Method and apparatus for determining paging monitor parameters, communication device and storage medium

JP7879218B2Inactive Publication Date: 2026-06-23BEIJING XIAOMI MOBILE SOFTWARE CO LTD

Patent Information

Authority / Receiving Office
JP · JP
Patent Type
Patents
Current Assignee / Owner
BEIJING XIAOMI MOBILE SOFTWARE CO LTD
Filing Date
2021-08-04
Publication Date
2026-06-23
Estimated Expiration
Not applicable · inactive patent

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Abstract

According to an embodiment of the present disclosure, there is provided a method and apparatus for determining a paging monitor parameter, a communication device, and a storage medium, the method for determining the paging monitor parameter may include determining a paging monitor parameter of an inactive state UE based on a setting status of an inactive state eDRX parameter and an idle state eDRX parameter.
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Claims

1. A method for determining paging monitor parameters performed by user equipment (UE), wherein the method is: The step includes determining the paging monitor parameters for an inactive state UE based on the settings of the inactive state extended discontinuous reception (eDRX) parameters and the idle state eDRX parameters, The step of determining the paging monitor parameters for the inactive state UE based on the settings of the inactive state eDRX parameters and the idle state eDRX parameters is as follows: The step of determining the paging monitor parameters for the inactive state UE based on a first PTW included in the idle state eDRX parameters and a second PTW included in the inactive state eDRX parameters, in response to the idle state eDRX parameters being set and the inactive state eDRX parameters being set, The step of determining the paging monitor parameters of the inactive state UE based on the first PTW included in the idle state eDRX parameters and the second PTW included in the inactive state eDRX parameters is: The steps include determining paging monitor parameters for monitoring CN paging in a min {default paging cycle, UE-specific cycle} paging cycle within the first PTW that does not overlap with the second PTW, in response to the first PTW being larger than the second PTW and the first PTW and the second PTW having a time-domain overlap, wherein the time-domain starting positions of the first PTW and the second PTW are the same, The inactive state eDRX parameter includes an inactive state eDRX cycle, and the idle state eDRX parameter includes an idle state eDRX cycle. The step of determining the paging monitor parameters of the inactive state UE based on the first PTW included in the idle state eDRX parameters and the second PTW included in the inactive state eDRX parameters is: The steps of determining paging monitor parameters for monitoring radio access network (RAN) paging within the second PTW of the inactive state eDRX cycle in response to the first PTW being smaller than the second PTW and the first PTW and the second PTW not having any overlap in the time domain, In response to the first PTW being smaller than the second PTW and the first PTW and the second PTW having a time-domain overlap, the inactive state UE determines paging monitor parameters for monitoring core network (CN) paging and RAN paging within the first PTW; The steps include determining paging monitor parameters for the inactive state UE to monitor CN paging and RAN paging within the second PTW, in response to the first PTW being larger than the second PTW and the first PTW and the second PTW having a time-domain overlap, In response to the first PTW being greater than the second PTW and the first PTW and the second PTW having a time-domain overlap, if the inactive state UE monitors one CN paging within the portion of the first PTW that does not overlap with the second PTW, the steps include determining a paging monitor parameter to stop the paging monitor, Further including at least one of the following: How to determine paging monitor parameters.

2. The step of determining the paging monitor parameters for the inactive state UE based on the settings of the inactive state eDRX parameters and the idle state eDRX parameters is as follows: The steps include: determining the paging monitor parameters for the inactive state UE based on the idle state eDRX parameters in response to the idle state eDRX parameters being set and the inactive state eDRX parameters not being set; The steps include determining the paging monitor parameters for the inactive state UE based on the idle state eDRX parameters in response to the idle state eDRX parameters being set and the inactive state eDRX parameters not including a paging time window (PTW), Further including at least one of the following: A method for determining paging monitor parameters according to claim 1.

3. The step of determining the paging monitor parameters of the inactive state UE based on the first PTW included in the idle state eDRX parameters and the second PTW included in the inactive state eDRX parameters is: The process includes the step of determining the paging monitor parameters for the inactive state UE based on the idle state eDRX parameters in response to the first PTW being smaller than the second PTW, A method for determining paging monitor parameters according to claim 1.

4. The step of determining the paging monitor parameters of the inactive state UE based on a first PTW included in the idle state eDRX parameters and a second PTW included in the inactive state eDRX parameters is: In response to the first PTW being smaller than the second PTW and the first PTW and the second PTW having a time domain overlap, if the inactive state UE has monitored one CN paging or one RAN paging within the first PTW, the further step includes determining a paging monitor parameter that causes the monitoring of paging to cease within the first PTW. A method for determining paging monitor parameters according to claim 1.

5. The step of determining the paging monitor parameters of the inactive state UE based on a first PTW included in the idle state eDRX parameters and a second PTW included in the inactive state eDRX parameters is: The further step includes determining paging monitor parameters for monitoring RAN paging within the second PTW of the inactive state eDRX cycle in response to the first PTW being greater than the second PTW and the first PTW and the second PTW not having any overlap in the time domain, A method for determining paging monitor parameters according to claim 1.

6. The step of determining the paging monitor parameters of the inactive state UE based on a first PTW included in the idle state eDRX parameters and a second PTW included in the inactive state eDRX parameters is: In response to the first PTW being greater than the second PTW and the first PTW and the second PTW having a time-domain overlap, the inactive state UE monitors one CN paging or one RAN paging within the second PTW, and the steps include determining a paging monitor parameter to stop the paging monitor, In response to the first PTW being greater than the second PTW and the first PTW and the second PTW having a time-domain overlap, the inactive state UE monitors one CN paging or one RAN paging within the first PTW, and the steps include determining a paging monitor parameter to stop the paging monitor, Further including at least one of the following: A method for determining paging monitor parameters according to claim 1.

7. The step of determining the paging monitor parameters of the inactive state UE based on a first PTW included in the idle state eDRX parameters and a second PTW included in the inactive state eDRX parameters is: In response to the first PTW being greater than the second PTW and the first PTW and the second PTW having a time-domain overlap, the steps include determining paging monitor parameters for the inactive state UE to monitor CN paging and RAN paging within the first PTW, In response to the first PTW being greater than the second PTW and the first PTW and the second PTW having a time-domain overlap, the inactive state UE monitors one CN paging or one RAN paging within the first PTW, and the steps include determining a paging monitor parameter to stop the paging monitor, Further including at least one of the following: A method for determining paging monitor parameters according to claim 1.

8. The idle state eDRX parameter includes the idle state eDRX cycle and the first PTW, the inactive state eDRX parameter includes the inactive state eDRX cycle and the second PTW, and when the idle state eDRX cycle and the inactive state eDRX cycle overlap in the time domain, the time domain start positions of the first PTW and the second PTW are the same. A method for determining paging monitor parameters according to claim 1.

9. A device for determining paging monitor parameters, Includes a decision module configured to determine the paging monitor parameters of an inactive UE based on the settings of the inactive state eDRX parameters and the idle state eDRX parameters, The determination module is configured to determine the paging monitor parameters for the inactive state UE based on a first PTW included in the idle state eDRX parameters and a second PTW included in the inactive state eDRX parameters, in response to the idle state eDRX parameters being set and the inactive state eDRX parameters being set. The determination module is configured to determine paging monitor parameters for monitoring CN paging in a paging cycle of min {default paging cycle, UE-specific cycle} within the first PTW that does not overlap with the second PTW, in response to the first PTW being larger than the second PTW and the first PTW and the second PTW having a time-domain overlap, wherein the inactive state UE is the same as the time-domain starting point position of the first PTW and the second PTW. The inactive state eDRX parameter includes an inactive state eDRX cycle, and the idle state eDRX parameter includes an idle state eDRX cycle. The aforementioned decision module further, In response to the first PTW being smaller than the second PTW and the first PTW and the second PTW having no overlap in the time domain, the inactive state UE determines paging monitor parameters for monitoring radio access network (RAN) paging within the second PTW of the inactive state eDRX cycle, In response to the first PTW being smaller than the second PTW and the first PTW and the second PTW having a time-domain overlap, the inactive state UE determines paging monitor parameters that monitor core network (CN) paging and RAN paging within the first PTW, In response to the first PTW being greater than the second PTW and the first PTW and the second PTW having a time-domain overlap, the inactive state UE determines paging monitor parameters that monitor CN paging and RAN paging within the second PTW, In response to the fact that the first PTW is greater than the second PTW and the first PTW and the second PTW have overlap in the time domain, if the inactive state UE monitors one CN paging within the portion of the first PTW that does not overlap with the second PTW, a paging monitor parameter is determined to stop the paging monitor. Configured to perform at least one of the following: A device for determining paging monitor parameters.

10. The aforementioned decision module further, In response to the fact that the idle state eDRX parameter is set and the inactive state eDRX parameter is not set, the paging monitor parameter for the inactive state UE is determined based on the idle state eDRX parameter. In response to the idle state eDRX parameter being set and the inactive state eDRX parameter not including a paging time window (PTW), the paging monitor parameter for the inactive state UE is determined based on the idle state eDRX parameter. Configured to perform at least one of the following: A paging monitor parameter determination device according to claim 9.

11. The aforementioned decision module is In response to the first PTW being smaller than the second PTW, the paging monitor parameters for the inactive state UE are determined based on the idle state eDRX parameters. A paging monitor parameter determination device according to claim 9.

12. The decision module further, In response to the first PTW being smaller than the second PTW and the first PTW and the second PTW having a time-domain overlap, the inactive state UE is configured to determine a paging monitor parameter that stops continuing to monitor paging within the first PTW if it has monitored one CN paging or one RAN paging within the first PTW. A paging monitor parameter determination device according to claim 9 or 11.

13. The determination module is further configured to determine paging monitor parameters for monitoring RAN paging within the second PTW of the inactive state eDRX cycle in response to the first PTW being greater than the second PTW and the first PTW and the second PTW not having any overlap in the time domain, A paging monitor parameter determination device according to claim 9 or 11.

14. The decision module further, In response to the first PTW being greater than the second PTW and the first PTW and the second PTW having a time-domain overlap, if the inactive state UE has monitored one CN paging or one RAN paging within the second PTW, a paging monitor parameter is determined to stop the paging monitor. In response to the first PTW being greater than the second PTW and the first PTW and the second PTW having a time-domain overlap, if the inactive state UE has monitored one CN paging or one RAN paging within the first PTW, a paging monitor parameter is determined to stop the paging monitor. Configured to perform at least one of the following: A paging monitor parameter determination device according to claim 9 or 11.

15. The decision module further: In response to the first PTW being greater than the second PTW and the first PTW and the second PTW having a time-domain overlap, the inactive state UE determines paging monitor parameters that monitor CN paging and RAN paging within the first PTW, In response to the first PTW being greater than the second PTW and the first PTW and the second PTW having a time-domain overlap, if the inactive state UE has monitored one CN paging or one RAN paging within the first PTW, a paging monitor parameter is determined to stop the paging monitor. Configured to perform at least one of the following: A paging monitor parameter determination device according to claim 9 or 11.

16. The idle state eDRX parameter includes the idle state eDRX cycle and the first PTW, the inactive state eDRX parameter includes the inactive state eDRX cycle and the second PTW, and when the idle state eDRX cycle and the inactive state eDRX cycle overlap in the time domain, the time domain start positions of the first PTW and the second PTW are the same. A paging monitor parameter determination device according to claim 9 or 11.

17. It is a communication device, The device includes a processor, a transceiver, memory, and an executable program stored in the memory that can be executed by the processor, wherein when the processor executes the executable program, the method according to any one of claims 1 to 8 is performed. Communication equipment.

18. A computer storage medium in which executable programs are stored, When the executable program is executed by the processor, the method according to any one of claims 1 to 8 is realized. Computer storage medium.