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    • 7. 发明申请
    • METHODS AND APPARATUS OF INTERRUPTION FOR V2X COMMUNICATION
    • WO2021226949A1
    • 2021-11-18
    • PCT/CN2020/090317
    • 2020-05-14
    • MEDIATEK SINGAPORE PTE. LTD.TANG, ZhixunYU, Tsang-Wei
    • TANG, ZhixunYU, Tsang-Wei
    • H04W72/00H04W4/06
    • When a UE supports both Uu link (WAN) and NR V2X sidelink, a RRC reconfiguration command can initiate or cease the V2X sidelink communication. An interruption to Uu link (WAN) will happen during RRC reconfiguration. When a UE supports both LTE V2X sidelink and NR V2X sidelink, there is an interruption to LTE V2X sidelink due to NR V2X sidelink synchronization source change. Also, there is an interruption to NR V2X sidelink due to LTE V2X sidelink synchronization source change. When a UE supports Uu link (WAN), LTE V2X sidelink and NR V2X sidelink, there is an interruption to Uu link due to switching between NR SL and LTE SL. When a UE supports at least NR V2X sidelink and two synchronization sources that UE switches between are not synchronized, for broadcast communication, the sidelink communication will be interrupted with 1ms due to synchronization sources change. For group-cast and unicast communication, the sidelink communication will be ceased due to synchronization source change. When a UE supports both Uu link (WAN) and NR V2X sidelink, the sidelink communication will be interrupted with 1ms due to synchronization sources change between eNB/gNB and gNB/eNB. The interruption will happen after UE Uu link receiving the handover command on the old PDSCH and before UE sending the new PRACH.
    • 9. 发明申请
    • METHODS AND APPARATUS OF SCELL ACTIVATION IN NEW RADIO SYSTEM
    • WO2021159303A1
    • 2021-08-19
    • PCT/CN2020/074874
    • 2020-02-12
    • MEDIATEK SINGAPORE PTE. LTD.TANG, ZhixunYU, Tsang-WeiLIN, Hsuan-Li
    • TANG, ZhixunYU, Tsang-WeiLIN, Hsuan-Li
    • H04W24/10
    • When there is no active serving cell on this FR2 band and all SCells to-be-activated belongs to the same intra-band, the SCell activation can be defined as known and unknown condition. If all of the multiple SCell activation can be unknown SCells and if single MAC CE command for these multiple SCells, only one unknown SCell needs to execute cell search and L1-RSRP measurement. Other unknown SCells just hold on the activation procedure until one of the unknown SCell finishing the cell search and L1-RSRP measurement. After that all unknown SCells will wait their TCI configuration from network and execute their SCell activation process independently. It shall be noted that although the TCI configuration for QCL TypeD RS shall be the same source SSB, the TCI configuration for these unknown SCells shall still be different because each serving cell's timing/Doppler configuration RS bases on its serving cell's information independently. If at least one of the multiple SCell activation can be known SCell and one of the multiple SCell activation can be unknown SCell and if single MAC CE command for these multiple SCells, the unknown SCell won' t need these cell search, L1-RSRP measurement and reporting procedure. Unknown SCells will wait PDCCH TCI, PDSCH TCI, CSI-RS reporting configuration and SCell activation command. After that, the Unknown SCells will also have the same activation procedure as known SCell. Owing to the TCI and CSI-RS configuration for each SCell may not come at the same time. The RF retuning occasion for each SCell shall also different, but as we discussed above, UE can schedule the RF retuning occasion to avoid the collision with SSB for timing tracking. Thus, no additional interruption is needed in this scenario. When SCells to-be-activated belongs to the inter-band, UE shall be allowed to use different Rx/Tx beams on 2 CCs at a time. Multiple SCell activation shall be sequential. It means L1-RSRP measurement and reporting procedure shall be extended for each inter-band FR2 SCells.
    • 10. 发明申请
    • METHODS AND APPARATUS OF SPATIAL RELATION SWITCHING FOR NR COMMUNICATION
    • WO2021159292A1
    • 2021-08-19
    • PCT/CN2020/074812
    • 2020-02-12
    • MEDIATEK SINGAPORE PTE. LTD.TANG, ZhixunYU, Tsang-WeiLIN, Hsuan-Li
    • TANG, ZhixunYU, Tsang-WeiLIN, Hsuan-Li
    • H04W72/04H04W24/10H04B7/06
    • The configured spatial relation can be QCLed to the source of DL RS, such as SSB or CSI-RS, where the terminology 'QCLed' means associated to in the document below. In this QCLed relation, the active spatial relation switching shall differentiate known and unknown situation. In known condition, when UE receives the spatial relation switching configuration, the UE shall parse this configuration and execute the fine timing tracking on the new configured QCLed RS. After that, the UE shall switch its spatial relation to the new configuration. In unknown condition, besides the above procedure, the UE shall also execute the L1-RSRP measurement after UE parse the spatial relation configuration and before the fine timing tracking. The configured spatial relation can be QCLed to the root source of UL SRS. In this QCLed relation, the active spatial relation switching don' t need to differentiate known and unknown situation. When UE receives the spatial relation switching configuration, the UE shall parse this configuration and switch the spatial relation followed with the configured SRS index. This spatial relation switching shall apply for PUSCH, PUCCH, and SRS. In PUCCH, the MAC based spatial relation switch shall be defined. In PUSCH, spatial relation activation shall only follow the related PUCCH or SRS spatial relation switch procedure. In periodic SRS, the RRC based spatial relation switch shall be defined. In semi-persistent SRS, the MAC based spatial relation switch shall be defined. In aperiodic SRS, the DCI based spatial relation switch shall be defined. The aperiodic SRS should always associate with a known spatial relation.