel-17 |
RP-89-e AI: 9.1.2 |
withdrawn | [WTS] [JSN] | ||
| RP-201687 | Motivation paper for Measurement gaps enhancements | discussion | Qualcomm Incorporated | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201688 | WID proposal for Measurement gaps enhancements | WID new | Qualcomm Incorporated | Rel-17 |
RP-89-e AI: 9.1.2 |
merged | [WTS] [JSN] | ||
| RP-201689 | New WID proposal for 8Rx demod | WID new | Qualcomm Incorporated | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201690 | WF on Application Layer Throughput for RAN4 |
discussion revised to RP-202065 |
Qualcomm Incorporated | Rel-16 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201691 | Views on Rel-17 RAN4 package of non-spectrum related items | discussion | Qualcomm Incorporated | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201692 | Motivation paper for 8Rx demod | discussion | Qualcomm Incorporated | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201697 | Motivation to introduce new R17 WI on further RRM enhancement | discussion | MediaTek Inc. | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201698 | New R17 WI on Further RRM Enhancements | WID new | MediaTek Inc. | Rel-17 |
RP-89-e AI: 9.1.2 |
merged | [WTS] [JSN] | ||
| RP-201708 | Motivation on NR RRM requirement for UE different RX beam sets in FR2 | discussion | LG Electronics Inc. | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201709 | New WID on NR RRM requirement for UE different RX beam sets in FR2 | WID new | LG Electronics Inc. | Rel-17 |
RP-89-e AI: 9.1.2 |
merged | [WTS] [JSN] | ||
| RP-201733 | Summary of moderated discussion on RAN4 work area for FR1 RF | report | Huawei | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201734 | New WID proposal: RF requirements enhancement for NR frequency range 1 (FR1) in Rel-17 |
WID new revised to RP-202040 |
Huawei | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201735 | Motivation for new WI on Rel-17 NR FR1 RF | discussion | Huawei, HiSilicon | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201736 | New SID proposal: Study on introduction of brand new channel bandwidths for NR | SID new | Huawei, HiSilicon | Rel-17 |
RP-89-e AI: 9.1.2 |
not pursued | [WTS] [JSN] | ||
| RP-201737 | Motivation for new SI on introduction of brand new channel bandwidths for NR | discussion | Huawei, HiSilicon | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201740 | New WID proposal: Performance requirements for UE advanced receiver in Rel-17 | WID new | Huawei, HiSilicon | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201741 | Motivation paper of new WID on performance requirements for UE advanced receiver in Rel-17 | discussion | Huawei, HiSilicon | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201742 | New WID proposal: further RRM enhancement | WID new | Huawei, HiSilicon | Rel-17 |
RP-89-e AI: 9.1.2 |
merged | [WTS] [JSN] | ||
| RP-201743 | Motivation for further RRM enhancement in Rel-17 | discussion | Huawei, HiSilicon | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201747 | Summary of email discussions on the scope of OTA work for Rel.17 | report | Qualcomm Incorporated | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201748 | New WID on NR support for high speed train scenario in FR2 |
WID new revised to RP-201970 |
Samsung, Nokia | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201774 | New WID on NR RRM requirement enhancements in Rel-17 | WID new | ZTE Corporation | Rel-17 |
RP-89-e AI: 9.1.2 |
merged | [WTS] [JSN] | ||
| RP-201775 | Motivation on NR RRM requirement enhancements in Rel-17 | discussion | ZTE Corporation | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201791 | Motivation on further enhancement for NR RRM requirement in Rel-17 | discussion | CATT | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201792 | New WID on further enhancement for NR RRM requirement in Rel-17 | WID new | CATT | Rel-17 |
RP-89-e AI: 9.1.2 |
merged | [WTS] [JSN] | ||
| RP-201795 | New WID on EMC test simplification for MSR BS |
WID new revised to RP-201973 |
Ericsson Inc. | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201799 | Motivation EMC test simplification for MSR BS | discussion | Ericsson Inc. | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201830 | Summary of email discussions on Smart Repeaters | report | QUALCOMM Europe Inc. - Spain | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201831 | Motivation paper for NR Repeaters | discussion | QUALCOMM Europe Inc. - Spain | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201832 | New WID proposal for NR Repeaters | WID new | QUALCOMM Europe Inc. - Spain | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201851 | Views on Rel-17 non-spectrum RF enhancements | discussion | Apple Inc. | Rel-17 |
RP-89-e AI: 9.1.2 |
not treated | [WTS] [JSN] | ||
| RP-201886 | New WID Proposal: NR measurement gap enhancements |
WID new revised to RP-202091 |
Intel Corporation, Apple | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201887 | Motivation to introduce new Rel-17 WI on NR measurement gap enhancements | discussion | Intel Corporation, Apple | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201888 | Views on RAN4 Rel-17 non-spectrum SI/WI package | discussion | Intel Corporation | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201902 | Motivation for new SID: Study on Efficient utilization of licensed spectrum that is not aligned with existing NR channel bandwidths | discussion | T-Mobile USA | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201903 | New SID: Study on Efficient utilization of licensed spectrum that is not aligned with existing NR channel bandwidths |
SID new revised to RP-201978 |
T-Mobile USA, Ericsson | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201961 | New WI: Introduction of DL 1024QAM for NR FR1 |
WID new revision of RP-201674 revised to RP-202013 |
Ericsson | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201967 | Email discussion summary for RAN4 Rel-17 demodulation scope |
report revision of RP-201588 |
China Telecom | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-201968 | New WID: Further enhancement on NR demodulation performance |
WID new revision of RP-201589 revised to RP-202000 |
China Telecom | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201970 | New WID on NR support for high speed train scenario in FR2 |
WID new revision of RP-201748 revised to RP-202037 |
Samsung, Nokia | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-201973 | New WID on EMC test simplification for MSR BS |
WID new revision of RP-201795 |
Ericsson Inc. | Rel-17 |
RP-89-e AI: 9.1.2 |
withdrawn | [WTS] [JSN] | ||
| RP-201978 | New SID: Study on Efficient utilization of licensed spectrum that is not aligned with existing NR channel bandwidths |
SID new revision of RP-201903 |
T-Mobile USA, Ericsson | Rel-17 |
RP-89-e AI: 9.1.2 |
not pursued | [WTS] [JSN] | ||
| RP-201985 | Email discussion summary of RRM work area |
report revision of RP-201602 |
Apple | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-202000 | New WID: Further enhancement on NR demodulation performance |
WID new revision of RP-201968 |
China Telecom | Rel-17 |
RP-89-e AI: 9.1.2 |
approved | [WTS] [JSN] | ||
| RP-202013 | New WI: Introduction of DL 1024QAM for NR FR1 |
WID new revision of RP-201961 revised to RP-202044 |
Ericsson | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-202016 | Alternative New SID: Study on Efficient utilization of licensed spectrum that is not aligned with existing NR channel bandwidths |
SID new revised to RP-202103 |
T-Mobile USA, Ericsson | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-202022 | Moderator's summary for email discussion [89E][21][RAN4_R17_RRM] | report | Apple | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-202033 | Moderator's summary for email discussion [89E][19]RAN4_R17_FR1] | report | Huawei | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-202034 | New WID on NR RF Enhancements for FR2 |
WID new revision of RP-201605 revised to RP-202042 |
Nokia, Nokia Shanghai Bell | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-202035 | Moderator's summary for email discussion [89E][22][RAN4_R17_Demod] |
report revised to RP-202092 |
Intel | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-202036 | Moderator's summary for email discussion [89E][38][RAN4_R17_FR1_HST] | report | CMCC | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-202037 | New WID on NR support for high speed train scenario in FR2 |
WID new revision of RP-201970 revised to RP-202104 |
Samsung, Nokia | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-202038 | Moderator's summary for email discussion [89E][40][RAN4_R17_DL1024QAM] |
report revised to RP-202070 |
Ericsson | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-202040 | New WID proposal: RF requirements enhancement for NR frequency range 1 (FR1) in Rel-17 |
WID new revision of RP-201734 revised to RP-202088 |
Huawei | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-202042 | New WID on NR RF Enhancements for FR2 |
WID new revision of RP-202034 revised to RP-202107 |
Nokia, Nokia Shanghai Bell | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-202043 | New WID on enhancement for NR high speed train scenario |
WID new revision of RP-201616 revised to RP-202106 |
CMCC | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-202044 | New WI: Introduction of DL 1024QAM for NR FR1 |
WID new revision of RP-202013 |
Ericsson | Rel-17 |
RP-89-e AI: 9.1.2 |
approved | [WTS] [JSN] | ||
| RP-202048 | Moderator's summary for email discussion [89E][23][New_CH_bandwidth] |
report revised to RP-202049 |
T-Mobile | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-202049 | Moderator's summary for email discussion [89E][23][New_CH_bandwidth] |
report revision of RP-202048 revised to RP-202050 |
T-Mobile | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-202050 | Moderator's summary for email discussion [89E][23][New_CH_bandwidth] |
report revision of RP-202049 |
T-Mobile | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-202053 | New WID: Further NR RRM enhancements |
WID new revision of RP-201601 |
Apple, Intel | Rel-17 |
RP-89-e AI: 9.1.2 |
approved | [WTS] [JSN] | ||
| RP-202065 | WF on Application Layer Throughput for RAN4 |
discussion revision of RP-201690 |
Qualcomm Incorporated, AT&T | Rel-16 |
RP-89-e AI: 9.1.2 |
endorsed | [WTS] [JSN] | ||
| RP-202070 | Moderator's summary for email discussion [89E][40][RAN4_R17_DL1024QAM] |
report revision of RP-202038 |
Ericsson | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-202088 | New WID proposal: RF requirements enhancement for NR frequency range 1 (FR1) in Rel-17 |
WID new revision of RP-202040 |
Huawei | Rel-17 |
RP-89-e AI: 9.1.2 |
approved | [WTS] [JSN] | ||
| RP-202091 | New WID Proposal: NR measurement gap enhancements |
WID new revision of RP-201886 revised to RP-202119 |
Intel Corporation, Mediatek | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-202092 | Moderator's summary for email discussion [89E][22][RAN4_R17_Demod] |
report revision of RP-202035 |
Intel | Rel-17 |
RP-89-e AI: 9.1.2 |
noted | [WTS] [JSN] | ||
| RP-202103 | Alternative New SID: Study on Efficient utilization of licensed spectrum that is not aligned with existing NR channel bandwidths |
SID new revision of RP-202016 |
T-Mobile USA, Ericsson | Rel-17 |
RP-89-e AI: 9.1.2 |
approved | [WTS] [JSN] | ||
| RP-202104 | New WID on NR support for high speed train scenario in FR2 |
WID new revision of RP-202037 revised to RP-202118 |
Samsung, Nokia | Rel-17 |
RP-89-e AI: 9.1.2 |
revised | [WTS] [JSN] | ||
| RP-202106 | New WID on enhancement for NR high speed train scenario |
WID new revision of RP-202043 |
CMCC | Rel-17 |
RP-89-e AI: 9.1.2 |
approved | [WTS] [JSN] | ||
| RP-202107 | New WID on NR RF Enhancements for FR2 |
WID new revision of RP-202042 revised to RP-202684 |
Nokia, Nokia Shanghai Bell | Rel-17 |
RP-89-e AI: 9.1.2 |
approved | [WTS] [JSN] | ||
| RP-202118 | New WID on NR support for high speed train scenario in FR2 |
WID new revision of RP-202104 |
Samsung, Nokia | Rel-17 |
RP-89-e AI: 9.1.2 |
approved | [WTS] [JSN] | ||
| RP-202119 | New WID Proposal: NR measurement gap enhancements |
WID new revision of RP-202091 |
Intel Corporation, Mediatek | Rel-17 |
RP-89-e AI: 9.1.2 |
approved | [WTS] [JSN] |
106 documents (0.32213187217712 seconds)