| Document Name |
Title |
Source |
|
|
R2-152081
|
Test |
ETSI Secretariat |
|
|
R2-152082
|
Addition of DC Operation Overview and Minor Clarifications |
Nokia Networks |
|
|
R2-152083
|
Allocation of LCID in DC |
Nokia Networks |
|
|
R2-152084
|
Stage 3 Details of BSR Reporting |
Nokia Networks |
|
|
R2-152085
|
Discussion on PDCP discard with Split Bearer |
Nokia Networks |
|
|
R2-152086
|
MTC considerations concerning SIB scheduling |
Gemalto N.V. |
|
|
R2-152087
|
Latency analysis for UE-to-Network Relay scenarios of GCSE_LTE |
III |
|
|
R2-152088
|
Further considerations on the Multiflow 3F-4C configuration and specification impact analysis |
Nokia Networks |
|
|
R2-152089
|
Introduction of the Multiflow 3F-4C configuration in TS 25.308 |
Nokia Networks |
|
|
R2-152090
|
Introduction of the Multiflow 3F-4C configuration in TS 25.331 |
Nokia Networks |
|
|
R2-152091
|
Introduction of the Multiflow 3F-4C configuration in TS 25.321 |
Nokia Networks |
|
|
R2-152092
|
Introduction of the Multiflow 3F-4C configuration in TS 25.302 |
Nokia Networks |
|
|
R2-152093
|
Clarification for the extended cell ID reporting in inter-frequency measured results on RACH |
Nokia Networks |
|
|
R2-152094
|
Simultaneous reconfiguration and active set update procedures |
Nokia Networks |
|
|
R2-152095
|
Mobile originated voice calls with enhanced DL/UL for CELL_FACH |
Nokia Networks |
|
|
R2-152096
|
Clarification on DRB release |
HTC |
|
|
R2-152097
|
Considerations for longer DRX configuration options |
Nokia Networks |
|
|
R2-152098
|
Extended DRX impact on idle mode UE measurement and cell reselection |
Acer Incorporated |
|
|
R2-152099
|
BSR Triggering for Split Bearers |
Nokia Networks, HTC, LG Electronics |
|
|
R2-152100
|
Further Discussion on UP Architecture of LTE/WLAN Aggregation |
CATT |
|
|
R2-152101
|
Indoor Location Improvements utilizing WiFi, BT and Barometric Pressure Measurements |
Qualcomm Incorporated |
|
|
R2-152102
|
ANR for WLAN cell detection |
Nokia Networks |
|
|
R2-152103
|
Mobility for LWA |
Nokia Networks |
|
|
R2-152104
|
Control Plane Interface for LWA |
Nokia Networks |
|
|
R2-152105
|
3C user-plane architecture for LTE-WLAN aggregation |
Nokia Networks |
|
|
R2-152106
|
User Plane Interface and flow control principles of LWA |
Nokia Networks |
|
|
R2-152107
|
Allocation of LCID in DC |
Nokia Networks |
|
|
R2-152108
|
RRM measurements for LTE-WLAN radio aggregation and interworking |
Nokia Networks |
|
|
R2-152109
|
Traffic steering command for Rel-13 WLAN Interworking |
Nokia Networks |
|
|
R2-152110
|
SIB scheduling for low complexity MTC |
Nokia Networks |
|
|
R2-152111
|
Combination of solutions for Retrievable Configurations |
Ericsson |
|
|
R2-152112
|
Retrievable Configurations in System Information |
Ericsson |
|
|
R2-152113
|
Text proposal for DL enhancements, Enhanced signaling on RRC parameters configuration |
Ericsson |
|
|
R2-152114
|
Further considerations regarding Enhanced State Transitions |
Ericsson |
|
|
R2-152115
|
Text proposal for DL enhancements, State transition enhancements |
Ericsson |
|
|
R2-152116
|
Optional Complete Message |
Ericsson |
|
|
R2-152117
|
Text proposal for DL enhancements, Optional Complete Message |
Ericsson |
|
|
R2-152118
|
Inter PLMN Cells in Measurement Reporting |
Panasonic |
|
|
R2-152119
|
MTC SI Change Indication |
Panasonic |
|
|
R2-152120
|
Prioritization mechanism for ProSe communication |
Panasonic |
|
|
R2-152121
|
Transmission of PDCP control PDUs for Split bearers |
Panasonic |
|
|
R2-152122
|
Analysis of user plane architecture options for LTE-WLAN aggregation |
MediaTek Inc. |
|
|
R2-152123
|
WLAN authentication for LTE-WLAN aggregation |
MediaTek Inc. |
|
|
R2-152124
|
Discussion on WLAN AP selection |
CATT |
|
|
R2-152125
|
Discussion on Architectural and Procedures of C-plane for LTE-WLAN Aggregation |
CATT |
|
|
R2-152126
|
Discussion on mobility procedures of aggregation bearer |
CATT |
|
|
R2-152127
|
Flow Control for LTE-WLAN Aggregation |
CATT |
|
|
R2-152128
|
Considerations on Interworking Enhancements |
CATT |
|
|
R2-152129
|
Considerations on WLAN Measurements |
CATT |
|
|
R2-152130
|
Further Considerations on Paging for Low Complexity UEs |
CATT |
|
|
R2-152131
|
The initial impact analysis on RAN for extended DRX |
CATT |
|
|
R2-152132
|
Considerations on extending DRX cycle longer than maximum SFN |
CATT |
|
|
R2-152133
|
WLAN measurement reporting |
MediaTek Inc. |
|
|
R2-152134
|
Mix Normal and Extended DRX Cycles |
CATT |
|
|
R2-152135
|
RAN enhancements for extended connected mode DRX in LTE |
MediaTek Inc. |
|
|
R2-152136
|
RAN enhancements for extended idle mode DRX in LTE |
MediaTek Inc. |
|
|
R2-152137
|
Remaining CP issues for PUCCH on SCell |
MediaTek Inc. |
|
|
R2-152138
|
Remaining UP issues for PUCCH on SCell |
MediaTek Inc. |
|
|
R2-152139
|
Traffic steering proceudre and command for NCIWK |
MediaTek Inc. |
|
|
R2-152140
|
Over-scheduling problem for UL split bearer |
MediaTek Inc. |
|
|
R2-152141
|
Flow control for LWA |
MediaTek Inc. |
|
|
R2-152142
|
Clarification on PUCCH and SRS |
HTC |
|
|
R2-152143
|
RAN2 Aspects for supporting ProSe Discovery in Partial & OOC |
Samsung |
|
|
R2-152144
|
Inter Carrier Discovery |
Samsung |
|
|
R2-152145
|
Timing Synchronisation for Inter Carrier Discovery TX |
Samsung |
|
|
R2-152146
|
Handling Power Limitation during Concurrent TX in Serving & Non Serving Carrier |
Samsung |
|
|
R2-152147
|
Handling Concurrent TX in Serving and Non Serving Carrier for UE with Single TX chain |
Samsung |
|
|
R2-152148
|
MAC PDU Addressing for Communication with UE-to-Network Relay |
Samsung |
|
|
R2-152149
|
Resource Allocation Aspects for UE-to-Network Relay |
Samsung |
|
|
R2-152150
|
Group Priority Handling |
Samsung |
|
|
R2-152151
|
Considerations on RAN2 impacts to support ACDC requirements |
Intel Corporation |
|
|
R2-152152
|
Draft reply LS on ACDC requirements |
Intel Corporation |
|
|
R2-152153
|
Sidelink terminology alignment in TS 36.300 |
Intel Corporation,Qualcomm Incorporated |
|
|
R2-152154
|
Sidelink terminology alignment in TS 36.304 |
Intel Corporation,Qualcomm Incorporated |
|
|
R2-152155
|
Sidelink terminology alignment in TS 36.306 |
Intel Corporation,Qualcomm Incorporated |
|
|
R2-152156
|
Clean-up corrections to TS 36.331 |
Intel Corporation |
|
|
R2-152157
|
Control plane aspects of CA with up to 32 CCs |
Intel Corporation |
|
|
R2-152158
|
MAC Control Elements for CA with up to 32 CCs |
Intel Corporation |
|
|
R2-152159
|
Consideration on the number of TAGs for up to 32 CCs |
Intel Corporation |
|
|
R2-152160
|
System information for Release-13 low complexity UEs and enhanced coverage |
Intel Corporation |
|
|
R2-152161
|
Email discussion summary report on [89bis#24][LTE/MTCe2] SIB Contents |
Intel Corporation |
|
|
R2-152162
|
Impacts on random access procedure for Release-13 low complexity UEs and enhanced coverage |
Intel Corporation |
|
|
R2-152163
|
Mobility support for Release-13 low complexity UEs and enhanced coverage |
Intel Corporation |
|
|
R2-152164
|
Paging for Release-13 low complexity UEs and enhanced coverage |
Intel Corporation |
|
|
R2-152165
|
Signalling considerations for UE-to-Network relay initiation |
Intel Corporation |
|
|
R2-152166
|
Support of one-to-one communication |
Intel Corporation |
|
|
R2-152167
|
Draft reply LS on public safety discovery |
Intel Corporation |
|
|
R2-152168
|
Priority handling for ProSe |
Intel Corporation |
|
|
R2-152169
|
Throughput and pingpong analysis for multicarrier load distribution |
Intel Corporation, ITRI |
|
|
R2-152170
|
Performance impact of different load distribution triggering mechanisms |
Intel Corporation |
|
|
R2-152171
|
Performance evaluation of extended DRX cycle in idle mode |
Intel Corporation |
|
|
R2-152172
|
Extending DRX cycle impacts and solutions for idle mode |
Intel Corporation |
|
|
R2-152173
|
Extending DRX cycle impacts and solutions for connected mode |
Intel Corporation |
|
|
R2-152174
|
Impact of latency reduction on TCP slow-start behavior |
Intel Corporation |
|
|
R2-152175
|
Signaling design requirements on extended DRX |
SoftBank Mobile |
|
|
R2-152176
|
RRM Measurement Model for LAA |
Samsung |
|
|
R2-152177
|
Correction to presence of UE capability Simultaneous support for DCH Enhancements and Compressed Mode operation |
Ericsson, Nokia Networks |
|
|
R2-152178
|
Disable default configuration for CELL_FACH |
Ericsson, Qualcomm Incorporated |
|
|
R2-152179
|
Disable default configuration for CELL_FACH |
Ericsson, Qualcomm Incorporated |
|
|
R2-152180
|
Potential solution for idle load distribution |
China Telecom, ZTE |
|
|
R2-152181
|
Seamless transition from URA_PCH state |
Ericsson |
|
|
R2-152182
|
Discussion on serving cells beyond 5 |
ZTE |
|
|
R2-152183
|
Deactivation of PUCCH SCell |
ZTE |
|
|
R2-152184
|
Text proposal for DL enhancements, Seamless URA_PCH to CELL_FACH transitions |
Ericsson, Huawei |
|
|
R2-152185
|
Considerations on relay selection and reselection |
Fujitsu |
|
|
R2-152186
|
RAN impact of extending the DRX cycle |
Fujitsu |
|
|
R2-152187
|
Architecture and protocol details for LWA |
Fujitsu |
|
|
R2-152188
|
Flow control and feedback for LWA |
Fujitsu |
|
|
R2-152189
|
The analysis of legacy mechanisms relying on dedicated priorities against approved requirements |
Nokia Networks |
|
|
R2-152190
|
Further Considerations of SI for MTC Low Cost and Enhanced Coverage |
Fujitsu |
|
|
R2-152191
|
Paging for BW reduced low complexity UEs |
NTT DOCOMO, INC. |
|
|
R2-152192
|
Release of dedicated RNTIs |
Nokia Networks |
|
|
R2-152193
|
Optimizations for the IDLE to CONNECTED state transition |
Nokia Networks |
|
|
R2-152194
|
Retrievable configurations in system information |
Nokia Networks |
|
|
R2-152195
|
Comparison of options for enhanced synchronous RRC re-configuration procedure |
Nokia Networks |
|
|
R2-152196
|
Discussion on UE-to-Network Relay Synchronization, Discovery and Selection |
ITRI |
|
|
R2-152197
|
Support MCPTT private call with ProSe |
ITRI |
|
|
R2-152198
|
Discussion on AdditionalSpectrumEmission at handover |
Ericsson |
|
|
R2-152199
|
Correction to additionalSpectrumEmission at handover |
Ericsson |
|
|
R2-152200
|
Correction to additionalSpectrumEmission at handover |
Ericsson |
|
|
R2-152201
|
Correction to additionalSpectrumEmission at handover |
Ericsson |
|
|
R2-152202
|
Terrestrial Beacon System positioning enhancements |
NextNav, Broadcom, TeleCommunication Systems, Inc. |
|
|
R2-152203
|
TP for TR37.857 Terrestrial Beacon System Impacts |
NextNav, Broadcom, TeleCommunication Systems, Inc. |
|
|
R2-152204
|
Corrections on MIMO capabilities |
Ericsson |
|
|
R2-152205
|
Applications and use cases for latency reduction SI |
Intel Corporation |
|
|
R2-152206
|
Corrections on MIMO capabilities |
Ericsson |
|
|
R2-152207
|
Corrections on MIMO capabilities |
Ericsson |
|
|
R2-152208
|
Correction to SI acquisition failure |
Ericsson |
|
|
R2-152209
|
Clarification on extended RSRQ range support |
Ericsson |
|
|
R2-152210
|
NS values in system information |
Intel Corporation |
|
|
R2-152211
|
Clarification on Type 2 PH reporting |
Intel Corporation, Samsung |
|
|
R2-152212
|
Clarification on STAG and SCell release |
Intel Corporation |
|
|
R2-152213
|
UE support of CA fallback configurations |
Ericsson |
|
|
R2-152214
|
Uplink transmission for LAA |
Intel Corporation |
|
|
R2-152215
|
UE support of CA fallback configurations |
Ericsson |
|
|
R2-152216
|
UE support of CA fallback configurations |
Ericsson |
|
|
R2-152217
|
Impact Analysis of UL Asynchronous HARQ |
Huawei, HiSilicon |
|
|
R2-152218
|
Considerations of Measurement Issues in LAA |
Huawei, HiSilicon |
|
|
R2-152219
|
Analysis of LBT Operation for LAA Uplink |
Huawei, HiSilicon |
|
|
R2-152220
|
Uplink Transmissions via LAA Cell |
Huawei, HiSilicon |
|
|
R2-152221
|
Analysis of the user plane XW interface for LTE/WLAN aggregation |
Intel Corporation |
|
|
R2-152222
|
WLAN authentication and security aspects of LTE/WLAN aggregation |
Intel Corporation |
|
|
R2-152223
|
PDCP Reordering Issues for UL Split Bearer |
Huawei, HiSilicon |
|
|
R2-152224
|
Considerations for UE-to-Network relay selection and reselection |
Intel Corporation |
|
|
R2-152225
|
Interworking of Separate Bucket LCP and Double BSR Reporting |
Huawei, HiSilicon |
|
|
R2-152226
|
LAA SCell Activation and Deactivation |
Samsung |
|
|
R2-152227
|
SIBs for Rel-13 MTC |
Samsung |
|
|
R2-152228
|
Dual scheduling of SIBs for use by LC UEs |
Sierra Wireless S.A. |
|
|
R2-152229
|
Correction on Sidelink BSR transmission |
ITL |
|
|
R2-152230
|
Activation/Deactivation MAC CE for b5C |
ITL |
|
|
R2-152231
|
Clarification on the PUCCH/ SRS release in DC |
Huawei, HiSilicon |
|
|
R2-152232
|
Consideration on RACH procedure in coverage enhancement |
Huawei, HiSilicon |
|
|
R2-152233
|
Broadcast of neighbouring cell SC-PTM control information |
ZTE, ZTE Trunking Technology Corporation |
|
|
R2-152234
|
Consideration on the simultaneous transmission for MTC UEs |
Huawei, HiSilicon |
|
|
R2-152235
|
Consideration on the mobility scenarios for LTE&WIFI Aggregation |
ZTE |
|
|
R2-152236
|
Consideration on the support of legacy AP in LTE/WLAN aggregation |
ZTE |
|
|
R2-152237
|
Consideration on the user plane acrchitecture for the LTE/WLAN aggregation |
ZTE |
|
|
R2-152238
|
Consideration on UE WLAN measurement for the LTE/WLAN aggregation and interworking enhancements |
ZTE |
|
|
R2-152239
|
Discussion on the PDCP discard issue in bear split |
ZTE |
|
|
R2-152240
|
Clarification on CQI reporting in dual connectivity |
Samsung |
|
|
R2-152241
|
L2 enhancments for eCA |
Samsung |
|
|
R2-152242
|
UE requirements for LTE-WLAN interworking/integration |
Samsung |
|
|
R2-152243
|
UL LAA support and UL Scheduling in MAC |
Samsung |
|
|
R2-152244
|
Support for ProSe One-to-One Communication in Release 13 |
CATT |
|
|
R2-152245
|
UE CA capability signalling for B5C |
Huawei, HiSilicon |
|
|
R2-152246
|
Core Network requirements for LTE-WLAN interworking |
Samsung |
|
|
R2-152247
|
Missing Packet due to Half-duplex in PC5 |
CATT |
|
|
R2-152248
|
Overall operational procedure for LTE-WLAN interworking |
Samsung |
|
|
R2-152249
|
Measurement objects for LAA (and WLAN) |
Samsung |
|
|
R2-152250
|
TR 36.880 update |
CMCC (Rapporteur) |
|
|
R2-152251
|
RRC configuration enhancement for B5C |
Huawei, HiSilicon |
|
|
R2-152252
|
RRM measurement requirement for B5C |
Huawei, HiSilicon |
|
|
R2-152253
|
RAN-assisted WLAN interworking based on RAN rules in idle mode |
Intel Corporation, Qualcomm Incorporated, BlackBerry UK Limited, Sony |
|
|
R2-152254
|
Consideration on double reporting + threshold |
CATT |
|
|
R2-152255
|
Email discussion report on [89bis#20][LTE/CA] Capability signalling for contiguous CA |
Intel Corporation |
|
|
R2-152256
|
Additional MIMO/CSI capability for intra-band contiguous CA |
Intel Corporation |
|
|
R2-152257
|
Discussion on the details of UL bearer split |
CATT |
|
|
R2-152258
|
Signalling considerations on eNB authorization of remote UE for UE-to-Network relay |
Intel Corporation |
|
|
R2-152259
|
Remaining issues for PUCCH on SCell |
Huawei, HiSilicon |
|
|
R2-152260
|
Correction to PHR format |
Samsung |
|
|
R2-152261
|
Discussion on UL split bearer operation |
Samsung |
|
|
R2-152262
|
Preventing PDCP SN gap due to discard timer |
Samsung |
|
|
R2-152263
|
Data to be considered for BSR in uplink split bearer |
Samsung |
|
|
R2-152264
|
Way forward on user plane interface between eNB and WLAN |
Intel Corporation, Qualcomm Incorporated, China Telecom, Ericsson, KT Corp., ZTE, Coolpad, CATT, KDDI, CMCC, MediaTek |
|
|
R2-152265
|
Draft LS on RAN-assisted WLAN interworking based on RAN rules in idle mode |
Intel Corporation |
|
|
R2-152266
|
Double grant issue on semi-static scheduling coordination for double reporting |
CATT |
|
|
R2-152267
|
UP impacts due to high peak data rate of 32CCs |
Huawei, HiSilicon |
|
|
R2-152268
|
Discussion on the measurements of packet delay and loss |
CATT |
|
|
R2-152269
|
MAC CE impacts due to the introduction of 32CCs |
Huawei, HiSilicon |
|
|
R2-152270
|
SRS handling for SCells in Secondary PUCCH Group |
Huawei, HiSilicon |
|
|
R2-152271
|
Deactivation timer for PUCCH SCell |
Huawei, HiSilicon |
|
|
R2-152272
|
Configuration for SC-PTM transmission |
ASUSTeK |
|
|
R2-152273
|
Issues for SR on PUCCH Scell |
Huawei, HiSilicon |
|
|
R2-152274
|
Initial analysis on latency reduction |
CATT, China Telecom |
|
|
R2-152275
|
RRM Measurement on PUCCH SCell |
CATT |
|
|
R2-152276
|
Deactivation Timer on PUCCH SCell |
CATT |
|
|
R2-152277
|
D-SR on PUCCH SCell |
CATT |
|
|
R2-152278
|
Activation/deactivation MAC CE of 32 CCs |
CATT |
|
|
R2-152279
|
QoS control for LAA UL transmission |
CATT |
|
|
R2-152280
|
General considerations on Multiflow enhancements |
Huawei, HiSilicon |
|
|
R2-152281
|
Discussion on MAC aspect for Multilfow enhancements |
Huawei, HiSilicon |
|
|
R2-152282
|
TP on capturing RAN2#89bis agreements on EDL |
Huawei (Rapporteur) |
|
|
R2-152283
|
RAN2 running TP on capturing analysis and conclusions on EDL |
Huawei (Rapporteur) |
|
|
R2-152284
|
TP on RAN impacts due to solutions on EDL |
Huawei, HiSilicon |
|
|
R2-152285
|
Discussion on further PHY parameters for retrievable configuration |
Huawei, HiSilicon |
|
|
R2-152286
|
TP on further PHY parameters for retrievable configuration |
Huawei, HiSilicon |
|
|
R2-152287
|
Discussion on seamless URA_PCH state transition |
Huawei, HiSilicon |
|
|
R2-152288
|
TP on seamless URA_PCH state transition |
Huawei, HiSilicon |
|
|
R2-152289
|
Discussion on RAN impacts due to ACDC |
Huawei, HiSilicon |
|
|
R2-152290
|
Radio measurement for feMDT |
Huawei, HiSilicon |
|
|
R2-152291
|
Logical Channel Prioritization in LAA |
LG Electronics Inc. |
|
|
R2-152292
|
PDCP reordering enhancement |
LG Electronics Inc. |
|
|
R2-152293
|
Potential Improvement Area for Latency Reduction |
LG Electronics Inc. |
|
|
R2-152294
|
Discussion on PDCP Discard function with Dual Connectivity |
LG Electronics Inc. |
|
|
R2-152295
|
PUCCH SCell deactivation timer |
Nokia Networks |
|
|
R2-152296
|
UL latency measurement in MDT |
LG Electronics Inc. |
|
|
R2-152297
|
2C vs 3C |
LG Electronics Inc. |
|
|
R2-152298
|
Discussions on User Plane aspects of LTE-WLAN aggregation |
LG Electronics Inc. |
|
|
R2-152299
|
Transmission of PDCP Control PDU in split bearer |
LG Electronics Inc. |
|
|
R2-152300
|
Paging and Timing for eDRX |
Sierra Wireless S.A. |
|
|
R2-152301
|
Latency Reduction Rel-10 discussion recaps |
Nokia Networks |
|
|
R2-152302
|
SR on PUCCH SCell |
Nokia Networks |
|
|
R2-152303
|
Work Plan for ACDC |
Rapporteur |
|
|
R2-152304
|
ACDC impacts on AS layer |
LG Electronics Inc. |
|
|
R2-152305
|
User Plane Protocol Architecture for Single Cell PTM |
LG Electronics Inc. |
|
|
R2-152306
|
SI change notification for UEs in enhanced coverage |
LG Electronics Inc. |
|
|
R2-152307
|
Notification of service availability for Single Cell PTM |
LG Electronics Inc. |
|
|
R2-152308
|
Way forward for eDRX |
LG Electronics Inc. |
|
|
R2-152309
|
Random Access for coverage enhanced UEs with normal bandwidth |
LG Electronics Inc. |
|
|
R2-152310
|
PUCCH SCell pre-activation |
Nokia Networks |
|
|
R2-152311
|
NS value handling |
Nokia Networks |
|
|
R2-152312
|
RAN impacts with extended DRX |
Nokia Networks |
|
|
R2-152313
|
IDC in LAA system |
Nokia Networks |
|
|
R2-152314
|
Measurements for more than 5 CCs |
Nokia Networks |
|
|
R2-152315
|
MAC impacts from CA enhancement for more than 5 CCs |
Nokia Networks |
|
|
R2-152316
|
SCell PUCCH activation without UL time alignment |
Nokia Networks |
|
|
R2-152317
|
Relay UE reselection |
CATT |
|
|
R2-152318
|
Relay selection in coverage |
CATT |
|
|
R2-152319
|
Enhancement on discovery in inter-frequency/ inter-PLMN scenario |
CATT |
|
|
R2-152320
|
Discussion on ProSe discovery in partial and outside network coverage |
CATT |
|
|
R2-152321
|
Relay initiation |
CATT |
|
|
R2-152322
|
Priority handling for D2D communication |
CATT |
|
|
R2-152323
|
Analysis on the Knowledge of Remote UE by eNB |
CATT |
|
|
R2-152324
|
Protocol Stacks for UE-to-Network Relay |
CATT |
|
|
R2-152325
|
WLAN-aided indoor positioning |
Intel Corporation |
|
|
R2-152326
|
Latency reductions in LTE |
Ericsson |
|
|
R2-152327
|
LBT Impacts On High Layers for LAA |
ZTE |
|
|
R2-152328
|
Service continuity consideration for SC-PTM |
TD Tech |
|
|
R2-152329
|
Consideration on random access for further MTC enhancement |
ASUSTek |
|
|
R2-152330
|
PDCP data transfer procedure for uplink bearer split |
Ericsson |
|
|
R2-152331
|
Further Consideration on HARQ for LAA |
ZTE |
|
|
R2-152332
|
Consideration on Exploiting LAA Scells more Efficiently |
ZTE |
|
|
R2-152333
|
Enhancement for inter-carrier D2D discovery |
NTT DOCOMO, INC. |
|
|
R2-152334
|
Further Thoughts on RRM for LAA Scell |
ZTE |
|
|
R2-152335
|
Further Thoughts on RRM for LAA Scell |
ZTE |
|
|
R2-152336
|
SIB scheduling for LC/EC MTC UE |
NTT DOCOMO, INC. |
|
|
R2-152337
|
Further Thoughts on RRM for LAA Scell |
ZTE |
|
|
R2-152338
|
Preventing over-scheduling with double reporting |
LG Electronics Inc. |
|
|
R2-152339
|
Considerations of user preference on LTE-WLAN interworking / aggregation |
Samsung |
|
|
R2-152340
|
Correction to the figure of MAC structure overview for sidelink |
ITRI, ASUSTeK |
|
|
R2-152341
|
Discussion on Open Issues and Resource Configuration for Mutiple Carrier ProSe Discovery in Intra-PLMN Scenario |
Coolpad |
|
|
R2-152342
|
Design considerations for extended DRX in LTE |
Qualcomm Incorporated, InterDigital Communications |
|
|
R2-152343
|
UL Transmission for LAA |
III |
|
|
R2-152344
|
Discussion on the remote UE’s presence to eNB |
ITRI |
|
|
R2-152345
|
Correction to the characteristics of SL-DCH |
ITRI, ASUSTeK |
|
|
R2-152346
|
Discussion on Resource Allocation in ProSe UE-to-Network Relay |
Coolpad |
|
|
R2-152347
|
Initial Thoughts on (De)activation for LAA Scell |
ZTE |
|
|
R2-152348
|
PRACH transmission for Rel-13 MTC UEs |
Sharp |
|
|
R2-152349
|
Carrier Configuration for Inter-Frequency Discovery |
ITRI |
|
|
R2-152350
|
More consideration on MMTEL traffic measurement |
ZTE |
|
|
R2-152351
|
RACH partitioning for Low/Normal Complexity-EC UE |
NTT DOCOMO, INC. |
|
|
R2-152352
|
Discussion on WLAN Authentication of LTE-WLAN Aggregation |
ITRI |
|
|
R2-152353
|
CR to 25.331 on cleanup correcttions to IncMon |
Huawei, HiSilicon, Ericsson |
|
|
R2-152354
|
UE behaviour upon receiving a steering command |
ITRI |
|
|
R2-152355
|
Discussion on traffic steering with considering the co-existence with other 3GPP/WLAN interworking solutions |
ITRI |
|
|
R2-152356
|
WLAN Measurement Configuration and Reporting |
ITRI |
|
|
R2-152357
|
The idle mode UE distribution for multicarrier environment |
ITRI |
|
|
R2-152358
|
Further discuss the accessibility measurements for GBR traffic |
ITRI |
|
|
R2-152359
|
BSR Trigger for Uplink Split Bearer |
ITRI |
|
|
R2-152360
|
Discussion on LTE-WLAN Aggregation Procedure |
ITRI |
|
|
R2-152361
|
CR to 25.331 on cleanup corrections of Radio Links without DPCH and F-DPCH |
Huawei, HiSilicon |
|
|
R2-152362
|
Consideration on DL MAC for unlicensed band |
LG Electronics Inc. |
|
|
R2-152363
|
Performance evaluation of DRX Cycle up to 40.96s |
Huawei, HiSilicon |
|
|
R2-152364
|
Consideration on UL MAC for unlicensed band |
LG Electronics Inc. |
|
|
R2-152365
|
Random Access aspect of LAA |
LG Electronics Inc. |
|
|
R2-152366
|
SR for CA enhancement |
LG Electronics Inc. |
|
|
R2-152367
|
Remaining issue on TAG and PUCCH SCell configuration |
LG Electronics Inc. |
|
|
R2-152368
|
sCellDeactivationTimer for PUCCH SCell |
LG Electronics Inc. |
|
|
R2-152369
|
Ci field in MAC CE for eCA |
LG Electronics Inc. |
|
|
R2-152370
|
Details of threshold based BSR trigger for split bearer |
LG Electronics Inc. |
|
|
R2-152371
|
Consideration on extended DRX cycle in idle mode |
China Unicom |
|
|
R2-152372
|
Data transmission for uplink split bearer |
LG Electronics Inc. |
|
|
R2-152373
|
Work plan for RAN Enhancements for Extended DRX in LTE |
Rapporteur |
|
|
R2-152374
|
LAA, How to cope with hidden nodes |
Samsung |
|
|
R2-152375
|
Paging impact analysis for long DRX cycle solution |
Huawei, HiSilicon |
|
|
R2-152376
|
Class level scheme for SC-PTM retransmission |
III |
|
|
R2-152377
|
WLAN aggregation, overall DC procedure |
Samsung |
|
|
R2-152378
|
TP on the conclusion of enhanced signalling on RRC parameters configuration |
Huawei, HiSilicon |
|
|
R2-152379
|
Enhancement of Power Saving Mode in idle mode |
Huawei, HiSilicon |
|
|
R2-152380
|
TP on long and extended DRX |
Huawei, HiSilicon |
|
|
R2-152381
|
Request for adding NCL in Abbreviations |
China Telecommunications |
|
|
R2-152382
|
Optimisation of small data transmission using common E-DCH resource |
Huawei, HiSilicon |
|
|
R2-152383
|
UL Contention Based Access for Latency Reduction |
MediaTek |
|
|
R2-152384
|
Deactivation timer issue on PUCCH SCell |
KT Corp. |
|
|
R2-152385
|
Random Access on LAA SCell |
Samsung |
|
|
R2-152386
|
Direct Discovery transmission on non-PCell |
Ericsson |
|
|
R2-152387
|
Correction of EMM protocol states & state transitions |
China Telecommunications |
|
|
R2-152388
|
Potential solutions for one-to-one communication addressing |
General Dynamics UK Ltd |
|
|
R2-152389
|
Discussion on UE-to-Network relay initiation |
General Dynamics UK Ltd |
|
|
R2-152390
|
Out of coverage discovery |
Ericsson |
|
|
R2-152391
|
ACDC impacts on RAN |
Nokia Networks |
|
|
R2-152392
|
ACDC impacts on RAN |
Nokia Networks |
|
|
R2-152393
|
Floor control and pre-emption for ProSe |
Ericsson |
|
|
R2-152394
|
Enhanced Coverage Optimization use case |
Nokia Networks |
|
|
R2-152395
|
Report of email discussion [89bis#21][LTE/ProSe] Correction of the SL-TF-IndexPair values |
Rohde & Schwarz |
|
|
R2-152396
|
UE-to-Network relay selection |
General Dynamics UK Ltd |
|
|
R2-152397
|
Enhanced QoS use case scope |
Nokia Networks |
|
|
R2-152398
|
The operation of logical channel SR prohibit timer for VoIP |
ASUSTeK |
|
|
R2-152399
|
SI acquisition failure after HO |
Nokia Networks |
|
|
R2-152400
|
MCPTT Requirements and their impact on ProSe |
Ericsson |
|
|
R2-152401
|
CR to logical channel SR prohibit timer |
ASUSTeK |
|
|
R2-152402
|
Discussion on Relay selection/re-selection |
ASUSTeK |
|
|
R2-152403
|
ProSe user and group priority |
Ericsson |
|
|
R2-152404
|
Initial considerations for latency reduction techniques for LTE |
KDDI |
|
|
R2-152405
|
Layer 2 header size to support CA with up to 32 CCs |
Intel Corporation |
|
|
R2-152406
|
Correction on the SL-TF-IndexPair values for ProSe Direct Discovery (Option 1) |
Rohde & Schwarz |
|
|
R2-152407
|
Correction on the SL-TF-IndexPair values for ProSe Direct Discovery (Option 2) |
Rohde & Schwarz |
|
|
R2-152408
|
Correction regarding additional spectrum emission upon HO |
Samsung |
|
|
R2-152409
|
Discussion on Sidelink BSR |
ASUSTeK |
|
|
R2-152410
|
Discussion on Sidelink BSR |
ASUSTeK |
|
|
R2-152411
|
Request for adding NCL in Abbreviations |
China Telecommunications |
|
|
R2-152412
|
Request for adding NCL in Abbreviations |
China Telecommunications |
|
|
R2-152413
|
Further discussion on cell selection/reselection parameters in EC |
HTC |
|
|
R2-152414
|
Correction of EMM protocol states & state transitions |
China Telecommunications |
|
|
R2-152415
|
Areas for latency reduction |
Ericsson |
|
|
R2-152416
|
Correction of EMM protocol states & state transitions |
China Telecommunications |
|
|
R2-152417
|
Discussion on asynchronous uplink HARQ operations |
HTC |
|
|
R2-152418
|
Managing PUCCH resources on a deactivated PUCCH SCell |
HTC |
|
|
R2-152419
|
Procedure for UE-to-Network Relay selection/reselection |
ETRI |
|
|
R2-152420
|
Guidelines for Latency Reduction Enhancement in RRC_Connected Mode |
ZTE |
|
|
R2-152421
|
Clarification on priority handling in RRC/MAC |
ETRI |
|
|
R2-152422
|
Resource pool handling for priority support |
ETRI |
|
|
R2-152423
|
eDRX concepts for idle and connected mode |
Ericsson |
|
|
R2-152424
|
Activation/Deactivation of PUCCH SCell |
NTT DOCOMO, INC. |
|
|
R2-152425
|
Draft LS on PUCCH SCell activation |
NTT DOCOMO, INC. |
|
|
R2-152426
|
Clarification for F-DPCH support with HS |
Ericsson |
|
|
R2-152427
|
Consideration on Measurement for LAA |
ETRI |
|
|
R2-152428
|
Discussion on CA b5CCs |
NTT DOCOMO, INC. |
|
|
R2-152429
|
eDRX solution, measurements and performance |
Ericsson |
|
|
R2-152430
|
LAA Measurements and Carrier Selection Procedure |
Sony |
|
|
R2-152431
|
Text proposal for eDRX solution, measurements and performance |
Ericsson |
|
|
R2-152432
|
Uplink RLC operation |
Sony |
|
|
R2-152433
|
Reduced Mobility support |
Sony |
|
|
R2-152434
|
Long DRX considerations |
Ericsson |
|
|
R2-152435
|
Cell Selection and Reselection for Enhanced Coverage |
Sony |
|
|
R2-152436
|
UE-to-Network Relay Measurements and Selection/Reselection (alt.1) |
Sony |
|
|
R2-152437
|
Transparent Relay Mobility (alt.2) |
Sony |
|
|
R2-152438
|
eDRX considerations |
Ericsson |
|
|
R2-152439
|
Resource Allocation for Remote UE |
Sony |
|
|
R2-152440
|
UE preferred eDRX behaviour |
Sony |
|
|
R2-152441
|
eDRX solution and issues 1 to 3 from SA2 |
Ericsson |
|
|
R2-152442
|
Further considerations on UL bearer split |
NTT DOCOMO, INC. |
|
|
R2-152443
|
Latency Reduction during Handover |
Nokia Networks |
|
|
R2-152444
|
Reply LS on RAN assumptions from SA2 for FS_eDRX |
Ericsson |
|
|
R2-152445
|
Text proposal Small Data SI conclusions |
Ericsson |
|
|
R2-152446
|
Quick return into PSM Idle mode |
Ericsson |
|
|
R2-152447
|
Text proposal for Quick return into PSM Idle mode |
Ericsson |
|
|
R2-152448
|
Enhancing Indoor Positioning via Integrated WLAN/Bluetooth Signal |
Ericsson |
|
|
R2-152449
|
Access control with legacy RACH |
Ericsson |
|
|
R2-152450
|
Clarification for Access Group based access control |
Ericsson |
|
|
R2-152451
|
Use cases in latency reduction |
Ericsson |
|
|
R2-152452
|
Gain evaluation for SC-PTM |
Ericsson |
|
|
R2-152453
|
Service continuity aspects for SC-PTM |
Ericsson |
|
|
R2-152454
|
Summary of solution assumptions for SC-PTM |
Ericsson |
|
|
R2-152455
|
Use cases and requirements for latency reduction |
Huawei, HiSilicon |
|
|
R2-152456
|
Evaluation on the gains provided by 0.5ms TTI |
Huawei, HiSilicon |
|
|
R2-152457
|
Analysis on uplink issues for latency reduction |
Huawei, HiSilicon |
|
|
R2-152458
|
MTC SIB transmission |
Huawei, HiSilicon |
|
|
R2-152459
|
MTC Paging transmission |
Huawei, HiSilicon |
|
|
R2-152460
|
Summary of email discussion [89bis#22][LTE/SC-PTM] Service Continuity for SC-PTM |
Huawei (Rapporteur) |
|
|
R2-152461
|
UE-to-Network Relay selection |
Ericsson |
|
|
R2-152462
|
Signalling required for UE-NW relay selection |
Ericsson |
|
|
R2-152463
|
TP on Service Continuity for SC-PTM |
Huawei (Rapporteur) |
|
|
R2-152464
|
Additional considerations on UE-Network relay scenarios |
Huawei, HiSilicon |
|
|
R2-152465
|
TP on PHY aspects for SC-PTM |
Huawei (Rapporteur) |
|
|
R2-152466
|
Draft conclusion on SC-PTM vs. MBSFN efficiency |
Huawei |
|
|
R2-152467
|
Procedure of Relay-UE selection and reselection |
Huawei, HiSilicon |
|
|
R2-152468
|
Considerations on Relay initiation |
Huawei, HiSilicon |
|
|
R2-152469
|
UE-to-Network Relay connection establishment procedure |
Huawei, HiSilicon |
|
|
R2-152470
|
General discussion on UE status information for RAT aggregation |
Samsung |
|
|
R2-152471
|
User plane procedures for UE to Network Relays |
Huawei, HiSilicon |
|
|
R2-152472
|
Options of control plane architectures for UE-to-Network relay |
Huawei, HiSilicon |
|
|
R2-152473
|
Further discussion on WLAN interworking for Rel-13 |
Ericsson |
|
|
R2-152474
|
eSidelink: Relay (re-)selection related issues |
Samsung |
|
|
R2-152475
|
WLAN measurement reporting |
Ericsson |
|
|
R2-152476
|
Running MAC CR for CA enhancements beyond 5 CC |
Ericsson |
|
|
R2-152477
|
MAC CE impact due to CA enhancements |
Ericsson |
|
|
R2-152478
|
Extending MAC CEs for Carrier Aggregation enhancements beyond 5 CCs |
Ericsson |
|
|
R2-152479
|
In-device coexistence in LAA |
Ericsson |
|
|
R2-152480
|
RRM Measurements for LAA |
Ericsson |
|
|
R2-152481
|
Further details on routing restrictions in LAA |
Ericsson |
|
|
R2-152482
|
Dropping of initial UL HARQ transmission in LAA |
Ericsson |
|
|
R2-152483
|
Moving of UL HARQ processes between cells in LAA |
Ericsson |
|
|
R2-152484
|
Random Access and RLM in LAA |
Ericsson |
|
|
R2-152485
|
On CA BW class signalling |
Nokia Networks |
|
|
R2-152486
|
Restriction to CA capability signalling |
Nokia Networks |
|
|
R2-152487
|
Restriction to CA capability signalling |
Nokia Networks |
|
|
R2-152488
|
Restriction to CA capability signalling |
Nokia Networks |
|
|
R2-152489
|
MBMS Session Suspending Indication |
Vodafone, Qualcomm Incorporated, ZTE, Potevio, ALU, Huawei |
|
|
R2-152490
|
Consideration on UL delay measurement |
Qualcomm Incorporated |
|
|
R2-152491
|
Integrating MTSI QoE Metrics into MDT |
Qualcomm Incorporated, CMCC |
|
|
R2-152492
|
Text Proposal for considerations for longer DRX configuration options |
Nokia Networks |
|
|
R2-152493
|
Skeleton TR for Study on latency reduction techniques for LTE |
Rapporteur |
|
|
R2-152494
|
SC-PTM Configuration |
Qualcomm Incorporated, Huawei, HiSilicon |
|
|
R2-152495
|
Transport channel for public safety discovery |
Huawei, HiSilicon |
|
|
R2-152496
|
Draft Work Plan for Study on latency reduction techniques for LTE |
Rapporteur |
|
|
R2-152497
|
On NAICS Capability Signallling |
Nokia Networks |
|
|
R2-152498
|
Consideration on support of non-cell specific transmissions for SC-PTM |
Qualcomm Incorporated |
|
|
R2-152499
|
Discovery transmission on inter-carriers of intra-PLMN and inter-PLMN |
Huawei, HiSilicon |
|
|
R2-152500
|
Analysis and comparison of options for the autonomous state transition |
Nokia Networks |
|
|
R2-152501
|
Addressing for ProSe one-to-one communication |
Huawei, HiSilicon |
|
|
R2-152502
|
TP for SC-PTM Protocol Impact |
Qualcomm Incorporated, Huawei, HiSilicon |
|
|
R2-152503
|
Consideration on cell specific priority |
Huawei, HiSilicon |
|
|
R2-152504
|
Extension of Frequency Priorities |
Nokia Networks |
|
|
R2-152505
|
Corrections on requirements of sidelink reception in TS 36.306 |
Huawei, HiSilicon |
|
|
R2-152506
|
Upper range for extended DRX |
Huawei, HiSilicon |
|
|
R2-152507
|
Clarification to usage of field simultaneousAckNackAndCQI-Format3 |
Intel Corporation |
|
|
R2-152508
|
Measurement events for PUCCH SCell |
CMCC |
|
|
R2-152509
|
Clarification to usage of field simultaneousAckNackAndCQI-Format3 |
Intel Corporation |
|
|
R2-152510
|
Extending MAC protocol header |
Ericsson |
|
|
R2-152511
|
Deactivation timer on PUCCH SCell |
CMCC |
|
|
R2-152512
|
Potential issues of SR on PUCCH SCell |
NEC |
|
|
R2-152513
|
SR on PUCCH-SCell |
Ericsson |
|
|
R2-152514
|
On the usage of UE RSSI measurements |
CMCC |
|
|
R2-152515
|
Dealing with WLAN traffic overloading for LTE/WLAN aggregation |
KDDI Corporation |
|
|
R2-152516
|
Extending RLC protocol header |
Ericsson |
|
|
R2-152517
|
Further considerations on uplink transmission |
CMCC |
|
|
R2-152518
|
Extending PDCP protocol header |
Ericsson |
|
|
R2-152519
|
Frame work for interworking enhancement in Rel-13 |
China Telecom, Huawei, HiSilicon, CATT |
|
|
R2-152520
|
Configuration of PUCCH SCell |
Ericsson |
|
|
R2-152521
|
Packet delay and drop rate for MDT QoS measurements |
Ericsson |
|
|
R2-152522
|
LBT options for UL transmission |
NEC |
|
|
R2-152523
|
Impact of carrier aggregation enhancement on L2 UP protocols |
Ericsson |
|
|
R2-152524
|
Overlapping of D-SR resources |
NEC |
|
|
R2-152525
|
Random Access Response for Rel-13 MTC UE |
NEC |
|
|
R2-152526
|
Coverage enhancement information for paging optimization |
NEC |
|
|
R2-152527
|
RAN2 work on ACDC |
NEC |
|
|
R2-152528
|
Deactivation timer on PUCCH SCell |
Ericsson |
|
|
R2-152529
|
Signalling aspects to support more than 5 carriers |
Ericsson |
|
|
R2-152530
|
SR on PUCCH SCell |
Ericsson |
|
|
R2-152531
|
WLAN-LTE control plane framework |
NEC |
|
|
R2-152532
|
Discussion on idle mode UE handling of SC-PTM |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152533
|
Clarification on MFBI related issues |
Huawei, HiSilicon |
|
|
R2-152534
|
Discussion on end to end SC-PTM solutions |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152535
|
MFBI related issues |
Huawei, HiSilicon |
|
|
R2-152536
|
Discussion on service continuity support for SC-PTM |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152537
|
Discussion on open issues: functionalities required for support of SC-PTM |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152538
|
Capability signalling for more than 5 carriers |
Ericsson |
|
|
R2-152539
|
WLAN-LTE user plane flow control |
NEC |
|
|
R2-152540
|
Discussion on UL bearer split for Dual Connectivity |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152541
|
Clarification on UL 64QAM capability |
Huawei, HiSilicon, Vodafone, Telecom Italia, TeliaSonera, Deutsche Telekom, Sprint |
|
|
R2-152542
|
SC-PTM Configuration |
NEC |
|
|
R2-152543
|
Considerations on the measurement for LTE/WLAN aggregation and interworking enhancements |
China Telecom |
|
|
R2-152544
|
ROHC in SC-PTM |
NEC |
|
|
R2-152545
|
Correction on conditions for sidelink operation |
ZTE |
|
|
R2-152546
|
Service continuity for ProSe UE-to-network relay |
ZTE |
|
|
R2-152547
|
Relay selection and reselection |
ZTE |
|
|
R2-152548
|
On connection establishment over PC5 |
ZTE |
|
|
R2-152549
|
Discussion on relay initiation |
ZTE |
|
|
R2-152550
|
Coordination for UE-to-Network Relays |
NEC |
|
|
R2-152551
|
SIB content relevant |
NEC |
|
|
R2-152552
|
Resource allocation for relay UE and remote UE |
ZTE |
|
|
R2-152553
|
Considerations on the transport protocol for public safety use cases |
ZTE |
|
|
R2-152554
|
Activation trigger on UE-to-Network Relay initiation |
NEC |
|
|
R2-152555
|
SIBs Scheduling |
NEC |
|
|
R2-152556
|
On ProSe Discovery for inter-frequency and inter-PLMN |
ZTE |
|
|
R2-152557
|
Paging transmission to Rel-13 MTC UEs |
NEC |
|
|
R2-152558
|
Priorities for ProSe communication |
ZTE |
|
|
R2-152559
|
Service continuity for ProSe Direct Communication |
ZTE |
|
|
R2-152560
|
Role of eNB when remote UE is in coverage |
Qualcomm |
|
|
R2-152561
|
Considerations on extended DRX in Connected mode |
ZTE |
|
|
R2-152562
|
WLAN Security for LTE+WLAN Aggregation in LTE R13 |
InterDigital Communications |
|
|
R2-152563
|
WLAN Reliability with LTE+WLAN Aggregation in LTE R13 |
InterDigital Communications |
|
|
R2-152564
|
Quality-of-Service (QoS) with LTE+WLAN Aggregation in LTE R13 |
InterDigital Communications |
|
|
R2-152565
|
eSidelink: Signalling options for configuring UE to act as relay |
Samsung |
|
|
R2-152566
|
Bearer Architecture for LTE+WLAN Aggregation in LTE R13 |
InterDigital Communications |
|
|
R2-152567
|
Relay Selection and Reselection Mechanisms |
Qualcomm |
|
|
R2-152568
|
Cell-specific prioritization for load balancing |
Ericsson |
|
|
R2-152569
|
Cell-specific prioritization for idle mode load balancing (Alt 1) |
Ericsson |
|
|
R2-152570
|
Inter Frequency and Inter PLMN Discovery |
Qualcomm |
|
|
R2-152571
|
Reply LS on public safety discovery |
Qualcomm |
|
|
R2-152572
|
Cell-specific prioritization for idle mode load balancing (Alt 2) |
Ericsson |
|
|
R2-152573
|
Cell-specific prioritization for idle mode load balancing |
Ericsson |
|
|
R2-152574
|
Idle mode behaviour for load balancing |
Ericsson |
|
|
R2-152575
|
Priority handling for Sidelink Direct Communication |
Qualcomm |
|
|
R2-152576
|
Out-of-Coverage discovery for Public Safety |
Qualcomm |
|
|
R2-152577
|
Problems due to limitation of UMTS neighbour cell lists |
Huawei, HiSilicon, Vodafone |
|
|
R2-152578
|
Connected mode Mobility for LC and CE |
Ericsson |
|
|
R2-152579
|
DRAFT Response LS on proposed method of restricting access to IOPS cells |
Ericsson |
|
|
R2-152580
|
Link Adaptation and Reception of SC-PTM in RRC_IDLE |
Nokia Networks |
|
|
R2-152581
|
Discussion on UE-to-Network Relay selection |
Nokia Networks |
|
|
R2-152582
|
Discussion on service continuity issues associtated with ProSe UE-to-Network relays |
Nokia Networks |
|
|
R2-152583
|
Mobility aspects of WLAN aggregation |
BlackBerry UK Limited |
|
|
R2-152584
|
Details of relay discovery transmissions and measurement reporting |
Ericsson |
|
|
R2-152585
|
MCCH change notification for 1.4 MHz |
Ericsson |
|
|
R2-152586
|
Correction to MCCH monitoring in 1.4 MHz |
Ericsson |
|
|
R2-152587
|
MRJC progress on interface between LTE and WLAN |
CMCC |
|
|
R2-152588
|
MCPTT service over relays: In-coverage to Out-of-coverage transition |
BlackBerry UK Limited |
|
|
R2-152589
|
MCPTT service over relays: In-coverage to Out-of-coverage transition |
BlackBerry UK Limited |
|
|
R2-152590
|
User preference aspects of WLAN aggregation and interworking |
BlackBerry UK Limited |
|
|
R2-152591
|
User plane aspects of WLAN aggregation |
BlackBerry UK Limited |
|
|
R2-152592
|
MCPTT service over relays: Out-of-coverage to In-coverage transition |
BlackBerry UK Limited |
|
|
R2-152593
|
RAT-independent indoor-positioning solution for E-UTRA and UTRA |
Apple, Broadcom, Sony Corporation |
|
|
R2-152594
|
Comparison of options for authorising access to the WLAN |
BlackBerry UK Limited |
|
|
R2-152595
|
Field-test results of device-based hybrid Indoor positioning solution |
Apple, Broadcom |
|
|
R2-152596
|
Text Proposal on UE-based Rat-Independent Indoor positioning |
Apple, Broadcom |
|
|
R2-152597
|
Clarifications for Rel-11 IDC framework |
BlackBerry UK Limited |
|
|
R2-152598
|
Consideration of bearer mapping for ProSe UE-to-Network Relays |
Kyocera |
|
|
R2-152599
|
IDC aspects of LAA |
BlackBerry UK Limited, Sony |
|
|
R2-152600
|
Consideration of establishment of ProSe UE-to-Network Relays |
Kyocera |
|
|
R2-152601
|
Correction to IDC signalling |
BlackBerry UK Limited |
|
|
R2-152602
|
Consideration of establishment of ProSe UE-to-Network Relays |
Kyocera |
|
|
R2-152603
|
PHR format for enhanced CA |
Alcatel-Lucent Shanghai Bell, Alcatel-Lucent |
|
|
R2-152604
|
User plane for LTE-WLAN aggregation |
Ericsson |
|
|
R2-152605
|
Activation/Deactivation MAC CE for enhanced CA |
Alcatel-Lucent Shanghai Bell, Alcatel-Lucent |
|
|
R2-152606
|
Consideration of ProSe discovery in partial and outside network coverage |
Kyocera |
|
|
R2-152607
|
PDCP data transfer procedure for uplink bearer split |
Ericsson |
|
|
R2-152608
|
BSR report for enhanced CA |
Alcatel-Lucent Shanghai Bell, Alcatel-Lucent |
|
|
R2-152609
|
Deactivation timer on PUCCH SCell |
Alcatel-Lucent Shanghai Bell, Alcatel-Lucent |
|
|
R2-152610
|
Enhanced ProSe discovery for intra-PLMN |
Kyocera |
|
|
R2-152611
|
Enhanced ProSe discovery for intra-PLMN |
Kyocera |
|
|
R2-152612
|
Considerations for nb-SIB Timing and Repetition |
Sierra Wireless S.A. |
|
|
R2-152613
|
WLAN access selection for LTE-WiFi aggregation and interworking |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152614
|
Flow control for LTE-WiFi aggregation |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152615
|
LTE-WiFi aggregation based on Rel-12 LTE Dual Connectivity architecture 2C |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152616
|
Further considerations on the user plane architecture for LTE-WiFi aggregation |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152617
|
Correction on terminology for uplink direction of split bearer |
Ericsson |
|
|
R2-152618
|
Considerations of legacy WLAN for LTE-WiFi aggregation |
Alcatel-Lucent, AT&T, Sprint, T-Mobile USA |
|
|
R2-152619
|
Random Access procedure considerations for LC and EC UEs |
InterDigital Communications |
|
|
R2-152620
|
Considerations on paging procedures for LC and EC UEs |
InterDigital Communications |
|
|
R2-152621
|
Consideration of preliminary issues on Extended DRX |
Kyocera |
|
|
R2-152622
|
Sidelink BSR when no Sidelink data is available |
Ericsson |
|
|
R2-152623
|
Sidelink BSR when no Sidelink data is available |
Ericsson |
|
|
R2-152624
|
Logging of latency in call establishment |
Kyocera |
|
|
R2-152625
|
Logged MDT under IDC |
Kyocera |
|
|
R2-152626
|
Control plane aspects for WLAN aggregation |
Ericsson |
|
|
R2-152627
|
Potential solutions for UL latency measurements |
Kyocera |
|
|
R2-152628
|
Further consideration of RRM measurement on LAA cell |
Kyocera |
|
|
R2-152629
|
Initial consideration of fast uplink access solution |
Kyocera |
|
|
R2-152630
|
Possible solutions for multi-carrier load distribution |
Kyocera |
|
|
R2-152631
|
Link adaptation for SC-PTM transmission |
Kyocera |
|
|
R2-152632
|
Scope of work in RAN2 on Indoor positioning SI |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152633
|
eMBMS on barred cells and DL only bands |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152634
|
Service continuity with SC-PTM |
Kyocera |
|
|
R2-152635
|
Solution for multicarrier load distribution |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152636
|
Consideration of DRX in SC-PTM transmission |
Kyocera |
|
|
R2-152637
|
MDT for VoIP call drop |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152638
|
Supporting eCDRX in RRC connected |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152639
|
Radio interface enhancements for SC-PTM transmission |
Kyocera |
|
|
R2-152640
|
PDCP PDU delivery for uplink split bearer |
Kyocera |
|
|
R2-152641
|
Consideration on lower layer function and 2C/3C bearer |
Kyocera |
|
|
R2-152642
|
Enhanced ProSe discovery for inter-PLMN |
Kyocera |
|
|
R2-152643
|
Clarification regarding no MBMS sessions ongoing |
Samsung |
|
|
R2-152644
|
MIB for Rel-13 low complexity and coverage enhanced UEs |
Ericsson |
|
|
R2-152645
|
SIB for Rel-13 low complexity and coverage enhanced UEs |
Ericsson |
|
|
R2-152646
|
Correction regarding SL |
Samsung |
|
|
R2-152647
|
SI update for Rel-13 low complexity and coverage enhanced UEs |
Ericsson |
|
|
R2-152648
|
DRAFT LS on reception of SI transmissions for Rel-13 low complexity and enhanced coverage UEs |
Ericsson |
|
|
R2-152649
|
Random access for Rel-13 low complexity and coverage enhanced UEs |
Ericsson |
|
|
R2-152650
|
Paging mechanism for Rel-13 low complexity and coverage enhanced UEs |
Ericsson |
|
|
R2-152651
|
HARQ and TTI bundling for Rel-13 low complexity and coverage enhanced UEs |
Ericsson |
|
|
R2-152652
|
Further considerations on paging for Rel.13 eMTC |
Qualcomm Incorporated |
|
|
R2-152653
|
Random Access considerations for Rel13 eMTC |
Qualcomm Incorporated |
|
|
R2-152654
|
AP selection for LTE WLAN aggregation |
Huawei, HiSilicon |
|
|
R2-152655
|
Authentication and encryption between UE and WLAN for aggregation |
Huawei, HiSilicon |
|
|
R2-152656
|
Details of the IP tunnel solution for LTE-WLAN aggregation |
Huawei, HiSilicon |
|
|
R2-152657
|
Details of the GTP-U solution for LTE-WLAN aggregation |
Huawei, HiSilicon |
|
|
R2-152658
|
Comparison of GTP-U and IP tunnel solutions for LTE-WLAN aggregation |
Huawei, HiSilicon |
|
|
R2-152659
|
MAC Impacts for Uplink Operation in Unlicensed Spectrum |
InterDigital Communications |
|
|
R2-152660
|
Switch on/off the UL feedback for SC-PTM |
Huawei, Qualcomm Incorporated, CATR, NEC, SouthernLINC, China Unicom, China Telecom, ZTE, ZTE Trunking, Potevio, TD-Tech, MediaTek Inc., HiSilicon |
|
|
R2-152661
|
Prohibit timer for SR |
Ericsson |
|
|
R2-152662
|
Prohibit timer for SR |
Ericsson |
|
|
R2-152663
|
Prohibit timer for SR |
Ericsson |
|
|
R2-152664
|
Qualitative comparison between MBSFN and SC-PTM for public safety |
Huawei, CATR, SouthernLINC, CMCC, China Unicom, China Telecom, ZTE, ZTE Trunking, Potevio, TD-Tech, CATT, MediaTek Inc., HiSilicon |
|
|
R2-152665
|
On the issue of MCCH change notification for 1.4 MHz cell |
Huawei, HiSilicon |
|
|
R2-152666
|
Missing RAN1 agreements in TS 36.306 |
Qualcomm |
|
|
R2-152667
|
Understanding DRX operation with LAA |
Motorola Mobility |
|
|
R2-152668
|
Radio Bearer combinations for EVS over CS |
Qualcomm Incorporated |
|
|
R2-152669
|
ProSe RAN functional description for realizing off-network MCPTT priority |
U.S. Department of Commerce (U.S. DOC) |
|
|
R2-152670
|
Maximum Uplink Timing Difference between CGs in LTE DC |
InterDigital Communications |
|
|
R2-152671
|
Hyper-SFN for extended DRX in UTRAN |
Qualcomm Incorporated |
|
|
R2-152672
|
LC-MTC UE Issue related to SI reception |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152673
|
TP for Extended DRX in UTRAN |
Qualcomm Incorporated |
|
|
R2-152674
|
Considerations on PRACH for LC-MTC |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152675
|
SIB/SI Design for LC-MTC |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152676
|
Sidelink Access Stratum Layer Priority Handling |
Sharp |
|
|
R2-152677
|
ProSe UE-to-Network Relay Initiation |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152678
|
Group Priorities for ProSe Communication |
InterDigital Communications |
|
|
R2-152679
|
UE-to-network relay Service Continuity |
Alcatel-Lucent, Alcatel-Lucent Shanghai Bell |
|
|
R2-152680
|
On Relay Selection/Reselection for UE-to-Network Relays |
InterDigital Communications |
|
|
R2-152681
|
Connection Establishment for UE-to-Network Relays |
InterDigital Communications |
|
|
R2-152682
|
On ProSe Discovery for inter-carrier and inter-PLMN |
InterDigital Communications |
|
|
R2-152683
|
Public safety perspectives on GCSE_LTE latency requirements for evaluating UE-Network Relay solutions |
U.S. Department of Commerce (U.S. DOC), Institute for Information Industry (III) |
|
|
R2-152684
|
Consideration on the Relay UE selection by remote UE |
Sharp |
|
|
R2-152685
|
Multi-carrier HSUPA with CS |
Nokia Networks |
|
|
R2-152686
|
Higher-order modulations for enhanced DL/UL for CELL_FACH |
Nokia Networks |
|
|
R2-152687
|
Transport block size reduction for extended UL coverage |
Nokia Networks |
|
|
R2-152688
|
Analysis and comparison of options for the extended URA_PCH state |
Nokia Networks |
|
|
R2-152689
|
Paging optimization |
Huawei, HiSilicon |
|
|
R2-152690
|
Draft response LS on Paging Optimization considering supported frequency bands |
Huawei, HiSilicon |
|
|
R2-152691
|
Paging optimization |
Huawei, HiSilicon |
|
|
R2-152692
|
Introduction of new DL UE categories 15&16 |
Huawei, HiSilicon, Qualcomm Incorporated, Samsung, Nokia Networks |
|
|
R2-152693
|
Introduction of new DL UE categories 15&16 |
Huawei, HiSilicon, Qualcomm Incorporated, Samsung, Nokia Networks |
|
|
R2-152694
|
Activation/ deactivation of SCells for CA enhancement B5C |
Potevio |
|
|
R2-152695
|
Discussion on ProSe Discovery in Partial and Outside Network Coverage |
Potevio |
|
|
R2-152696
|
IDLE mode SC-PTM UE mobility issues |
Potevio |
|
|
R2-152697
|
Consideration of SC-PTM RNTI and SC-PTM configuration |
Potevio |
|
|
R2-152698
|
Random access procedure for coverage enhanced UE |
Sharp |
|
|
R2-152699
|
Clarification on applying RRC reconfiguration for si-RequestForHO using autonomous gaps |
Qualcomm Incorporated |
|
|
R2-152700
|
On the need of separating user plane solutions for LTE-WLAN Radio Level Integration based on Dual Connectivity (DC) 3C and 2C |
Broadcom Corporation |
|
|
R2-152701
|
User Plane Architecture solutions based on DuCo Solution 3C ('bearer split') |
Broadcom Corporation |
|
|
R2-152702
|
User Plane Architecture solution based on DuCo Solution 2C ('bearer switch') |
Broadcom Corporation |
|
|
R2-152703
|
Uplink considerations for LAA-LTE |
Qualcomm Incorporated |
|
|
R2-152704
|
PRACH repetition level modelling |
Sharp |
|
|
R2-152705
|
Discovery and selection of a network that provides cellular - WLAN aggregation |
Broadcom Corporation |
|
|
R2-152706
|
Disable default configuration for CELL_FACH |
Qualcomm Incorporated |
|
|
R2-152707
|
Disable default configuration for CELL_FACH |
Qualcomm Incorporated |
|
|
R2-152708
|
Considerations on RRM measurements for LAA-LTE |
Qualcomm Incorporated |
|
|
R2-152709
|
Idle mode mobility support for Rel.13 eMTC |
Qualcomm Incorporated |
|
|
R2-152710
|
New format for Activation/Deactivation MAC Control Element |
Samsung |
|
|
R2-152711
|
Potential impact of LBT support for LAA |
Samsung |
|
|
R2-152712
|
How to support SR in PUCCH SCell |
Samsung |
|
|
R2-152713
|
Activation procedure for PUCCH SCell |
Samsung |
|
|
R2-152714
|
On the measurement events in Rel-13 CA enhancements |
Samsung |
|
|
R2-152715
|
On the SCell deactivation timer for PUCCH SCell |
samsung |
|
|
R2-152716
|
New format for PHR MAC CE format |
Samsung |
|
|
R2-152717
|
Specification impact by CA up to 32 CCs |
Samsung |
|
|
R2-152718
|
Support for CIF of 3 bits in CA enhancements |
Samsung |
|
|
R2-152719
|
DRX enhancements for Rel-13 low complexity MTC |
Samsung |
|
|
R2-152720
|
Providing QoS Handling over WLAN |
Broadcom Corporation |
|
|
R2-152721
|
On the SIB contents |
Samsung |
|
|
R2-152722
|
New RACH procedure for Rel-13 Low Complexity UE |
Samsung |
|
|
R2-152723
|
Cell Selection/Reselection for Rel-13 low complexity MTC |
Samsung |
|
|
R2-152724
|
Enhancements for Refined MDT Measurements |
Samsung |
|
|
R2-152725
|
Packet delay measurement for Rel-13 MDT enhancements |
Samsung |
|
|
R2-152726
|
Overview on DRX enhancements |
Samsung |
|
|
R2-152727
|
MIB for Rel-13 MTC |
KT Corp. |
|
|
R2-152728
|
Method of restricting access to IOPS cells |
Ericsson |
|
|
R2-152729
|
Draft response LS on the issue of 1.4MHz MBMS test |
Ericsson |
|
|
R2-152730
|
Considerations on LTE-WLAN aggregation |
LG Electronics Inc |
|
|
R2-152731
|
Initiation of relay function |
LG Electronics Inc. |
|
|
R2-152732
|
Traffic steering command for WLAN interworking enhancement |
LG Electronics Inc |
|
|
R2-152733
|
WLAN measurement for LTE-WLAN aggregation and interworking enhancements |
LG Electronics Inc |
|
|
R2-152734
|
Relay selection entity for in-coverage UE |
LG Electronics Inc. |
|
|
R2-152735
|
Consideration on RSSI report on unlicensed frequency |
LG Electronics Inc |
|
|
R2-152736
|
Make-after-break approach for remote UE |
LG Electronics Inc. |
|
|
R2-152737
|
Idle mode mobility for CE |
LG Electronics Inc. |
|
|
R2-152738
|
Control Plane Architecture for LTE-WLAN Aggregation |
Qualcomm Incorporated, KT Corp., CMCC, Intel Corporation, KDDI, China Telecom |
|
|
R2-152739
|
WLAN Selection and Mobility |
Qualcomm Incorporated, KT Corp., China Telecom |
|
|
R2-152740
|
Scope of Latency Reduction Study |
Qualcomm Incorporated |
|
|
R2-152741
|
RLM on PUCCH SCell |
Qualcomm Incorporated |
|
|
R2-152742
|
Dual SR Procedures |
Qualcomm Incorporated |
|
|
R2-152743
|
Idle mode mobility support for Rel.13 eMTC |
Qualcomm Incorporated |
|
|
R2-152744
|
RRM Measurements for WLAN |
Qualcomm Incorporated |
|
|
R2-152745
|
Considerations for Idle UE redistribution in HetNets |
LG Electronics Inc. |
|
|
R2-152746
|
Support of PLMN selection |
LG Electronics Inc. |
|
|
R2-152747
|
Support of PLMN selection |
LG Electronics Inc. |
|
|
R2-152748
|
Interruption of Uu operation by sidelink |
LG Electronics Inc. |
|
|
R2-152749
|
Introduction of SL category |
LG Electronics Inc. |
|
|
R2-152750
|
Radio resource provisioning for relay operation |
LG Electronics Inc. |
|
|
R2-152751
|
Considerations on RS-SINR Measurement for load balancing |
LG Electronics Inc. |
|
|
R2-152752
|
Relay selection by remote UE |
LG Electronics Inc. |
|
|
R2-152753
|
Revisit prioritization between discovery and communication |
LG Electronics Inc. |
|
|
R2-152754
|
Release of Relay-UE connection |
LG Electronics Inc. |
|
|
R2-152755
|
Cell selected for discovery on non-PCell |
LG Electronics Inc. |
|
|
R2-152756
|
Measurements for non-PCell discovery announcement |
LG Electronics Inc. |
|
|
R2-152757
|
Non-Pcell discovery configuration provisioning to UE |
LG Electronics Inc. |
|
|
R2-152758
|
Sidelink gap for discovery |
LG Electronics Inc. |
|
|
R2-152759
|
Resource selection for SL-DCH |
LG Electronics Inc. |
|
|
R2-152760
|
RAN2 Impact of ProSe Priorities |
Huawei, HiSilicon |
|
|
R2-152761
|
Paging Robustness |
Mediatek Inc. |
|
|
R2-152762
|
Requirements for extended connected-mode DRX in LTE� |
Mediatek Inc. |
|
|
R2-152763
|
Support of using provisioned resources and PLMN selection for ProSe comm |
LG Electronics Inc. |
|
|
R2-152764
|
UL Latency measurement |
Mediatek Inc. |
|
|
R2-152765
|
Data Loss measurement for GBR traffic |
Mediatek Inc. |
|
|
R2-152766
|
Ping pong using current mechanisms |
Mediatek Inc. |
|
|
R2-152767
|
Paging for low complexity UE and enhanced coverage |
Mediatek Inc. |
|
|
R2-152768
|
Relay selection and reselection |
Mediatek Inc. |
|
|
R2-152769
|
Discovery outside full coverage |
Mediatek Inc. |
|
