JP-2022533649-A5 -

Dates

Publication Date

20230501

Application Date

20200519

Description

[0336] The description herein is provided to enable those skilled in the art to create or use the disclosure. Various modifications to the disclosure will be readily apparent to those skilled in the art, and the general principles defined herein may be applied to other variations without departing from the scope of the disclosure. Accordingly, the disclosure should be given the broadest scope that is consistent with the principles and novel features disclosed herein, and is not limited to the examples and designs described herein. The invention described in the original claims of this application is listed below. [C1] A method for wireless communication using user equipment (UE), Identifying the scheduling offset threshold corresponding to cross-slot permission, With respect to the cross-slot permission, the control channel in the first slot is monitored, and the control channel has a first numerology that is different from the second numerology of the shared channel. Determining the first slot defined in the second numerology based at least in part on the scheduling offset threshold, Based at least in part on whether the aforementioned cross-slot permission has been detected, the first slot will be used to operate in a low-power state or to communicate data transmission. A method that includes [a certain feature]. [C2] Identifying the aforementioned scheduling offset threshold means that The process involves retrieving a plurality of different candidate scheduling offset thresholds from the local storage of the UE, and the plurality of different candidate scheduling offset thresholds being pre-configured. Receiving a Layer 1 control signal indicating the scheduling offset threshold from the plurality of different candidate scheduling offset thresholds. The method according to C1, comprising: [C3] Receiving the cross-slot permission in the downlink bandwidth portion having the first numerology, the cross-slot permission scheduling the data transmission as an uplink transmission on the shared channel in the active uplink bandwidth portion having the second numerology, The method according to C1, further comprising: [C4] Receiving the cross-slot permission in the downlink bandwidth portion having the first numerology, the cross-slot permission scheduling the data transmission as a downlink transmission on the shared channel in the target downlink bandwidth portion having the second numerology, The method according to C1, further comprising: [C5] Determining the first slot means that Convert the scheduling offset threshold to a second scheduling offset threshold in the second numerology, and the scheduling offset threshold is defined in the first numerology. The first slot is determined at least partially based on the second scheduling offset threshold. The method according to C1, comprising: [C6] The cross-slot permission is received via a first component carrier defined in the first numerology, and the cross-slot permission schedules the data transmission on the shared channel via a second component carrier defined in the second numerology. The method according to C1, further comprising: [C7] The method according to C1, wherein the scheduling offset threshold indicates the number of slots defined in the second numerology. [C8] The method according to C1, wherein the scheduling offset threshold indicates the number of symbol periods defined in the second numerology. [C9] A method for wireless communication by a base station, Sending a control signaling that indicates the scheduling offset threshold corresponding to cross-slot permission, In the first slot, the cross-slot permission is transmitted in a control channel having a first numerology different from the second numerology of the shared channel. The first slot in the second numerology is determined based at least partially on the scheduling offset threshold, Sending or receiving data transmissions in the leading slot based at least partially on the aforementioned cross-slot permission and A method that includes [a certain feature]. [C10] Transmitting the aforementioned control signaling means Transmitting a Layer 1 control signal indicating the scheduling offset threshold from multiple different candidate scheduling offset thresholds. A method of C9 comprising the following: [C11] Sending the aforementioned cross-slot permission means Transmitting the cross-slot permission in the downlink bandwidth portion having the first numerology, the cross-slot permission scheduling the data transmission as an uplink transmission on the shared channel in the active uplink bandwidth portion having the second numerology, A method of C9 comprising the following: [C12] Sending the aforementioned cross-slot permission means Transmitting the cross-slot permission in the downlink bandwidth portion having the first numerology, the cross-slot permission scheduling the data transmission as a downlink transmission on the shared channel in the target uplink bandwidth portion h