3GPP TDocs (written contributions) at meeting
Meeting: R1-79 - 2014-11-17 to 2014-11-21, San Francisco
meeting id: R1-79 (click id for more info on this meeting)Click on the Tdoc to open its file.
TDoc | Title | Source | Remarks |
---|---|---|---|
R1‑144545 | Draft Agenda for RAN1#79 meeting | RAN1 Chairman | - |
R1‑144546 | Final Report of RAN1#78bis meeting | MCC | - |
R1‑144547 | Reply LS on introducing the EVS codec in MTSI | CT1, Ericsson | - |
R1‑144548 | LS on Octet alignment in ProSe Direct Discovery | CT1, InterDigital | - |
R1‑144549 | LS on monitoring PDCCH with SPS C-RNTI in DC | RAN2, CMCC | - |
R1‑144550 | Reply LS on Introducing the ProSe Authorized IE | RAN3, Ericsson | - |
R1‑144551 | Reply LS on DRS measurements | RAN4, Huawei | - |
R1‑144552 | Reply LS on revised Rel-12 feature list | RAN4, NTT DOCOMO | - |
R1‑144553 | LS on IncMon | RAN4, Intel | - |
R1‑144554 | Reply LS on introducing the new RSRQ measurement definition | RAN4, NTT DOCOMO | - |
R1‑144555 | Coverage enhancement targets for MTC | Ericsson | - |
R1‑144556 | UE complexity reduction techniques for MTC | Ericsson | - |
R1‑144557 | UE power consumption reduction techniques for MTC | Ericsson | - |
R1‑144558 | Physical channel timing relationships for MTC | Ericsson | - |
R1‑144559 | Physical resource allocation for MTC | Ericsson | - |
R1‑144560 | Link performance for data transmission for MTC | Ericsson | - |
R1‑144561 | PUCCH for MTC | Ericsson | - |
R1‑144562 | RAR and Paging for MTC | Ericsson | - |
R1‑144563 | SIB transmission for MTC | Ericsson | - |
R1‑144564 | PSS/SSS and PBCH for MTC | Ericsson | - |
R1‑144565 | PRACH for MTC | Ericsson | - |
R1‑144566 | Final details of D2D synchronization signals | Huawei, HiSilicon | - |
R1‑144567 | On the necessity of transmitting the uplink system bandwidth on the PD2DSCH | Huawei, HiSilicon | - |
R1‑144568 | The remaining issues for PD2DSCH content and channel design | Huawei, HiSilicon | - |
R1‑144569 | D2D measurement definitions | Huawei, HiSilicon | - |
R1‑144570 | Transmission and reception in the D2DSS/PD2DSCH overlapped resource | Huawei, HiSilicon | - |
R1‑144571 | D2D and WAN coexistence | Huawei, HiSilicon | - |
R1‑144572 | Optimization for Mode 2 resource selection | Huawei, HiSilicon | - |
R1‑144573 | Measurement, reporting, and configuration of coverage enhancement | Huawei, HiSilicon | - |
R1‑144574 | Analysis of RAN1 aspects of broadcast TBS support | Huawei, HiSilicon | - |
R1‑144575 | On simultaneous reception for MTC UEs | Huawei, HiSilicon | - |
R1‑144576 | DL TM and CQI reporting reduction for LC UEs | Huawei, HiSilicon | - |
R1‑144577 | Analysis of performance impacts of eliminating downlink TMs | Huawei, HiSilicon | - |
R1‑144578 | Relationship between cost and complexity reduction in an LTE modem | Huawei, HiSilicon | - |
R1‑144579 | Reporting relaxations for power consumption reduction in MTC UEs | Huawei, HiSilicon | - |
R1‑144580 | Impacts of reduced maximum TBS support | Huawei, HiSilicon | - |
R1‑144581 | DL physical control channels for MTC | Huawei, HiSilicon | - |
R1‑144582 | Uplink control channel design for MTC UEs | Huawei, HiSilicon | - |
R1‑144583 | Control-less transmission of common messages for low complexity Rel-13 UEs | Huawei, HiSilicon | - |
R1‑144584 | Paging and RAR transmission for MTC and CE UEs | Huawei, HiSilicon | - |
R1‑144585 | PSS/SSS coverage enhancement | Huawei, HiSilicon | - |
R1‑144586 | PRACH coverage enhancement | Huawei, HiSilicon | - |
R1‑144587 | PBCH/MIB coverage enhancement | Huawei, HiSilicon | - |
R1‑144588 | Coverage enhancement for MTC UEs - capability or mimicry? | Huawei, HiSilicon | - |
R1‑144589 | Preliminary results of coexistence evaluation for LAA | Huawei, HiSilicon | - |
R1‑144590 | Further analysis on the required functionalities for LAA | Huawei, HiSilicon | - |
R1‑144591 | Detailed solutions for carrier selection and LBT for LAA | Huawei, HiSilicon | - |
R1‑144592 | Remaining Details on Deployment Scenarios and Evaluation Methodology | Huawei, HiSilicon | - |
R1‑144593 | Performance Evaluation of Rel. 12 Downlink MIMO Using 3D-UMa and 3D-UMi Channel Models | Huawei, HiSilicon | - |
R1‑144594 | Potential Enhancements with 2D Antenna Array | Huawei, HiSilicon | - |
R1‑144595 | Further discussion on evaluated scenarios and the performance metric for indoor positioning | Huawei, HiSilicon | - |
R1‑144596 | Further discussion on channel model for indoor positioning | Huawei, HiSilicon | - |
R1‑144597 | Discussion on the simulation methodology for baseline indoor positioning technologies | Huawei, HiSilicon | - |
R1‑144598 | Discussion on the positioning enhancement for indoor scenarios | Huawei, HiSilicon | - |
R1‑144599 | Coverage Enhancement Power Consumption Breakdown and Proposals | Sierra Wireless | - |
R1‑144600 | Coverage Enhancement PUSCH Simulation Results and Proposals | Sierra Wireless | - |
R1‑144601 | Coverage Enhancement PBCH Simulation Results and Proposals | Sierra Wireless | - |
R1‑144602 | Evaluation assumptions and methodologies for modeling of PHY layer options for LAA | Cisco | - |
R1‑144603 | Initial co-existence evaluations comparing LAA versus Wi-Fi | Cisco | - |
R1‑144604 | Candidate Detailed Solutions for DL Transmissions in Unlicensed Spectrum | Cisco | - |
R1‑144605 | 36.213 CR0484 (Rel-12, F) Correction on eIMTA UL/DL configuration determination | CATT, Panasonic | - |
R1‑144606 | Subframe offset for NZP CSI-RS in DRS | CATT | - |
R1‑144607 | 36.213 CR0485 (Rel-12, F) Correction on TDD-FDD CA with TDD Pcell | CATT | - |
R1‑144608 | Design of PD2DSS and SD2DSS | CATT | - |
R1‑144609 | Remaining design for PD2DSCH | CATT | - |
R1‑144610 | D2D synchronization procedure in partial and out-of-coverage scenario | CATT | - |
R1‑144611 | Synchronization resource allocation for out-of-coverage UEs | CATT | - |
R1‑144612 | Remaining aspects of transmission timing for D2D | CATT | - |
R1‑144613 | On D2D resource collision | CATT | - |
R1‑144614 | TDD configuration and resource allocation in OOC | CATT | - |
R1‑144615 | Remaining issues on dual connectivity power control | CATT | - |
R1‑144616 | Other open issues of dual connectivity | CATT | - |
R1‑144617 | Coverage enhancement targets for Rel-13 low complexity UEs and other UEs | CATT | - |
R1‑144618 | Discussion on UE RF bandwidth reduction | CATT | - |
R1‑144619 | PUSCH coverage enhancement for Rel-13 low complexity UEs and other UEs | CATT | - |
R1‑144620 | Physical downlink control channel for Rel-13 low complexity UEs | CATT | - |
R1‑144621 | PHICH for Rel-13 low complexity UEs | CATT | - |
R1‑144622 | PBCH coverage enhancement | CATT | - |
R1‑144623 | PRACH coverage enhancement | CATT | - |
R1‑144624 | Remaining details of LAA evaluation methodologies | CATT | - |
R1‑144625 | Listen before talk for LAA | CATT | - |
R1‑144626 | Discontinuous transmission on Scell for LAA | CATT | - |
R1‑144627 | Data and control signalling transmissions for LAA | CATT | - |
R1‑144628 | Other functionalities for LAA | CATT | - |
R1‑144629 | Performance of Rel.12 MIMO based EBF/FDMIMO with 8 TXRU | CATT | - |
R1‑144630 | Discussion on standard transparent baseline schemes for EBF/FD-MIMO comparison | CATT | - |
R1‑144631 | Evaluation of FD MIMO with beamformed CSI-RS with 16-64 TXRU | CATT | - |
R1‑144632 | Discussion on potential standard enhancements targeting 2D antenna array | CATT | - |
R1‑144633 | Evaluation of FD MIMO with 16-64 TXRU | CATT | - |
R1‑144634 | On cell association of FD MIMO evaluation | CATT | - |
R1‑144635 | 36.211 CR0196r2 (Rel-12, B) Inclusion of ProSe | Ericsson | - |
R1‑144636 | 36.211 CR0197r2 (Rel-12, B) Inclusion of small-cell enhancements | Ericsson | - |
R1‑144637 | Discussion on D2DSS and PD2DSCH resource allocation | Fujitsu | - |
R1‑144638 | Discussion on detailed D2DSS design | Fujitsu | - |
R1‑144639 | Discussion of contents of PD2DSCH | Fujitsu | - |
R1‑144640 | Discussion of D2D synchronization procedure | Fujitsu | - |
R1‑144641 | Discussion of detaileds of D2D power control mechanism | Fujitsu | - |
R1‑144642 | Discussion of D2D measurement | Fujitsu | - |
R1‑144643 | Discussion of D2D resource pool allocation | Fujitsu | - |
R1‑144644 | High level views on schemes for elevation beamforming/Full-dimension MIMO for LTE | Fujitsu | - |
R1‑144645 | Discussion on possible CSI-RS enhancement for elevation beamforming/Full-dimension MIMO | Fujitsu | - |
R1‑144646 | Discussion on aperiodic CSI reporting with RI-reference CSI process and Rel-12 CSI subframe sets | Intel Corporation | - |
R1‑144647 | Discussion on the remaining details of Rel-12 UE category | Intel Corporation | - |
R1‑144648 | Design of primary D2D synchronization signal | Intel Corporation | - |
R1‑144649 | Design of secondary D2D synchronization signal | Intel Corporation | - |
R1‑144650 | On remaining details of transmission timing for Type 2B discovery | Intel Corporation | - |
R1‑144651 | On Remaining Aspects of Transmission Timing for D2D Communication | Intel Corporation | - |
R1‑144652 | On overlap of multiple D2D resource pools and UE behavior | Intel Corporation | - |
R1‑144653 | On remaining details of power control | Intel Corporation | - |
R1‑144654 | On remaining details of D2D discovery | Intel Corporation | - |
R1‑144655 | On remaining aspects of D2D TX behavior | Intel Corporation | - |
R1‑144656 | Remaining power control issues for Dual Connectivity | Intel Corporation | - |
R1‑144657 | Coverage enhancement target for MTC | Intel Corporation | - |
R1‑144658 | UE complexity reduction for MTC | Intel Corporation | - |
R1‑144659 | UE power consumption reduction for MTC | Intel Corporation | - |
R1‑144660 | Data channel enhancement for MTC | Intel Corporation | - |
R1‑144661 | Control channel enhancement for unicast transmission for MTC | Intel Corporation | - |
R1‑144662 | Common control message enhancement for MTC | Intel Corporation | - |
R1‑144663 | SCH and PBCH enhancement for MTC | Intel Corporation | - |
R1‑144664 | PRACH enhancement for MTC | Intel Corporation | - |
R1‑144665 | On remaining details of coexistence evaluation methodology | Intel Corporation | - |
R1‑144666 | Discussion on PHY layer options for LAA using LTE | Intel Corporation | - |
R1‑144667 | On Cell Association in Phase Two Evaluation | Intel Corporation | - |
R1‑144668 | Antenna Array Modelling for Phase Two Evaluation | Intel Corporation | - |
R1‑144669 | System Evaluation of Rel-12 Systems With 3D Channel Model | Intel Corporation | - |
R1‑144670 | Potential Performance of FD-MIMO Systems with 8 TXRUs | Intel Corporation | - |
R1‑144671 | 36.214 CR0024 (Rel-12, B) Introduction of MBSFN radio measurement | Intel Corporation | - |
R1‑144672 | Discussion on cat0 UE features in Rel-12 | Intel Corporation | - |
R1‑144673 | LS on cat0 UE features in Rel-12 | Intel Corporation | - |
R1‑144674 | On synchronization channel design for D2D operation (PD2DSCH) | Intel Corporation | - |
R1‑144675 | Remaining Details of D2D Synchronization Procedure | Intel Corporation | - |
R1‑144676 | On Measurements for D2D Synchronization Procedure | Intel Corporation | - |
R1‑144677 | On overlap of different types of D2D resource pools | Intel Corporation | - |
R1‑144678 | Discussion on UE D2D capabilities | Intel Corporation | - |
R1‑144679 | Baseline simulation scenarios for indoor positioning enhancements | Intel Corporation | - |
R1‑144680 | Channel model for indoor positioning enhancements | Intel Corporation | - |
R1‑144681 | Geometry Study of Non-cochannel HetNet Scenario | Intel Corporation | - |
R1‑144682 | UERS Based Diversity Transmission for Large Antenna Array | Intel Corporation | - |
R1‑144683 | Elevation Beamforming for SU-MIMO and MU-MIMO | Intel Corporation | - |
R1‑144684 | Scenarios and requirements for small data transmission | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144685 | D2DSS design and resource allocation | Alcatel-Lucent Shanghai Bell, Alcatel-Lucent | - |
R1‑144686 | PD2DSCH design and resource allocation | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144687 | D2D synchronization and re-synchronization procedure | Alcatel-Lucent Shanghai Bell, Alcatel-Lucent | - |
R1‑144688 | D2D Transmission Timing Setting | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144689 | Consideration of D2D measurements | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144690 | Remaining Details of Resource Pool Configurations | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144691 | D2D power control details | Alcatel-Lucent Shanghai Bell, Alcatel-Lucent | - |
R1‑144692 | D2D UE capabilities | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144693 | Evaluation of Impact of D2D to WAN system performance | Alcatel-Lucent Shanghai Bell, Alcatel-Lucent | - |
R1‑144694 | Remaining Issues on UL Power Control and Power Scaling for Dual Connectivity | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144695 | Coverage Enhancement Targets | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144696 | Considerations on bandwidth reduced operation for Rel-13 MTC UE | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144697 | Coverage enhancement for physical data & control channels | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144698 | Coverage enhancement for common control messages | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144699 | PSS/SSS, PBCH and PRACH operation under power conusmption reduction | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144700 | Remaining details of evaluation methodologies and simulation assumptions for LAA | Alcatel-Lucent Shanghai Bell, Alcatel-Lucent | - |
R1‑144701 | LBT Enhancements for Licensed-Assisted Access | Alcatel-Lucent Shanghai Bell, Alcatel-Lucent | - |
R1‑144702 | Channel Selection for Licensed-Assisted Access | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144703 | Hidden node problem and potential solutions for LAA | Alcatel-Lucent Shanghai Bell, Alcatel-Lucent | - |
R1‑144704 | Some remaining details and clarifications for scenario and evaluation methodology | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144705 | Performance of AAS for 3D UMa and 3D UMi scenarios in Phase 1 | Alcatel-Lucent Shanghai Bell, Alcatel-Lucent | - |
R1‑144706 | Performance of Rel 12 AAS for 3D UMa and 3D UMi scenarios | Alcatel-Lucent Shanghai Bell, Alcatel-Lucent | - |
R1‑144707 | Proposals for enhancement and corresponding evaluations | Alcatel-Lucent Shanghai Bell, Alcatel-Lucent | - |
R1‑144708 | Evaluation Methodology for Indoor Positioning | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑144709 | Clarification on UE category with supported spatial layers (36.306) | Samsung | - |
R1‑144710 | 36.213 CR0486 (Rel-11, F) Clarification of periodic CSI feedback for subband CQI and PMI | Samsung | - |
R1‑144711 | 36.213 CR0487 (Rel-12, A) Clarification of periodic CSI feedback for subband CQI and PMI | Samsung | - |
R1‑144712 | 36.213 CR0488 (Rel-12, F) Correction to PUCCH procedures in case of FDD Pcell and TDD Scell in TDD-FDD CA | Samsung | - |
R1‑144713 | Remaining issues for small cell enhancements | Samsung | - |
R1‑144714 | D2D synchronization signal design, considering information indication | Samsung | - |
R1‑144715 | PD2DSCH Content and remaining aspects of PD2DSCH design | Samsung | - |
R1‑144716 | Considerations on D2D frame number in PD2DSCH | Samsung | - |
R1‑144717 | D2D Silent and scanning period for reselection procedure | Samsung | - |
R1‑144718 | Analysis of flat synchronization schemes for out-of-coverage | Samsung | - |
R1‑144719 | Remaining issues on conditions for D2DSS transmission | Samsung | - |
R1‑144720 | D2DSS transmission considering UE states | Samsung | - |
R1‑144721 | Discussion of TA in D2D SA | Samsung | - |
R1‑144722 | Discussion on D2D transmission timing | Samsung | - |
R1‑144723 | Remaining issues on D2DSS/PD2DSCH overlap with other D2D channels | Samsung | - |
R1‑144724 | Remaining issues on overlap of SA/D2D Data transmissions | Samsung | - |
R1‑144725 | WAN and D2D priority handling for type 1 discovery | Samsung | - |
R1‑144726 | Remaining details of D2D communication design | Samsung | - |
R1‑144727 | Remaining issues on type 2B discovery | Samsung | - |
R1‑144728 | On D2D communication resource pool configuration related to out-of-coverage UE with TX timing not from eNB | Samsung | - |
R1‑144729 | Remaining Power Control Aspects for Dual Connectivity | Samsung | - |
R1‑144730 | Coverage Enhancement for Low Cost UEs | Samsung | - |
R1‑144731 | UE complexity reduction considerations for MTC UEs | Samsung | - |
R1‑144732 | UE power consumption reduction considerations for MTC UEs | Samsung | - |
R1‑144733 | Signalling and Reception of DL Data/Control Channels | Samsung | - |
R1‑144734 | Signalling and Reception of UL Data/Control Channels | Samsung | - |
R1‑144735 | Signalling and Design of UE-common Control Messages | Samsung | - |
R1‑144736 | Signalling and Design for SCH, PBCH, and PRACH | Samsung | - |
R1‑144737 | Remaining details of evaluation methodologies for LAA | Samsung | - |
R1‑144738 | Initial evaluation results on LAA | Samsung | - |
R1‑144739 | Discussion on channel access mechanisms for LAA | Samsung | - |
R1‑144740 | Discussion on carrier selection for LAA | Samsung | - |
R1‑144741 | Discussion on DL power control for LAA | Samsung | - |
R1‑144742 | Discussion on LAA cell discovery and RRM measurement mechanisms | Samsung | - |
R1‑144743 | Discussion on CSI measurement aspects for LAA | Samsung | - |
R1‑144744 | Discussion on UL transmssion for LAA | Samsung | - |
R1‑144745 | Discussion on the impacts of Pcell duplex mode for LAA | Samsung | - |
R1‑144746 | Evaluation assumptions for uplink FD-MIMO | Samsung | - |
R1‑144747 | Evaluation Assumptions for Separate Channel HetNet Scenario | Samsung | - |
R1‑144748 | Evaluation Assumptions for Co-channel HetNet Scenario | Samsung | - |
R1‑144749 | Prioritization of phase 2 evaluation for homogeneous scenario | Samsung | - |
R1‑144750 | CRS modeling and TXRU virtualization for phase 2 evaluations | Samsung | - |
R1‑144751 | Antenna port to TXRU virtualization mapping | Samsung | - |
R1‑144752 | Discussion on 2D antenna configuration | Samsung | - |
R1‑144753 | Phase 1 evaluation results for homogeneous networks | Samsung | - |
R1‑144754 | Support of High Order Multi-User Spatial Multiplexing for FD-MIMO | Samsung | - |
R1‑144755 | Uplink FD-MIMO evaluation results for homogeneous scenario | Samsung | - |
R1‑144756 | Initial evaluation results of downlink FD-MIMO with 8 TXRUs | Samsung | - |
R1‑144757 | Open-loop transmission scheme for FD-MIMO | Samsung | - |
R1‑144758 | Evaluation results on vertical sectorization | Samsung | - |
R1‑144759 | Discussions on FD-MIMO with 8 to 64 TXRUs | Samsung | - |
R1‑144760 | Discussions on MIMO precoding with subarray partition and full connection | Samsung | - |
R1‑144761 | D2D Synchronization Signal and Channel Design | Lenovo | - |
R1‑144762 | Downlink and Uplink Control Channels for R13 MTC | Lenovo | - |
R1‑144763 | PRACH handling in power-limited dual-connectivity | Ericsson | - |
R1‑144764 | SRS handling and remaining power control issues in dual-connectivity | Ericsson | - |
R1‑144765 | On eMBMS, Discovery Signals and Small Cell On/Off | Ericsson | - |
R1‑144766 | On Legacy and DRS based Measurements and Small Cell On/Off | Ericsson | - |
R1‑144767 | Details of deployment scenarios for indoor positioning evaluation | Ericsson | - |
R1‑144768 | Evaluation methodology for indoor positioning | Ericsson | - |
R1‑144769 | Positioning techniques for generating baseline performance | Ericsson | - |
R1‑144770 | Remaining UE capability topics | Ericsson | - |
R1‑144771 | TR 36.889 v0.0.3 Study on licensed-assisted access using LTE | Ericsson, Huawei | - |
R1‑144772 | Text proposal on Rel-13 LAA functionalities for TR36.889 | Ericsson | - |
R1‑144773 | Updates to Regulatory Requirements for Unlicensed Spectrum | Ericsson | - |
R1‑144774 | Text proposal on Rel-13 LAA evaluation scenarios and framework for TR36.889 | Ericsson | - |
R1‑144775 | Email Discussion (78bis-15) Summary on Evaluation Methodology for LAA | Ericsson | - |
R1‑144776 | Remaining details on evaluation methodology | Ericsson | - |
R1‑144777 | Details on support of DFS, TPC, carrier selection and bandwidth occupancy | Ericsson | - |
R1‑144778 | Details of Listen-Before-Talk for LAA | Ericsson | - |
R1‑144779 | Required Functionality for supporting RRM, CSI and Time-Frequency Tracking | Ericsson | - |
R1‑144780 | PHY layer options to support RRM, CSI and time/freq tracking | Ericsson | - |
R1‑144781 | Considerations of physical downlink control channel for MTC | Fujitsu | - |
R1‑144782 | The impacts on RAR caused by preamble repetition | Fujitsu | - |
R1‑144783 | PRACH Support for Devices in Deep Coverage Holes | Fujitsu | - |
R1‑144784 | Open issues for LAA evaluation | Fujitsu | - |
R1‑144785 | DL data and CRS transmission for LAA | Fujitsu | - |
R1‑144786 | Views and considerations on Rel-13 MTC | Sequans Communications | - |
R1‑144787 | Discussion on PHY layer for LAA | Sequans Communications | - |
R1‑144788 | Remaining topic of small cell on/off | Panasonic | - |
R1‑144789 | Remaining topic of DC TPC | Panasonic | - |
R1‑144790 | Remaining issues on D2D synchronization procedure | Panasonic | - |
R1‑144791 | Further discussion on timing advance in D2D | Panasonic | - |
R1‑144792 | Discussion on D2D channel collision handling | Panasonic | - |
R1‑144793 | Clarification on Mode 1 data starting position | Panasonic | - |
R1‑144794 | Evaluation of D2D and WAN co-existence with D2D power control | Panasonic | - |
R1‑144795 | Design target and general consideration on MTC | Panasonic | - |
R1‑144796 | Revisiting Rel-12 agreements and working assumptions on MTC | Panasonic | - |
R1‑144797 | Consideration on data channel and associated control channel for MTC | Panasonic | - |
R1‑144798 | Multiple subframe code spreading for MTC UEs | Panasonic | - |
R1‑144799 | Consideration on frequency hopping for MTC Ues | Panasonic | - |
R1‑144800 | Consideration on SIBs/RAR/paging for Rel-13 MTC | Panasonic | - |
R1‑144801 | Discussion on LAA synchronization and discovery | Panasonic | - |
R1‑144802 | Discussion on LAA subframe boundary alignment | Panasonic | - |
R1‑144803 | Discussion on charging aspect in LAA | Panasonic | - |
R1‑144804 | SRS power allocation on Dual Connectivity | ZTE | - |
R1‑144805 | UE capability for Dual Connectivity | ZTE | - |
R1‑144806 | Evaluation methodology for indoor positioning | ZTE | - |
R1‑144807 | Remaining Details on Antenna Modeling | ZTE | - |
R1‑144808 | Phase 1 Evaluation Results of Homogeneous Network^^ | ZTE | - |
R1‑144809 | Phase 1 Evaluation Results of Co-channel Heterogeneous Network | ZTE | - |
R1‑144810 | Initial Evaluation Results of 2D Array System with up to 64 TXRUs | ZTE | - |
R1‑144811 | Initial Evaluation Results of 2D Array System with 8 TXRUs | ZTE | - |
R1‑144812 | Initial Evaluation Results of TDD System with SRS Error Modeling | ZTE | - |
R1‑144813 | Initial Consideration on Enhancements Targeting 2D Antenna Array for EB/FD-MIMO | ZTE | - |
R1‑144814 | Coverage enhancement target for Rel-13 low complexity UEs | ZTE | - |
R1‑144815 | Bandwidth reduction for low complexity UEs | ZTE | - |
R1‑144816 | Solutions to reduce the UE power consumption | ZTE | - |
R1‑144817 | Physical downlink control channel for MTC enhancement | ZTE | - |
R1‑144818 | Considerations on physical data channels for MTC enhancement | ZTE | - |
R1‑144819 | Considerations on physical uplink control channel for MTC enhancement | ZTE | - |
R1‑144820 | Considerations on common control messages for MTC enhancement | ZTE | - |
R1‑144821 | Considerations on Physical broadcast channel for MTC enhancement | ZTE | - |
R1‑144822 | Technical solutions for PRACH for MTC enhancement | ZTE | - |
R1‑144823 | Remaining details of evaluation methodologies | ZTE | - |
R1‑144824 | Preliminary performance evaluation for Licensed-Assisted Access using LTE | ZTE | - |
R1‑144825 | Analysis of PHY layer solutions for LAA design | ZTE | - |
R1‑144826 | Potential solutions to obtain unlicensed spectrum | ZTE | - |
R1‑144827 | Considerations on Measurement for LAA | ZTE | - |
R1‑144828 | Frame structure design for LAA considering LBT | ZTE | - |
R1‑144829 | HARQ related issues for Licensed-assisted access using LTE | ZTE | - |
R1‑144830 | Analysis of LAA UL enhancement | ZTE | - |
R1‑144831 | PD2DSS root indices selection | ZTE | - |
R1‑144832 | D2D Synchronization Procedure | ZTE | - |
R1‑144833 | Remaining issues for D2D transmission timing | ZTE | - |
R1‑144834 | Discussion on overlapping of resource pools | ZTE | - |
R1‑144835 | Remaining issues of discovery transmission | ZTE | - |
R1‑144836 | Remaining details of hopping pattern for discovery type 2B | ZTE | - |
R1‑144837 | Remaining details of data transmission | ZTE | - |
R1‑144838 | Details of D2D Synchronization Signal Design | Sharp | - |
R1‑144839 | Remaining issues on D2D transmission timing | Sharp | - |
R1‑144840 | D2D and WAN co-existence considerations | Sharp | - |
R1‑144841 | Common messages for Rel-13 MTC UEs | Sharp | - |
R1‑144842 | PRACH for Rel-13 MTC UEs | Sharp | - |
R1‑144843 | LAA evaluation methodology | Sharp | - |
R1‑144844 | Considerations on LAA functionalities | Sharp | - |
R1‑144845 | UTDOA Assumptions and Parameters for E-UTRA Indoor Positioning Study | TruePosition | - |
R1‑144846 | Summary of email discussion on R1-144498 and R1-144490 | MediaTek Inc. | - |
R1‑144847 | [Draft] reply LS for Rel-12 NAICS | MediaTek Inc. | - |
R1‑144848 | Consideration on Bandwidth Reduction for Rel-13 MTC UE | MediaTek Inc. | - |
R1‑144849 | Discussion and Performance evaluation for uplink PSD boosting | MediaTek Inc. | - |
R1‑144850 | Discussions on UL HARQ for Rel-13 MTC UE | MediaTek Inc. | - |
R1‑144851 | SIB, RAR and Paging for Rel-13 MTC UE in normal and coverage extension | MediaTek Inc. | - |
R1‑144852 | Discussion on Synchronization for Rel-13 MTC UE for Coverage Enhancement | MediaTek Inc. | - |
R1‑144853 | Discussion on PUCCH for Rel-13 MTC UE | MediaTek Inc. | - |
R1‑144854 | Simultaneously reception of unicast and broadcast for Rel-13 MTC UE | MediaTek Inc. | - |
R1‑144855 | Motivation for enhanced MU-MIMO and network assisted interference cancellation | MediaTek Inc. | - |
R1‑144856 | Open issue on UE category in Rel-12 | NEC | - |
R1‑144857 | On triggering conditions for D2DSS transmission | NEC | - |
R1‑144858 | D2D synchronization procedure for out-of-network coverage | NEC | - |
R1‑144859 | Downlink HARQ reporting for WAN | NEC | - |
R1‑144860 | Coverage enhancement for Rel-13 low complexity UEs | NEC | - |
R1‑144861 | Coverage enhancement for PUSCH | NEC | - |
R1‑144862 | PUCCH for Rel-13 Low complexity MTC | NEC | - |
R1‑144863 | Details of Physical Downlink Control Channel for MTC | NEC | - |
R1‑144864 | SIB Performance for Rel-13 low complexity MTC | NEC | - |
R1‑144865 | Discussion on evaluation methodology for LAA | NEC | - |
R1‑144866 | Impact of LBT regulation LAA; | NEC | - |
R1‑144867 | Simulation results for coexistence evaluation | NEC | - |
R1‑144868 | Views on TXRU virtualization | NEC | - |
R1‑144869 | Initial performance evaluation | NEC | - |
R1‑144870 | Discussion on the resource allocation and precoding granularity signalling for NAICS | Intel Corporation | - |
R1‑144871 | Discovery monitoring in RRC Connected | Samsung | - |
R1‑144872 | Remaining details of D2DSS design | General Dynamics UK | - |
R1‑144873 | Remaining details of PD2DSCH content and design | General Dynamics UK | - |
R1‑144874 | Remaining aspects of D2D transmission timing | General Dynamics UK | - |
R1‑144875 | Discussion on relationship between DRS occasion and DMTC | LG Electronics | - |
R1‑144876 | Discussions on dual connectivity remaining issues for physical layer aspects | LG Electronics | - |
R1‑144877 | Details of D2DSS design | LG Electronics | - |
R1‑144878 | Remaining Details of PD2DSCH content and design | LG Electronics | - |
R1‑144879 | Evaluation results on the D2D synchronization procedure for out-of-coverage network | LG Electronics | - |
R1‑144880 | Details of D2D Synchronization and Re-synchronization Procedures | LG Electronics | - |
R1‑144881 | Remaining issues on D2D transmission timing | LG Electronics | - |
R1‑144882 | Measurement for D2D synchronization | LG Electronics | - |
R1‑144883 | Remaining Details of Resource Overlap Handling | LG Electronics | - |
R1‑144884 | Remaining Details on DL Gap for D2D Discovery | LG Electronics | - |
R1‑144885 | Further details on D2D transmission power control | LG Electronics | - |
R1‑144886 | Discussion on D2D UE Capabilities | LG Electronics | - |
R1‑144887 | HARQ-ACK Transmission Shift for D2D and WAN Co-existence | LG Electronics | - |
R1‑144888 | Remaining Issues on D2D Discovery | LG Electronics | - |
R1‑144889 | UE behavior for SA and data transmission | LG Electronics | - |
R1‑144890 | Considerations on coverage enhancement for MTC | LG Electronics | - |
R1‑144891 | Discussion on low cost UEs | LG Electronics | - |
R1‑144892 | UE power consumption reduction | LG Electronics | - |
R1‑144893 | EPDCCH and PDSCH related issues for MTC | LG Electronics | - |
R1‑144894 | Considerations on PUCCH and PUSCH design for MTC | LG Electronics | - |
R1‑144895 | Common control message transmission for MTC | LG Electronics | - |
R1‑144896 | Rel-12 agreements on PSS/SSS, PBCH and PRACH for MTC | LG Electronics | - |
R1‑144897 | Considerations on CSI reporting for low complexity UE | LG Electronics | - |
R1‑144898 | Considerations of PRACH design for MTC UE | LG Electronics | - |
R1‑144899 | Cell association in LAA evaluation | LG Electronics | - |
R1‑144900 | LBT operation details and initial evaluation results | LG Electronics | - |
R1‑144901 | Carrier selection and other coexistence methods | LG Electronics | - |
R1‑144902 | CSI feedback and handling interference variation in unlicensed band | LG Electronics | - |
R1‑144903 | Measurement and synchronization in LAA | LG Electronics | - |
R1‑144904 | Data scheduling and control signaling in LAA | LG Electronics | - |
R1‑144905 | Further regulation issues for LAA | LG Electronics | - |
R1‑144906 | Analysis on small-cell and UE dropping models in HetNet | LG Electronics | - |
R1‑144907 | Analysis on UE association modeling in HetNet | LG Electronics | - |
R1‑144908 | Initial full buffer evaluation results for Phase 1 | LG Electronics | - |
R1‑144909 | Initial non-full buffer evaluation results for Phase 1 | LG Electronics | - |
R1‑144910 | Analysis on UE-dedicated elevation beamforming with 8 TXRUs | LG Electronics | - |
R1‑144911 | Discussion on DFT-based vertical feedback | LG Electronics | - |
R1‑144912 | Discussion on RS design enhancements | LG Electronics | - |
R1‑144913 | Details of evaluation scenarios and methodology for enhanced indoor positioning | LG Electronics | - |
R1‑144914 | Discussion on eNB antenna height modeling | LG Electronics | - |
R1‑144915 | Association between in-coverage Mode-2 and out-of-coverage Mode-2 | ETRI | - |
R1‑144916 | Consideration on Uplink Reference Signal for MTC | ETRI | - |
R1‑144917 | PUSCH link performance for both coverage enhancement and low power consumption | ETRI | - |
R1‑144918 | Potential solutions for LAA operation | ETRI | - |
R1‑144919 | Preamble field for time-aligned load based equipment type LBT mechanism | ETRI | - |
R1‑144920 | Considerations on LAA solution from simulation result | ETRI | - |
R1‑144921 | Required functionalities and possible solution related to SCE operation in unlicensed carrier | ETRI | - |
R1‑144922 | Coexistence interference impact from LTE on WLAN | ETRI | - |
R1‑144923 | Potential CSI-RS and CSI feedback enhancements for EBF/FD-MIMO | ETRI | - |
R1‑144924 | MU-CSI feedback scheme realizing the potential MU-MIMO gain | ETRI | - |
R1‑144925 | D2D Re-synchronization Procedure in Varied Coverage | HTC | - |
R1‑144926 | Multiplexing between D2D and WAN | HTC | - |
R1‑144927 | Remaining issues on Mode-1 D2D Communication | HTC | - |
R1‑144928 | Measurement and Synchronization for LAA-LTE | HTC | - |
R1‑144929 | Considerations on LAA-LTE designs for fair co-existence | KDDI corporation | - |
R1‑144930 | Fairness indicator and evaluation assumptions for LAA-LTE and Wi-Fi co-existence | KDDI corporation | - |
R1‑144931 | Discussion on simultaneous usage of the MTC enhancement functions | KDDI corporation | - |
R1‑144932 | Further discussion on coexistence evaluation assumptions for LAA | ITRI | - |
R1‑144933 | View on Enhancement for EBF/FD-MIMO | ITRI | - |
R1‑144934 | Physical data channels and associated physical control channels | ITRI | - |
R1‑144935 | Considerations on Remaining Details for PD2DSS and SD2DSS | ITRI | - |
R1‑144936 | The Coverage Enhancement of eNB’s Timing in D2DSS Transmission | ITRI | - |
R1‑144937 | Synchronization and Re-synchronization Procedures for the Coverage Enhancement of eNB’s Timing using D2DSS Transmission | ITRI | - |
R1‑144938 | Discussion on remaining issues of UE categories | CMCC | - |
R1‑144939 | Discussion on detailed evaluation assumptions of LAA | CMCC | - |
R1‑144940 | Discussion on possible solutions for LAA | CMCC | - |
R1‑144941 | Transmission of control signalling in unlicensed band | CMCC | - |
R1‑144942 | Further discussion on TXRU virtualization | CMCC | - |
R1‑144943 | SRS and antenna calibration error modeling | CMCC | - |
R1‑144944 | Non-full-buffer traffic model for video streaming | CMCC | - |
R1‑144945 | Phase I 3D-MIMO Performance Evaluations | CMCC | - |
R1‑144946 | Standard transparent performance evaluation for 16/32/64TXRU with channel reciprocity | CMCC | - |
R1‑144947 | Spec Enhancement for Reciprocity based Operation | CMCC | - |
R1‑144948 | Evaluation of Rel.12 MIMO with beamformed CSI-RS with 8 TXRU | CATT | - |
R1‑144949 | Evaluation of vertical sectorization with 16-64 TXRU | CATT | - |
R1‑144950 | Discussions on the evaluation assumptions of LAA | CATR | - |
R1‑144951 | Initial evaluation results of Rel-12 DL MIMO using 3D channel modelling | CATR | - |
R1‑144952 | Discussion on the remaining issues of the deployment scenario | China Telecom | - |
R1‑144953 | Views on System Design of EB/FD-MIMO | China Telecom | - |
R1‑144954 | CSI-RS Design and CSI Reporting for EB/FD-MIMO | China Telecom | - |
R1‑144955 | Further considerations on the essential functionalities for LAA | Kyocera | - |
R1‑144956 | Remaining details of the evaluation assumptions for LAA | Kyocera | - |
R1‑144957 | Remaining details of resource allocation for D2DSS/PD2DSCH | Kyocera | - |
R1‑144958 | Impact on physical channel regarding bandwidth reduction | ASUSTeK | - |
R1‑144959 | Transmission timing of Type 2B discovery | NTT DOCOMO | - |
R1‑144960 | Views on D2D channel overlap | NTT DOCOMO | - |
R1‑144961 | Remaining aspects of dual connectivity | NTT DOCOMO | - |
R1‑144962 | Features for Rel-13 Low Cost MTC with UE Complexity Reduction | NTT DOCOMO | - |
R1‑144963 | Consideration on EPDCCH for low cost MTC | NTT DOCOMO | - |
R1‑144964 | Design of EPDCCH Search Space for low cost MTC | NTT DOCOMO | - |
R1‑144965 | Consideration on PDSCH for low cost MTC | NTT DOCOMO | - |
R1‑144966 | Initial views on PUCCH for Rel-13 Low cost MTC | NTT DOCOMO | - |
R1‑144967 | Views on Random Access Procedure in Rel-13 Low Cost MTC | NTT DOCOMO | - |
R1‑144968 | Views on agreements and working assumptions of MTC in Rel.12 | NTT DOCOMO | - |
R1‑144969 | Initial evaluation results and analysis on LBT mechanism for LAA DL | NTT DOCOMO | - |
R1‑144970 | Views on issues related to LAA UL | NTT DOCOMO | - |
R1‑144971 | Summary of Email Discussion [78bis-16] HetNet Separate Frequency Scenario Assumption for Elevation BF/FD-MIMO | NTT DOCOMO | - |
R1‑144972 | Remaining Details on Evaluation Assumptions for HetNet Scenarios with Separate Frequency | NTT DOCOMO | - |
R1‑144973 | Evaluation on Tilting Angle for HetNet Scenario Using Different Frequency Bands | NTT DOCOMO | - |
R1‑144974 | Phase 1 Evaluation Results for the Homogeneous Network Scenarios | NTT DOCOMO | - |
R1‑144975 | Initial Evaluation of Elevation BF and FD-MIMO in HetNet Scenario Using Separate Frequency Bands | NTT DOCOMO | - |
R1‑144976 | Precoding Schemes for Elevation Beamforming and FD-MIMO | NTT DOCOMO | - |
R1‑144977 | Power headroom report considering D2D transmission | Samsung | - |
R1‑144978 | Preamble target power when dropping PRACH in power-limited dual-connectivity | Ericsson | - |
R1‑144979 | 36.214 CR0023R1 (Rel-12, B) Measurement definitions for measurements with discovery reference signals | Ericsson | - |
R1‑144980 | PD2DSCH contents | Nokia Corporation, Nokia Networks | - |
R1‑144981 | Discussion on conditions for D2DSS transmission | Nokia Corporation, Nokia Networks | - |
R1‑144982 | On remaining details of power control for D2D transmissions | Nokia Corporation, Nokia Networks | - |
R1‑144983 | Feature groups for D2D discovery and communications | Nokia Corporation, Nokia Networks | - |
R1‑144984 | UE capabilities for D2D discovery and communications for multicarrier operations | Nokia Corporation, Nokia Networks | - |
R1‑144985 | Frequency hopping for discovery signal repetition | Nokia Corporation, Nokia Networks | - |
R1‑144986 | Remaining Power Control Issues in Dual Connectivity | Nokia Networks, Nokia Corporation | - |
R1‑144987 | Handling of resource allocation and precoding granularity signaling in NAICS | Nokia Networks, Nokia Corporation | - |
R1‑144988 | Coverage Enhancement Target for MTC | Nokia Networks, Nokia Corporation | - |
R1‑144989 | Impacts of Reducing the Maximum UE Power | Nokia Networks, Nokia Corporation | - |
R1‑144990 | Assumptions and constraints for supporting 1.4 MHz low cost MTC UE | Nokia Networks, Nokia Corporation | - |
R1‑144991 | UE Complexity Reduction Techniques | Nokia Networks, Nokia Corporation | - |
R1‑144992 | UE Power Consumption Reduction Techniques | Nokia Networks, Nokia Corporation | - |
R1‑144993 | Data Channel Enhancement for MTC | Nokia Networks, Nokia Corporation | - |
R1‑144994 | PDSCH and PUSCH Performance Results | Nokia Networks, Nokia Corporation | - |
R1‑144995 | Control Channel Enhancement for MTC | Nokia Networks, Nokia Corporation | - |
R1‑144996 | Design of Common Control Messages for MTC | Nokia Networks, Nokia Corporation | - |
R1‑144997 | SIB/RAR/Paging Performance Results | Nokia Networks, Nokia Corporation | - |
R1‑144998 | PBCH Acquisition Time and Enhancement for MTC | Nokia Networks, Nokia Corporation | - |
R1‑144999 | PRACH Enhancement for MTC | Nokia Networks, Nokia Corporation | - |
R1‑145000 | Simulation Assumptions for LTE Licensed Assisted Access | Nokia Corporation, Nokia Networks | - |
R1‑145001 | On LTE LAA inter-cell interference management mechanisms | Nokia Networks, Nokia Corporation | - |
R1‑145002 | On UE synchronization in LTE LAA | Nokia Networks, Nokia Corporation | - |
R1‑145003 | On Listen Before Talk and Channel Access | Nokia Networks, Nokia Corporation | - |
R1‑145004 | LAA LBT operation using Reservation signals | Nokia Corporation, Nokia Networks | - |
R1‑145005 | TR 36.897 v0.1.0 Study on Elevation Beamforming/Full-Dimension (FD) MIMO for LTE | Nokia Networks, Samsung | - |
R1‑145006 | On Deployment Scenarios and Evaluation Methodology | Nokia Networks, Nokia Corporation | - |
R1‑145007 | Vertical sectorization performance with Rel-12 | Nokia Networks, Nokia Corporation | - |
R1‑145008 | Phase-1 simulation results for codebook based operation | Nokia Networks, Nokia Corporation | - |
R1‑145009 | Phase-1 simulation results for reciprocity based operation | Nokia Networks, Nokia Corporation | - |
R1‑145010 | Potential enhancements for EBF/FD-MIMO | Nokia Networks, Nokia Corporation | - |
R1‑145011 | Channel Model and Scenario Considerations for Indoor Positioning | Nokia Networks, Nokia Corporation | - |
R1‑145012 | 36.213 CR0483R1 (Rel-12, F) Clarification of the resource allocation and precoding granularity parameter in NAICS | NVIDIA, Intel, MediaTek, Samsung, LGE, Acer, ITRI, CHTTL, HTC | - |
R1‑145013 | Discussion on potential solutions for LAA-LTE | NVIDIA | - |
R1‑145014 | Phase-1 performance evaluation results using 3D-UMa and 3D-UMi channel models | NVIDIA | - |
R1‑145015 | Performance of UE-specific elevation beamforming using two NZP CSI-RS resources | NVIDIA | - |
R1‑145016 | Battery Technology Impacts on Maximum UE Transmit Power for MTC | Sony | - |
R1‑145017 | Mobility Support Impact on Power Consumption for MTC Devices | Sony | - |
R1‑145018 | MTC Operation with a Narrowband PDCCH | Sony | - |
R1‑145019 | MTC Operation using ePDCCH | Sony | - |
R1‑145020 | Comparison of Narrowband PDCCH and ePDCCH Operation | Sony | - |
R1‑145021 | PHICH Operation for MTC | Sony | - |
R1‑145022 | On Reference Signals for RRM Measurements in FD-MIMO | Sony | - |
R1‑145023 | Indoor Positioning using Angle of Arrival | Sony | - |
R1‑145024 | 25.214 CR0734 (Rel-12, F) Clarification on CQI feedback cycle switching procedure | Ericsson | - |
R1‑145025 | On power scaling for DPCCH2 | Ericsson | - |
R1‑145026 | Cell search coverage evaluation | Ericsson | - |
R1‑145027 | System information acquisition (BCH) coverage evaluation | Ericsson | - |
R1‑145028 | Paging channels (PICH and PCH) coverage evaluation | Ericsson | - |
R1‑145029 | PRACH preamble coverage evaluation | Ericsson | - |
R1‑145030 | Acquisition Indicator channel (AICH) coverage evaluation | Ericsson | - |
R1‑145031 | Enhanced Uplink (EUL) coverage evaluation | Ericsson | - |
R1‑145032 | HS-SCCH and HS-PDSCH coverage evaluation | Ericsson | - |
R1‑145033 | Summary of coverage evaluations | Ericsson | - |
R1‑145034 | Text proposal on the summary of coverage evaluations | Ericsson | - |
R1‑145035 | Text proposal on the fundamental characteristics of the small data transmission enhancements for UMTS | Ericsson | - |
R1‑145036 | On the maximum number of simultaneous non-CPC users in a cell | Ericsson | - |
R1‑145037 | 25.214 CR0733R1 (Rel-12, F) Clarifications to Maximum Power Scaling for Hetnets and F-EUL Enhancements | Qualcomm Incorporated | - |
R1‑145038 | EVS over UTRAN - WorkPlan and RAN impacts | Qualcomm Incorporated | - |
R1‑145039 | DL evaluation of TPC enhancements | Qualcomm Incorporated | - |
R1‑145040 | UL impact from TPC enhancements | Qualcomm Incorporated | - |
R1‑145041 | On remaining details of D2DSS design | InterDigital | - |
R1‑145042 | On remaining details of PD2DSCH design | InterDigital | - |
R1‑145043 | On the D2D (re-)synchronization procedure | InterDigital | - |
R1‑145044 | PRACH prioritization in dual connectivity | InterDigital | - |
R1‑145045 | SRS power allocation and handling in dual connectivity | InterDigital | - |
R1‑145046 | Power sharing in PCM2 with no overlapping transmissions | InterDigital | - |
R1‑145047 | Coverage enhancement target for Rel-13 MTC | InterDigital | - |
R1‑145048 | Reduced UE complexity for Rel-13 MTC | InterDigital | - |
R1‑145049 | Physical channels for unicast traffic in Rel-13 MTC | InterDigital | - |
R1‑145050 | RAR and Paging for Rel-13 MTC | InterDigital | - |
R1‑145051 | PBCH and PRACH for Rel-13 MTC | InterDigital | - |
R1‑145052 | On L1 design for LTE LAA DL-only mode | InterDigital | - |
R1‑145053 | Evaluation results of Rel-12 DL MIMO scheme | InterDigital | - |
R1‑145054 | Initial evaluation results on 2D antenna array | InterDigital | - |
R1‑145055 | Discussion on TM10 CSI-IM Measurements | Qualcomm Inc. | - |
R1‑145056 | Discussion on default values for TM8/9 codebook subset restriction | Qualcomm Inc. | - |
R1‑145057 | 36.214 CR0025 (Rel-12, B) for DRS measurements | Qualcomm Inc. | - |
R1‑145058 | Bandwidth assumption for DRS rate matching | Qualcomm Inc. | - |
R1‑145059 | Draft LS on D2D Synchronization | Qualcomm Inc. | - |
R1‑145060 | Remaining issues for D2D | Qualcomm Inc. | - |
R1‑145061 | D2DSS signal design | Qualcomm Inc. | - |
R1‑145062 | PD2DSCH content and design | Qualcomm Inc. | - |
R1‑145063 | Details of synchronization procedure | Qualcomm Inc. | - |
R1‑145064 | Transmission timing for D2D | Qualcomm Inc. | - |
R1‑145065 | D2DSS Measurement | Qualcomm Inc. | - |
R1‑145066 | D2D Resource pool configuration | Qualcomm Inc. | - |
R1‑145067 | D2D Capabilities | Qualcomm Inc. | - |
R1‑145068 | Simulation results for D2D and WAN coexistence | Qualcomm Inc. | - |
R1‑145069 | Remaining details of D2D discovery | Qualcomm Inc. | - |
R1‑145070 | Remaining details of D2D communication | Qualcomm Inc. | - |
R1‑145071 | Remaining details of D2D and WAN multiplexing | Qualcomm Inc. | - |
R1‑145072 | Channel Interleaver for D2D | Qualcomm Inc. | - |
R1‑145073 | PRACH power control | Qualcomm Inc. | - |
R1‑145074 | Remaining details of physical layer functionalities for dual-connectivity | Qualcomm Inc. | - |
R1‑145075 | Capability signaling for dual-connectivity | Qualcomm Inc. | - |
R1‑145076 | UE complexity reduction | Qualcomm Inc. | - |
R1‑145077 | Coverage enhancements | Qualcomm Inc. | - |
R1‑145078 | Power consumption reduction | Qualcomm Inc. | - |
R1‑145079 | Physical data channels and associated physical control channels | Qualcomm Inc. | - |
R1‑145080 | Common control messages | Qualcomm Inc. | - |
R1‑145081 | Other physical channels and signals | Qualcomm Inc. | - |
R1‑145082 | Deployment scenarios and evaluation methodology | Qualcomm Inc. | - |
R1‑145083 | Required functionalities and design targets | Qualcomm Inc. | - |
R1‑145084 | Solutions for required functionalities and design targets | Qualcomm Inc. | - |
R1‑145085 | Remaining details on Deployment Scenarios and Evaluation Methodology for EBF/FD-MIMO | Qualcomm Inc. | - |
R1‑145086 | Performance of Rel-12 DL MIMO using 3D-UMa and 3D-Umi | Qualcomm Inc. | - |
R1‑145087 | Elevation BF/FD-MIMO with 2D antenna array | Qualcomm Inc. | - |
R1‑145088 | Initial results on 2D antenna array with 8TXRU | Qualcomm Inc. | - |
R1‑145089 | Simulation Assumptions and Parameters for E-UTRA Indoor Positioning Study | Qualcomm Inc. | - |
R1‑145090 | 36.212 CR0163r2 (Rel-12, F) Correction for rate matching parameters for UE categories 11 and 12 for 36.212 | Huawei | - |
R1‑145091 | 36.212 CR0166 (Rel-12, B) Introduction of Dual Connectivity feature into 36.212 | Huawei | - |
R1‑145092 | D2D synchronization procedure | Huawei, HiSilicon | - |
R1‑145093 | Remaining conditions for D2DSS transmission | Huawei, HiSilicon | - |
R1‑145094 | Discovery transmission timing | Huawei, HiSilicon | - |
R1‑145095 | Remaining details on type-2B discovery | Huawei, HiSilicon | - |
R1‑145096 | UE and D2D capability | Huawei, HiSilicon | - |
R1‑145097 | Power allocation for SRS in dual connectivity | Huawei, HiSilicon | - |
R1‑145098 | Determination of reserved power in dual connectivity | Huawei, HiSilicon | - |
R1‑145099 | Transmission of small transport blocks | Huawei, HiSilicon | - |
R1‑145100 | Control channel support for non-MTC UEs | Huawei, HiSilicon | - |
R1‑145101 | Control-centric transmission of common messages for Rel-13 UEs | Huawei, HiSilicon | - |
R1‑145102 | Supporting FDM for Rel-13 MTC UEs and other UEs | Huawei, HiSilicon | - |
R1‑145103 | Remaining aspects of LAA evaluation methodology | Huawei, HiSilicon | - |
R1‑145104 | Remaining aspects of existing unlicensed spectrum regulatory requirements | Huawei, HiSilicon | - |
R1‑145105 | 36.213 CR0489 (Rel-12, F) Correction on FDD-TDD HARQ-ACK reporting procedure for primary cell frame structure type 2 | Sharp, CATT, Huawei, HiSilicon, LG Electronics, Nokia Networks, Nokia Corporation | - |
R1‑145106 | Views on remaining details of evaluation methodologies | NTT DOCOMO | - |
R1‑145107 | Views on PHY layer options for LAA DL | NTT DOCOMO | - |
R1‑145108 | Remaining details on D2D synchronization signal design | ITL Inc. | - |
R1‑145109 | Discussion on Channel Access Mechanism based on LBT for LAA | ITL Inc. | - |
R1‑145110 | The on/off state indication of Scell in LAA unlicensed carrier for DL measurement | ITL Inc. | - |
R1‑145111 | Remaining issues of SRS handling on Dual Connectivity | KT Corp. | - |
R1‑145112 | Consideration on PHICH for MTC UEs | KT Corp. | - |
R1‑145113 | Common control messages for Rel-13 MTC | KT Corp. | - |
R1‑145114 | TR 37.857 v0.1.0 Study on Indoor Positioning Enhancements for UTRA and LTE | NextNav | - |
R1‑145115 | Way forward on simulation methodology for indoor positioning | NextNav, AT&T | - |
R1‑145116 | Way Forward on Indoor Positioning Simulation Scenarios | NextNav, AT&T, III, US DOC | - |
R1‑145117 | FCC E911 NPRM requirements intro | NextNav | - |
R1‑145118 | TP for performance metric definition | NextNav | - |
R1‑145119 | TP for TR 37.857 channel model | NextNav | - |
R1‑145120 | Proposal on Test Vector Methodology for Indoor Positioning | NextNav | - |
R1‑145121 | Discussion on D2D and WAN co-existence | Potevio | - |
R1‑145122 | 36.213 CR0482R2 (Rel 12, B) Introduction of D2D (ProSe), Dual Connectivity, Small Cell Enhancements, NAICS, eIMTA, and TDD-FDD CA features | Motorola Mobility | - |
R1‑145123 | Physical Layer options for LAA-LTE | Motorola Mobility | - |
R1‑145124 | Depolarization Matrix Scaling in the Outdoor-to -Indoor 3D Channel Model | Motorola Mobility | - |
R1‑145125 | Remaining issues on assigned D2D resource allocation for release 12 | U.S. Department Of Commerce | - |
R1‑145126 | D2DSS transmission in exceptional cases | III | - |
R1‑145127 | Avoid hidden node problem by pseudo signalling from eNB perspective | III | - |
R1‑145128 | Avoid hidden node problem by full-duplex radio from UE perspective | III | - |
R1‑145129 | Carrier Number and Unmanaged Wi-Fi Considerations | CableLabs, Broadcom | - |
R1‑145130 | AP density and Carrier Number Considerations | CableLabs, Broadcom | - |
R1‑145131 | User Plane Traffic Duplex Considerations | CableLabs, Broadcom | - |
R1‑145132 | Discussion on the comparison of LBE and FBE for LBT | Coolpad | - |
R1‑145133 | Discussion on LBT mechanism in LAA | Coolpad | - |
R1‑145134 | Evaluation results on coverage enhancements | Huawei, HiSilicon | - |
R1‑145135 | Solutions for coverage enhancement | Huawei, HiSilicon | - |
R1‑145136 | Evaluation methodology for coverage enhancement solutions | Huawei, HiSilicon | - |
R1‑145137 | Considerations on signalling optimizations | Huawei, HiSilicon | - |
R1‑145138 | Evaluation results on downlink aspects of the solutions | Huawei, HiSilicon | - |
R1‑145139 | Text proposal on compressed mode operation for downlink enhancements for UMTS | Huawei, HiSilicon | - |
R1‑145140 | Text proposal on impacts on implementation for downlink enhancements for UMTS | Huawei, HiSilicon | - |
R1‑145141 | Network assisted interference cancellation and suppression for UMTS | Huawei, HiSilicon | - |
R1‑145142 | Remaining details of PD2DSCH content | Microsoft Corporation | - |
R1‑145143 | Remaining details of D2D transmission timing | Microsoft Corporation | - |
R1‑145144 | Issues in D2D synchronization procedures | Microsoft Corporation | - |
R1‑145145 | Considerations on Listen Before Talk for fair coexistence | ATR | - |
R1‑145146 | Remaining details of coexistence evaluation assumptions for LAA | CHTTL | - |
R1‑145147 | [Draft] LS reply on ProSe Lawful Interception – In Network Coverage | Ericsson | - |
R1‑145148 | On D2D UE capabilities | Ericsson | - |
R1‑145149 | D2DSS Based Measurements | Ericsson | - |
R1‑145150 | Remaining details of Discovery Resource Allocation | Ericsson | - |
R1‑145151 | Inter-Carrier Aspects of D2D Power Control | Ericsson | - |
R1‑145152 | Discussion on Essential Open Issues for Completion of the RAN D2D WI | Ericsson | - |
R1‑145153 | Remaining details of PD2DSCH design | Ericsson | - |
R1‑145154 | Prioritization rules between resource pools | Ericsson | - |
R1‑145155 | Outstanding Issues for D2D QCL, Scrambling and Timing | Ericsson | - |
R1‑145156 | Receiver Behaviour for D2D Synchronization | Ericsson | - |
R1‑145157 | Transmitter Behaviour for D2D Synchronization | Ericsson | - |
R1‑145158 | Remaining Details of Soft Buffer Sharing | Ericsson | - |
R1‑145159 | Remaining details of D2DSS Design and Resource Allocation | Ericsson | - |
R1‑145160 | TA Granularity in the SA | Ericsson | - |
R1‑145161 | Challenges for Small Data Transmission in UMTS | Nokia Networks | - |
R1‑145162 | Clarifications on Small Data Transmission simulation assumptions | Nokia Networks | - |
R1‑145163 | 36.212 CR0167 (Rel-12, F) Correction to KMIMO definition for UE Cat. 0 | Broadcom Corporation | - |
R1‑145164 | Motivation to use the mixed traffic model for LAA coexistence evaluation | Broadcom Corporation | - |
R1‑145165 | Motivation for including only DL traffic in the aggressor Wi-Fi network for co-existence evaluations | Broadcom Corporation | - |
R1‑145166 | Wi-Fi CCA energy detection & preamble detection thresholds setting in LAA coexistence evaluation | Broadcom Corporation | - |
R1‑145167 | Robust Coexistence LAA-LTE | Broadcom Corporation | - |
R1‑145168 | Initial Evaluation of Clear Channel Assessment mechanisms for LAA | Broadcom Corporation | - |
R1‑145169 | Phase 2 modeling of 2D Antenna Arrays | Ericsson | - |
R1‑145170 | On the number of antenna columns | Ericsson | - |
R1‑145171 | Modeling hardware imperfections in 2DAA | Ericsson | - |
R1‑145172 | Details of heterogeneous network scenarios | Ericsson | - |
R1‑145173 | Phase 1 calibration of Rel-12 MIMO | Ericsson | - |
R1‑145174 | Coverage aspects of increasing the number of antenna ports | Ericsson | - |
R1‑145175 | Standard transparent techniques and performance | Ericsson | - |
R1‑145176 | Performance using 8 TXRU and potential standard changes | Ericsson | - |
R1‑145177 | Initial results for more than 8 TXRU | Ericsson | - |
R1‑145178 | Enhancements of 2D antenna array requirements | Ericsson | - |
R1‑145179 | OTDOA network synchronization for Indoor positioning simulations | NextNav | - |
R1‑145180 | Discussion on Wider Spectrum and Small Cell Further Enhancements for Rel-13 | Huawei, HiSilicon | - |
R1‑145181 | 36.213 CR0490 (Rel-11,F) Correction of the parameter CSIProcessIndex | Huawei, HiSilicon | - |
R1‑145182 | 36.213 CR0491 (Rel-12,A) Correction of the parameter CSIProcessIndex | Huawei, HiSilicon | - |
R1‑145183 | Performance Evaluation of Rel.12 Downlink MIMO in the Het-Net Scenarios | Huawei, HiSilicon | - |
R1‑145184 | On DL physical control channel for MTC in 1.4 MHz system bandwidth | Huawei, HiSilicon | - |
R1‑145185 | On the need of an interleaver for PSDCH/PSCCH/PSSCH | Huawei, HiSilicon | - |
R1‑145186 | On the need to model RTS/CTS in LAA coexistence scenarios | InterDigital | - |
R1‑145187 | LS on ProSe Lawful Interception – In Network Coverage | SA3-LI, British Telecom | - |
R1‑145188 | LS on Support of EVS in 3G UTRAN | SA4, Qualcomm | - |
R1‑145189 | Reply LS on introducing the EVS codec in MTSI | SA4, Panasonic | - |
R1‑145190 | Summary of email discussion [78bis-14]: Proposals on SRS handling for Dual-Connectivity | LG Electronics | - |
R1‑145191 | MU-CSI feedback scheme realizing the potential MU-MIMO gain | ETRI | - |
R1‑145192 | 36.201 CR0008r2 (Rel-12, B) Introduction of TDD-FDD CA, Small-Cell Enhancements, Dual Connectivity, eIMTA, ProSe, WLAN/3GPP interworking, and miscellaneous minor corrections | Alcatel-Lucent | - |
R1‑145193 | Details of Listen-Before-Talk for LAA | Ericsson | - |
R1‑145194 | Remaining Issues on UL Power Control and Power Scaling for Dual Connectivity | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑145195 | User Plane Traffic Duplex Considerations | CableLabs, Broadcom | - |
R1‑145196 | Performance Evaluation of Rel.12 Downlink MIMO in the Het-Net Scenarios | Huawei, HiSilicon | - |
R1‑145197 | Preliminary performance evaluation for Licensed-Assisted Access using LTE | ZTE | - |
R1‑145198 | Coverage Enhancement PUSCH Simulation Results and Proposals | Sierra Wireless | - |
R1‑145199 | Depolarization Matrix Scaling in the Outdoor-to -Indoor 3D Channel Model | Motorola Mobility | - |
R1‑145200 | Summary of RAN1#78bis email discussions on small cell discovery | Huawei, HiSilicon | - |
R1‑145201 | Phase 1 Evaluation Results of Homogeneous Network^^ | ZTE | - |
R1‑145202 | Phase 1 Evaluation Results of Co-channel Heterogeneous Network | ZTE | - |
R1‑145203 | Initial Evaluation Results of 2D Array System with up to 64 TXRUs | ZTE | - |
R1‑145204 | Initial Evaluation Results of 2D Array System with 8 TXRUs | ZTE | - |
R1‑145205 | Initial Evaluation Results of TDD System with SRS Error Modeling | ZTE | - |
R1‑145206 | SRS power allocation and handling in dual connectivity | InterDigital | - |
R1‑145207 | Capturing PCM1 agreements in specification | InterDigital | - |
R1‑145208 | SIB Performance for Rel-13 low complexity MTC | NEC | - |
R1‑145209 | Enabling assigned resources for D2D communication | Qualcomm Inc., U.S. Department of Commerce | - |
R1‑145210 | Remaining issues for small cell enhancements | Samsung | - |
R1‑145211 | Reduced UE complexity for Rel-13 MTC | InterDigital | - |
R1‑145212 | Discussion on cat0 UE features in Rel-12 | Intel Corporation | - |
R1‑145213 | Phase 2 modeling of 2D Antenna Arrays | Ericsson | - |
R1‑145214 | Standard transparent techniques and performance | Ericsson | - |
R1‑145215 | Common control message enhancement for MTC | Intel Corporation | - |
R1‑145216 | Introduction into 3G Ultimate | MCC | - |
R1‑145217 | Initial evaluation results and analysis on LBT mechanism for LAA DL | NTT DOCOMO | - |
R1‑145218 | [Draft] LS reply on ProSe Lawful Interception – In Network Coverage | Huawei | - |
R1‑145219 | [DRAFT] LS on clarification of UE category with supported spatial layers | Samsung | - |
R1‑145220 | void | - | - |
R1‑145221 | Way Forward on Remaining Issues on Small Cell Discovery Signal | Huawei, HiSilicon | - |
R1‑145222 | Remaining issues for D2D | Qualcomm Inc. | - |
R1‑145223 | On the number of antenna columns | Ericsson | - |
R1‑145224 | Phase 1 calibration of Rel-12 MIMO | Ericsson | - |
R1‑145225 | WF on D2D UE features | LG Electronics, Qualcomm, ITRI | - |
R1‑145226 | WF on D2DSS quality | LG Electronics, Qualcomm | - |
R1‑145227 | WF on synchronization procedure | LG Electronics, Qualcomm, NEC, General Dynamics, ETRI, CEWiT, Ericsson | - |
R1‑145228 | WF on PD2DSCH demodulation | LG Electronics, InterDigital Communications, Lenovo | - |
R1‑145229 | D2DSS signal design | Qualcomm Inc. | - |
R1‑145230 | 25.214 CR0732r2 (Rel-12, F) Clarifications to Further EUL Enhancements | QUALCOMM Incorporated, Ericsson, Huawei, HiSilicon, Nokia Networks | - |
R1‑145231 | Text proposal on the summary of coverage evaluations | Ericsson, Huawei, HiSilicon | - |
R1‑145232 | Text proposal on potential solutions for coverage enhancement in SDT | Huawei, HiSilicon | - |
R1‑145233 | Text proposal on Evaluation methodology and metrics for coverage enhancement solutions | Huawei, HiSilicon | - |
R1‑145234 | Text Proposal on evaluation results on downlink aspects of the solutions | Huawei, HiSilicon, Qualcomm Inc. | - |
R1‑145235 | Text proposal on compressed mode operation for downlink enhancements for UMTS | Huawei, HiSilicon | - |
R1‑145236 | DraftTR 25.705 v0.1.0 Study on small data transmission enhancements for UMTS | Ericsson | - |
R1‑145237 | Chairpersons’ summary of the UMTS sessions | UMTS Session Chairpersons (Carmela Cozzo, Huawei, Gerardo Agni Medina Acosta, Ericsson) | - |
R1‑145238 | TR 25.705 v0.1.0 Study on small data transmission enhancements for UMTS | Ericsson | - |
R1‑145239 | void | - | - |
R1‑145240 | void | - | - |
R1‑145241 | void | - | - |
R1‑145242 | void | - | - |
R1‑145243 | void | - | - |
R1‑145244 | void | - | - |
R1‑145245 | void | - | - |
R1‑145246 | void | - | - |
R1‑145247 | void | - | - |
R1‑145248 | void | - | - |
R1‑145249 | TR 36.897 v0.1.1 Study on Elevation Beamforming/Full-Dimension (FD) MIMO for LTE | MCC | - |
R1‑145250 | Offline discussion on ProSe UE capabilities | NTT DOCOMO | - |
R1‑145251 | WF on Rel-12 Category 0 UE | Intel Corporation, Vodafone, InterDigital, Ericsson, Nokia Networks, Nokia Corporation, Panasonic, NEC, Motorola Mobility, Samsung, Orange, AT&T, CMCC, ZTE, Sony, KT Corp., KDDI, SoftBank Mobile, ITL Inc., Sequans, ETRI | - |
R1‑145252 | WF on Resource Pool Definition | Qualcomm Inc. (Rapporteur), Kyocera | - |
R1‑145253 | WF on Discovery Message Size | Qualcomm Inc., Intel, Kyocera, LGE, General Dynamics | - |
R1‑145254 | WF on Discovery & D2DSS Overlap | Qualcomm Inc., Intel, Kyocera, Samsung, General Dynamics, III | - |
R1‑145255 | WF on D2DSS | Qualcomm Inc., ALU, ASB, Ericsson, Huawei, HiSilicon, General Dynamics | - |
R1‑145256 | WF on other D2D transmissions in D2DSS resource | LG Electronics, Qualcomm | - |
R1‑145257 | WF on remaining details on DL gap for D2D discovery | LG Electronics, Qualcomm | - |
R1‑145258 | WF on Transmit Power Reduction | LG Electronics, Qualcomm, ^^General Dynamics UK, Kyocera | - |
R1‑145259 | WF on multiplexing UL HARQ-ACK TX and D2D TX/RX | LG Electronics, NEC, Huawei, HiSilicon, Potevio | - |
R1‑145260 | WF on D2D TX UE behavior in eIMTA | LG Electronics, NEC | - |
R1‑145261 | WF on remaining details of WAN & D2D multiplexing | LG Electronics, Qualcomm | - |
R1‑145262 | WF on D2D Transmitter Capabilities | Ericsson, ALU, ASB | - |
R1‑145263 | WF on Soft Buffer for D2D | Ericsson | - |
R1‑145264 | WF on Indoor deployment density for coexistence evaluations | Cisco Systems, CableLabs, Broadcom, Ruckus Wireless, AT&T | - |
R1‑145265 | [Draft] LS on additional agreements on small cell discovery | Huawei | - |
R1‑145266 | [Draft] Reply LS for Rel-12 NAICS | MediaTek | - |
R1‑145267 | [Draft] LS on additional agreements on small cell discovery | Huawei | - |
R1‑145268 | WF on Resource Pool Definition | Qualcomm Inc. (Rapporteur), Kyocera, LGE, Panasonic | - |
R1‑145269 | LS on additional agreements on small cell discovery | RAN1, Huawei | - |
R1‑145270 | Reply LS for Rel-12 NAICS | RAN1, MediaTek | - |
R1‑145271 | WF on D2DSS transmission condition | LG Electronics, Samsung, ETRI | - |
R1‑145272 | 36.213 CR0486r1 (Rel-11, F) Clarification of periodic CSI feedback for subband CQI and PMI | Samsung | - |
R1‑145273 | 36.213 CR0487r1 (Rel-12, A) Clarification of periodic CSI feedback for subband CQI and PMI | Samsung | - |
R1‑145274 | [Draft] LS on D2D Synchronization procedure | Qualcomm | - |
R1‑145275 | UE features list on Rel-12 LTE | NTT DOCOMO | - |
R1‑145276 | [Draft] LS on updated LTE Rel-12 UE feature list | NTT DOCOMO | - |
R1‑145277 | void | - | - |
R1‑145278 | void | - | - |
R1‑145279 | Draft LS on RRC parameters for ProSe LTE D2D | Qualcomm | - |
R1‑145280 | WF on Discovery Soft Buffer | Ericsson | - |
R1‑145281 | Draft LS on List of RAN1 Agreements | Qualcomm | - |
R1‑145282 | void | - | - |
R1‑145283 | void | - | - |
R1‑145284 | LS on List of RAN1 Agreements | RAN1, Qualcomm | - |
R1‑145285 | LS on RRC parameters for ProSe LTE D2D | RAN1, Qualcomm | - |
R1‑145286 | void | - | - |
R1‑145287 | LS on updated LTE Rel-12 UE feature list | RAN1, NTT DOCOMO | - |
R1‑145288 | WF on Synchronization Behavior (Transmitter) | Ericsson | - |
R1‑145289 | WF on D2D HARQ process definition | LG Electronics | - |
R1‑145290 | LS on D2D out of coverage resource allocation | ZTE | - |
R1‑145291 | [Draft] LS on Maximum Number of Sidelink Processes and Maximum Transport Block Size | Ericsson | - |
R1‑145292 | [Draft] LS on D2D Synchronization Procedure | Ericsson | - |
R1‑145293 | LS on D2D out of coverage resource allocation | RAN1, ZTE | - |
R1‑145294 | LS on Maximum Number of Sidelink Processes and Maximum Transport Block Size | RAN1, Ericsson | - |
R1‑145295 | LS on D2D Synchronization Procedure | RAN1, Ericsson | - |
R1‑145296 | Draft LS on updated LTE Rel-12 D2D UE feature list | Qualcomm | - |
R1‑145297 | [Draft] LS on D2D Synchronization Procedure | Qualcomm | - |
R1‑145298 | LS on D2D Synchronization Procedure | RAN1, Ericsson, Qualcomm | - |
R1‑145299 | WF on PD2DSCH Details | Qualcomm | - |
R1‑145300 | WF on D2DSS symbol locations | Huawei, HiSilicon, Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑145301 | LS on updated LTE Rel-12 D2D UE feature list | RAN1, Qualcomm | - |
R1‑145302 | WF on D2DSS | Qualcomm, ALU, ASB, Huawei, HiSilicon, General Dynamics, Samsung, ETRI, Sharp | - |
R1‑145303 | WF on D2DSS Symbol Location | Qualcomm Inc., Ericsson, LGE | - |
R1‑145304 | WF on PD2DSCH content | Huawei, HiSilicon, Qualcomm, Microsoft, General Dynamics, CATT | - |
R1‑145305 | WF on Triggering Condition(s) of D2DSS Transmission | Nokia Corp., Nokia Networks, Samsung, ITRI, III | - |
R1‑145306 | WF on timing for Mode 2 | LG Electronics, Samsung, Sharp | - |
R1‑145307 | WF on SA and data transmission | LG Electronics, Samsung, ZTE | - |
R1‑145308 | WF on Selection and Reselection of Synchronization Source | Samsung, LGE, KDDI, Qualcomm, III, ITRI | - |
R1‑145309 | WF on Tx Timing Synchronization | Samsung, Qualcomm | - |
R1‑145310 | WF on Conditions for Synchronization Sources in Out-of-coverage | Samsung, Nokia Corp., Nokia Networks | - |
R1‑145311 | WF on Conditions for Flat Synchronization | Samsung, CEWiT | - |
R1‑145312 | WF on PD2DSS Design | Intel Corporation, LGE | - |
R1‑145313 | WF on SD2DSS PAPR/CM Reduction | Intel Corporation | - |
R1‑145314 | WF on Remaining Details of MAC PDU Transmission | Intel, Qualcomm | - |
R1‑145315 | Way Forward on Mixed Traffic Model | Broadcom, AT&T, CableLabs, Cisco Systems, Ruckus Wireless | - |
R1‑145316 | Way Forward on Wi-Fi wider channel bandwidth | Broadcom Corporation, AT&T, BlackBerry, CableLabs, Cisco Systems, Ruckus Wireless | - |
R1‑145317 | Way Forward on User Plane Traffic Duplex | CableLabs, Broadcom, Cisco, Orange, KDDI, Kyocera, Ruckus Wireless, Sony | - |
R1‑145318 | Way Forward on Carrier Number and Unmanaged Wi-Fi | CableLabs, AT&T, BlackBerry, Broadcom, Kyocera, MediaTek, Orange, Sony | - |
R1‑145319 | Way Forward on Static Channel Selection for Unmanaged Wi-Fi APs | CableLabs, AT&T, BlackBerry, Broadcom, Cisco, Sony | - |
R1‑145320 | Summary of initial co-existence evaluations | Huawei, HiSilicon, Cisco, NTT Docomo, ZTE | - |
R1‑145321 | Remaining aspects of existing unlicensed spectrum regulatory requirements | Huawei, HiSilicon | - |
R1‑145322 | WF on LAA Evaluation Assumptions – Layout and Number of Carriers, Nodes and UEs | Ericsson, Qualcomm | - |
R1‑145323 | WF on LAA Evaluation Assumptions – UE Bandwidth, Cell Selection, Network Synchronization, Performance Metrics | Ericsson, Qualcomm, Samsung, ZTE | - |
R1‑145324 | Avoid hidden node problem by pseudo signalling from eNB perspective | III | - |
R1‑145325 | WF on LAA Evaluation Assumptions – Layout and Number of Carriers, Nodes and UEs | Cisco Systems, Broadcom, Ruckus Wireless, CableLabs | - |
R1‑145326 | Analysis on small-cell and UE dropping models in HetNet | LG Electronics | - |
R1‑145327 | Analysis on UE association modeling in HetNet | LG Electronics | - |
R1‑145328 | Initial non-full buffer evaluation results for Phase 1 | LG Electronics | - |
R1‑145329 | Analysis on UE-dedicated elevation beamforming with 8 TXRUs | LG Electronics | - |
R1‑145330 | WF on LAA Evaluation Assumptions – Antenna Configuration, MCS, Wi-Fi Detailed Assumptions and Duplexing | Ericsson, Samsung, Qualcomm, Huawei, HiSilicon, Intel | - |
R1‑145331 | Reply LS on DRS based measurements | RAN4, Huawei | - |
R1‑145332 | Notes from offline MTC sessions | WI rapporteur (Johan Bergman, Ericsson) | - |
R1‑145333 | Proposals on SRS power allocation in dual connectivity | InterDigital, Alcatel-Lucent, Alcatel-Lucent Shanghai Bell, LG, Samsung | - |
R1‑145334 | Text proposal on Rel-13 LAA functionalities for TR36.889 | Ericsson, CHTTL, Alcatel-Lucent, Alcatel-Lucent Shanghai Bell, NTT Docomo, Sharp, Huawei, HiSilicon, Nokia Corporation, Nokia Networks, InterDigital, Qualcomm | - |
R1‑145335 | WF on LAA Evaluation Assumptions – FTP packet size | Ericsson, Qualcomm, Nokia Corporation, Nokia Networks, Samsung, ALU, ASB, Huawei, HiSilicon | - |
R1‑145336 | WF on LAA Evaluation Assumptions – Load factor | Intel, Samsung, Qualcomm, Ericsson | - |
R1‑145337 | WF on PRACH power ramping in dual connectivity | Ericsson, NEC, Nokia Corporation, Nokia Networks, Qualcomm, LG, Samsung, Huawei, HiSilicon | - |
R1‑145338 | WF on LAA Evaluation Assumptions – UPT calculation | Ericsson, Huawei, HiSilicon, LGE, Samsung | - |
R1‑145339 | Reply LS on ProSe Lawful Interception – In Network Coverage | RAN3, Huawei | - |
R1‑145340 | Outcome of offline discussion on dual connectivity | NTT DOCOMO | - |
R1‑145341 | Updates to Regulatory Requirements for Unlicensed Spectrum | Ericsson | - |
R1‑145342 | Discussion on Synchronization for Rel-13 MTC UE for Coverage Enhancement | MediaTek Inc. | - |
R1‑145343 | WF on PRACH handling in dual connectivity | LG Electronics, Huawei, HiSilicon, InterDigital, Nokia Networks, Nokia Corp, Intel | - |
R1‑145344 | WF on NB Operation for MTC | Qualcomm, Ericsson, Nokia Networks, DoCoMo, NEC, ALU, ASB, Sony, Sharp, CATT, Interdigital, Intel, Samsung, ZTE, KT, Panasonic, Sierra Wireless, MediaTek, Fujitsu | - |
R1‑145345 | WF on SIB for MTC | Qualcomm, Ericsson, Panasonic, Nokia Networks, DoCoMo, ALU, ASB, Sierra Wireless, NEC, InterDigital, CATT, ZTE, Samsung, MediaTek, Fujitsu, LGE | - |
R1‑145346 | WF on number of antenna columns for homogeneous scenarios in phase 2 | Samsung, Qualcomm, CHTTL, Nokia Networks, Nokia Corporation, Huawei, HiSilicon, Alcatel-Lucent, Alcatel-Lucent Shanghai Bell, InterDigital, NTT DOCOMO, Motorola Mobility, LG Electronics | - |
R1‑145347 | LS on additional agreements on PRACH on dual connectivity | RAN1, LGE | - |
R1‑145348 | WF on coverage enhancement targets for MTC | Ericsson, AT&T, InterDigital, MediaTek, NEC, Nokia Networks, Nokia Corporation, Orange, Panasonic, Qualcomm, Sierra Wireless, Sony, Verizon, ZTE | - |
R1‑145349 | Proposal on SRS estimation error modeling | CMCC, Alcatel-Lucent, Alcatel-Lucent Shanghai Bell, CATT, Ericsson, Huawei, HiSilicon, INTEL, Nokia Net., Nokia Corp., QUALCOMM, NEC, ZTE | - |
R1‑145350 | Phase 1 evaluation results for homogeneous networks | Samsung | - |
R1‑145351 | WF on remaining details of HetNet scenario with separate frequency | LG Electronics, NTT DOCOMO, CHTTL | - |
R1‑145352 | WF on UE attachment for Phase 2 | LG Electronics, Nokia, Nokia Networks, Samsung | - |
R1‑145353 | WF on D2D out of coverage resource allocation on a TDD(FDD) carrier | ZTE, CATT, Ericsson, Alcatel-Lucent, Alcatel-Lucent Shanghai Bell | - |
R1‑145354 | Vertical sectorization performance with Rel-12 | Nokia Networks, Nokia Corporation | - |
R1‑145355 | WF on simulations for enhancement proposals | Nokia Networks, Nokia Corporation | - |
R1‑145356 | WF on prioritization of antenna configurations | Nokia Networks, Nokia Corporation, Samsung, CHTTL | - |
R1‑145357 | Way forward on the number of antenna element rows M and columns N for Phase 2 evaluations | Ericsson, Intel, ZTE, AT&T | - |
R1‑145358 | Way Forward on ProSe UE category | CATT | - |
R1‑145359 | Standard transparent techniques and performance | Ericsson | - |
R1‑145360 | Coverage aspects of increasing the number of antenna ports | Ericsson | - |
R1‑145361 | WF on capturing phase 1 results | Samsung | - |
R1‑145362 | Observation on Phase I evaluation of EBF/FD-MIMO based on Rel.12 | CATT, Alcatel-Lucent, Alcatel-Lucent Shanghai Bell, CMCC, Ericsson, Intel, | - |
R1‑145363 | Performance of Rel.12 MIMO based EBF/FDMIMO with 8 TXRU | CATT | - |
R1‑145364 | Evaluation of FD MIMO with 16-64 TXRU | CATT | - |
R1‑145365 | WF on coverage enhancement target for MTC | Huawei, HiSilicon, Samsung | - |
R1‑145366 | Proposal for RAN4 guidance on retuning time | Huawei, HiSilicon | - |
R1‑145367 | Further discussion on evaluated scenarios and the performance metric for indoor positioning | Huawei, HiSilicon | - |
R1‑145368 | Further discussion on channel model for indoor positioning | Huawei, HiSilicon | - |
R1‑145369 | Discussion on the simulation methodology for baseline indoor positioning technologies | Huawei, HiSilicon | - |
R1‑145370 | Reply LS on Octet alignment in ProSe Direct Discovery | RAN2, InterDigital | - |
R1‑145371 | LS on Rel-12 NAICS CA Capability | RAN4, MediaTek | - |
R1‑145372 | WF on simulation assumptions for co-channel HetNet | Huawei, HiSilicon, Deutsche Telekom, CMCC, China Telecom, ALU, ASB | - |
R1‑145373 | Way Forward on PRACH enhancement for Rel-13 MTC | ZTE, Qualcomm, InterDigital, Ericsson, NEC, Alcatel-Lucent, Alcatel-Lucent Shanghai Bell, CATT, NTT DOCOMO, Huawei, HiSilicon | - |
R1‑145374 | WF on Transmitting UE behavior for overlapped resource pools | ZTE, LGE | - |
R1‑145375 | WF on other D2D channel in D2DSS subframe | ZTE, Huawei, HiSilicon | - |
R1‑145376 | WF on Type 2 discovery transmission | ZTE, NTT DoCoMo, NEC | - |
R1‑145377 | Summary of SIB Performance Results | Nokia Networks, Nokia Corporation | - |
R1‑145378 | WF on remaining details of HetNet scenario with separate frequency | LG Electronics, NTT DOCOMO, CHTTL | - |
R1‑145379 | WF on LAA functionalities | Huawei, HiSilicon, Intel, Kyocera, CATR, Ericsson, NTT DOCOMO, Nokia Networks, Nokia Corporation, CATT, Sharp, ZTE | - |
R1‑145380 | Way Forward on Subframe Structure, Numerology and System Bandwidth for LAA | Qualcomm, Intel, Nokia Corporation, Nokia Networks, ETRI, NTT DOCOMO, CATT | - |
R1‑145381 | WF on remaining details of PD2DSCH design | LG Electronics, Lenovo | - |
R1‑145382 | WF on D2D synchronization measurement | LG Electronics, ALU, ASB, Lenovo | - |
R1‑145383 | WF on Cell Association | LG Electronics, NTT DOCOMO, Fujitsu | - |
R1‑145384 | WF on coverage enhancement targets for MTC | Ericsson, Alcatel-Lucent, Alcatel-Lucent Shanghai Bell, AT&T, DTAG, Intel, InterDigital, KDDI, KT, LG Electronics, Nokia Networks, Nokia Corporation, Panasonic, Qualcomm, Sierra Wireless, Sony | - |
R1‑145385 | WF on cross-subframe schedulling for MTC | LG Electronics, Alcatel-Lucent, Alactel-Lucent Shanghai Bell, InterDigital, ETRI, ZTE, CATT, Ericsson | - |
R1‑145386 | WF on PSS/SSS for MTC^^ | Alcatel-Lucent, Alcatel-Lucent Shanghai Bell, Ericsson, Huawei, HiSilicon, Sony, LG, Nokia Networks, Nokia Corporation, Samsung, Interdigital, Qualcomm, ZTE | - |
R1‑145387 | WF on Detecting Out-of-sync State | Samsung | - |
R1‑145388 | 36.214 CR0020r1 (Rel-12, B) Introduction of MBSFN radio measurements | Intel Corporation, Alcatel-Lucent, Alcatel-Lucent Shanghai Bell, Samsung, Ericsson | - |
R1‑145389 | Proposal on SRS estimation error modeling | CMCC, Alcatel-Lucent, Alcatel-Lucent Shanghai Bell, CATT, Ericsson, Huawei, HiSilicon, Intel, InterDigital, Nokia Net., Nokia Corp., QUALCOMM, Samsung, NEC, ZTE | - |
R1‑145390 | WF on RAR/Paging for MTC | Nokia Networks, Nokia Corporation, Ericsson, DoCoMo, Qualcomm, Intel, Panasonic, Sierra Wireless, Alcatel Lucent, NEC, InterDigital, MediaTek, Huawei, HiSilicon | - |
R1‑145391 | Observations on SIB Performance for MTC | Nokia Networks, Nokia Corporation | - |
R1‑145392 | WF on SIBs for MTC | Huawei, HiSilicon, ALU, ASB, CATT, Ericsson, Intel, InterDigital, MediaTek, NEC, NTT DOCOMO, Sony, Sierra Wireless, ZTE | - |
R1‑145393 | WF on Physical downlink control channel for MTC | Ericsson, Sony, Panasonic, InterDigital, LG Electronics, NTT DOCOMO, NEC, Sharp, Qualcomm | - |
R1‑145394 | WF on repetition of data associated channels for MTC | Ericsson, InterDigital, NEC, Sharp | - |
R1‑145395 | WF on assumptions of antenna height for outdoor small cell | ZTE | - |
R1‑145396 | WF on evaluation scenarios and assumptions for indoor positioning study | LG Electronics, Ericsson, Huawei, HiSilicon, III, Nokia Networks, Nokia Corporation, Qualcomm | - |
R1‑145397 | Summary of PUSCH Performance Results In RAN#79 | Sierra Wireless | - |
R1‑145398 | WF on PRACH for Rel-13 low-complexity UE | InterDigital, Ericsson, Panasonic, Intel, KT Corp., ALU, ASB, LG Electronics, Huawei, HiSilicon, Nokia Networks, CATT, Sierra Wireless, Sharp | - |
R1‑145399 | [Draft] LS on Support of Narrowband Operation for MTC | Qualcomm | - |
R1‑145400 | WF on PBCH repetition for Coverage Enhancement of MTC | LG Electronics, Nokia Networks, Nokia Corp, Qualcomm, NEC, CATT, Huawei, ^^HiSilicon, ZTE, Samsung | - |
R1‑145401 | [Draft] LS on simultaneous reception requirements and SIBS for MTC Ues | Huawei | - |
R1‑145402 | WF on simulations for enhancement proposals | Nokia Networks, Nokia Corporation, Ericsson, Samsung, CATT, LG, Huawei, HiSilicon, Motorola Mobility, Qualcomm, ALU, ASB, NTT DOCOMO, Intel | - |
R1‑145403 | [Draft] LS on Observations on SIB Performance for Rel-13 Low-Complexity UE | Nokia Networks | - |
R1‑145404 | [Draft] LS on Additional Aspects for MTC | Qualcomm | - |
R1‑145405 | WF on TM10 CSI-IM Measurements | Qualcomm | - |
R1‑145406 | WF on Default Values for TM8/9 Codebook Subset Restriction | Qualcomm, Samsung | - |
R1‑145407 | [Draft] LS on Support of Narrowband Operation for MTC | Qualcomm | - |
R1‑145408 | [Draft] LS on Additional Aspects for MTC | Qualcomm | - |
R1‑145409 | LS on measurements for MBMS support | RAN4, Qualcomm | - |
R1‑145410 | LS on Rel-12 NAICS 4CRS AP Capability | RAN4, MediaTek | - |
R1‑145411 | WF on 2D TXRU Virtualization | Intel, Ericsson, CATT, Qualcomm | - |
R1‑145412 | WF on CRS virtualization for Phase 2 | LG Electronics , CEWiT, Ericsson, Intel, ITRI, Nokia Corporation, Nokia Networks, Motorola Mobility, NTT DOCOMO, Qualcomm, Samsung, ZTE | - |
R1‑145413 | [Draft] LS on simultaneous reception requirements and SIBS for MTC Ues | Huawei | - |
R1‑145414 | LS on Observations on SIB Performance for Rel-13 Low-Complexity UE | RAN1, Nokia Networks | - |
R1‑145415 | Way forward on simulation assumptions for OTDOA configurations | Huawei, HiSilicon, Qualcomm, Ericsson, Intel, Nokia Networks, Nokia, ALU, ASB, ZTE, LGE | - |
R1‑145416 | LS on simultaneous reception requirements and SIBS for MTC Ues | RAN1, Huawei | - |
R1‑145417 | WF on number of antenna columns | Nokia Networks, Nokia Corporation, Ericsson, Samsung | - |
R1‑145418 | WF on Remaining Simulation Assumptions for Co-channel HetNet | Huawei, HiSilicon, Alcatel Lucent, Alcatel Lucent Shanghai Bell | - |
R1‑145419 | LS on D2D Synchronization | RAN1, Qualcomm Inc. | - |
R1‑145420 | [Draft] LS on D2D Synchronization Signal Design and Procedure | Qualcomm Inc | - |
R1‑145421 | void | - | - |
R1‑145422 | [Draft] LS on D2D Synchronization Signal Design and Procedure | Qualcomm Inc | - |
R1‑145423 | WF on Sync Procedure Specification | Qualcomm Inc | - |
R1‑145424 | void | - | - |
R1‑145425 | void | - | - |
R1‑145426 | void | - | - |
R1‑145427 | void | - | - |
R1‑145428 | void | - | - |
R1‑145429 | void | - | - |
R1‑145430 | 36.211 CR0195r3 (Rel-12, F) Clarification of PUSCH rate matching with SRS | LG Electronics | - |
R1‑145431 | 36.212 CR0164r3 (Rel-12, F) Clarification of PUSCH rate matching with SRS | LG Electronics | - |
R1‑145432 | void | - | - |
R1‑145433 | void | - | - |
R1‑145434 | void | - | - |
R1‑145435 | void | - | - |
R1‑145436 | void | - | - |
R1‑145437 | void | - | - |
R1‑145438 | void | - | - |
R1‑145439 | [DRAFT] LS on cat0 UE features in Rel-12 | Intel Corporation | - |
R1‑145440 | WF on Physical downlink control channel for MTC | Ericsson | - |
R1‑145441 | Chairman’s Notes of Agenda Item 6.2.1 LTE Device to Device Proximity Services | Ad-Hoc Chairman (Alcatel Lucent) | - |
R1‑145442 | Summary of Ad-hoc session on Study on Indoor Positioning Enhancements for UTRA and LTE | Ad-Hoc Chairman (Qualcomm) | - |
R1‑145443 | Proposal on modified resource utilization for LAA evaluation | NTT DOCOMO | - |
R1‑145444 | Summary of Adhoc sessions on LAA | Ericsson | - |
R1‑145445 | Proposal on modified resource utilization for LAA evaluation | NTT DOCOMO | - |
R1‑145446 | WF on RAR/Paging for MTC | Nokia Networks, Nokia Corporation, DoCoMo, Ericsson, ETRI, Qualcomm, Intel, KDDI, Sharp, Sierra Wireless, Alcatel-Lucent, Alcatel-Lucent Shanghai Bell, NEC, InterDigital, MediaTek, ZTE, Huawei, HiSilicon, Panasonic, Sony, Samsung, LG Electronics | - |
R1‑145447 | Summary of PUSCH Performance Results In RAN#79 | Sierra Wireless | - |
R1‑145448 | [Draft] LS on Support of Narrowband Operation for MTC | Qualcomm | - |
R1‑145449 | [Draft] LS on Additional Aspects for MTC | Qualcomm | - |
R1‑145450 | [DRAFT] LS on Paging for MTC | Nokia Networks | - |
R1‑145451 | LS on Support of Narrowband Operation for MTC | RAN1, Qualcomm | - |
R1‑145452 | TR 36.889 v0.0.4 Study on licensed-assisted access using LTE | Ericsson, Huawei | - |
R1‑145453 | Text proposal on coexistence evaluation assumptions for LAA for TR36.889 | Ericsson, Huawei | - |
R1‑145454 | LS on Paging for MTC | RAN1, Nokia Networks | - |
R1‑145455 | LS on Additional Aspects for MTC | RAN1, Qualcomm | - |
R1‑145456 | WF on Rel-12 Category 0 UE | - | - |
R1‑145457 | LS on clarification of UE category with supported spatial layers | RAN1, Samsung | - |
R1‑145458 | 36.213 CR0488r1 (Rel-12, F) Correction to PUCCH procedures in case of FDD Pcell and TDD Scell in TDD-FDD CA | Samsung | - |
R1‑145459 | WF on Reception Timing Assumptions | Ericsson | - |
R1‑145460 | WF on Remaining D2D Issues | Qualcomm Inc.(Rapporteur) | - |
R1‑145461 | 36.213 CR0482R3 (Rel 12, B) Introduction of D2D (ProSe), Dual Connectivity, Small Cell Enhancements, NAICS, eIMTA, and TDD-FDD CA features | Motorola Mobility | - |
R1‑145462 | [Draft] LS reply on ProSe Lawful Interception – In Network Coverage | Huawei | - |
R1‑145463 | LS on cat0 UE features in Rel-12 | RAN1, Intel Corporation | - |
R1‑145464 | Response LS on further MBMS operations support for E-UTRAN | RAN2, Alcatel-Lucent | - |
R1‑145465 | WF on condition to become a synchronization source | Samsung, Nokia Corp., Nokia Networks | - |
R1‑145466 | LS on Rel-12 NAICS CA AP Capability - Clarification | RAN4, MediaTek | - |
R1‑145467 | LS on RAN2 agreements on RA preamble power ramping suspension | RAN2, LGE | - |
R1‑145468 | High Level PUSCH Simulation Assumptions | Sierra Wireless | - |
R1‑145469 | void | - | - |
R1‑145470 | TR 36.889 v0.0.5 Study on licensed-assisted access using LTE | Ericsson, Huawei | - |
R1‑145471 | [DRAFT] LS on agreements on Licensed-Assisted Access using LTE | Ericsson, Huawei | - |
R1‑145472 | [Draft] LS on PBCH and RACH for LTE Rel-13 MTC | Ericsson | - |
R1‑145473 | LS reply on ProSe Lawful Interception – In Network Coverage | RAN1, Huawei | - |
R1‑145474 | TR 36.889 v0.1.0 Study on licensed-assisted access using LTE | Ericsson, Huawei | - |
R1‑145475 | LS on agreements on Licensed-Assisted Access using LTE | RAN1, Ericsson, Huawei | - |
R1‑145476 | [Draft] LS on PBCH and RACH for LTE Rel-13 MTC | Ericsson | - |
R1‑145477 | LS on prioritization of WAN Rx over ProSe discovery Rx | RAN2, Qualcomm | - |
R1‑145478 | LS on D2D Synchronization Signal Design and Procedure | RAN1, Qualcomm | - |
R1‑145479 | 36.214 CR0026 (Rel-12, B) Inclusion of measurement for ProSe | Ericsson | - |
R1‑145480 | 36.214 CR0023r2 (Rel-12, B) Measurement definitions for measurements with discovery reference signals | Ericsson | - |
R1‑145481 | 36.211 CR0196r3 (Rel-12, B) Inclusion of ProSe | Ericsson | - |
R1‑145482 | 36.211 CR0197r3 (Rel-12, B) Inclusion of small-cell enhancements | Ericsson | - |
R1‑145483 | TR 36.889 v0.1.1 Study on Licensed-Assisted Access to Unlicensed Spectrum | MCC | - |
R1‑145484 | 36.213 CR0482R4 (Rel 12, B) Introduction of D2D (ProSe), Dual Connectivity, Small Cell Enhancements, NAICS, eIMTA, and TDD-FDD CA features | Motorola Mobility | - |
R1‑145485 | 36.212 CR0162r2 (Rel-12, B) Introduction of D2D feature into 36.212 | Huawei | - |
R1‑145486 | 36.212 CR0163r3 (Rel-12, F) Correction for rate matching parameters for UE categories 11 and 12 for 36.212 | Huawei | - |
R1‑145487 | 36.214 CR0026r1 (Rel-12, B) Inclusion of measurement for ProSe | Ericsson | - |
R1‑145488 | 36.214 CR0023r3 (Rel-12, B) Measurement definitions for measurements with discovery reference signals | Ericsson | - |
R1‑145489 | 36.211 CR0196r4 (Rel-12, B) Inclusion of ProSe | Ericsson | - |
R1‑145490 | 36.211 CR0197r4 (Rel-12, B) Inclusion of small-cell enhancements | Ericsson | - |
R1‑145491 | 36.213 CR0482R5 (Rel 12, B) Introduction of Dual Connectivity, Small Cell Enhancements, NAICS, eIMTA, and TDD-FDD CA features | Motorola Mobility | - |
R1‑145492 | 36.201 CR0008r3 (Rel-12, B) Introduction of TDD-FDD CA, Small-Cell Enhancements, Dual Connectivity, eIMTA, ProSe, WLAN/3GPP interworking, and miscellaneous minor corrections | Alcatel-Lucent | - |
R1‑145493 | 36.201 CR0009 (Rel-12, B) Introduction of D2D feature into 36.201 | Alcatel-Lucent | - |
R1‑145494 | 36.213 CR0492 (Rel 12, B) Introduction of D2D feature into 36.213 | Motorola Mobility | - |
R1‑145495 | LS on PBCH and RACH for LTE Rel-13 MTC | RAN1, Ericsson | - |
R1‑145496 | Summary of Email discussion [79-05] on Load factor metrics for LAA evaluation | NTT DOCOMO | - |
page generated from database: 2024-07-20 12:15:34