WO2023010353A1 - 寻呼监听参数确定方法及装置、通信设备及存储介质 - Google Patents
寻呼监听参数确定方法及装置、通信设备及存储介质 Download PDFInfo
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0212—Power saving arrangements in terminal devices managed by the network, e.g. network or access point is master and terminal is slave
- H04W52/0216—Power saving arrangements in terminal devices managed by the network, e.g. network or access point is master and terminal is slave using a pre-established activity schedule, e.g. traffic indication frame
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W68/00—User notification, e.g. alerting and paging, for incoming communication, change of service or the like
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W68/00—User notification, e.g. alerting and paging, for incoming communication, change of service or the like
- H04W68/005—Transmission of information for alerting of incoming communication
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
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- H04W68/02—Arrangements for increasing efficiency of notification or paging channel
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/20—Manipulation of established connections
- H04W76/28—Discontinuous transmission [DTX]; Discontinuous reception [DRX]
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
Definitions
- the present disclosure relates to the technical field of wireless communication but is not limited to the technical field of wireless communication, and in particular relates to a method and device for determining a paging monitoring parameter, a communication device, and a storage medium.
- User equipment takes into account low power consumption and services that have certain requirements for delay.
- eDRX Extended Discontinuous Reception
- PTW Paging Time Window
- the internal UE can receive downlink data, and the UE does not receive downlink data in the rest of the time when the terminal is in a dormant state.
- This eDRX mode can strike a balance between downlink service delay and power consumption, such as remotely turning off the gas service through a specific smart terminal. If the specific smart terminal is in the eDRX mode, the service can be realized, and the power consumption of the specific smart terminal can be saved as much as possible.
- a PTW can be set in each eDRX cycle whose duration exceeds a certain duration, and the UE can monitor the paging channel according to the (Discontinuous Reception, DRX) cycle in the PTW, so as to receive downlink data, and the terminal is in a dormant state for the rest of the time.
- DRX discontinuous Reception
- Embodiments of the present disclosure provide a method and device for determining a paging listening parameter, a communication device, and a storage medium.
- the first aspect of the embodiments of the present disclosure provides a method for determining a paging monitoring parameter, which is performed by a user equipment UE, and the method includes:
- the eDRX parameters in the inactive state determine the paging monitoring parameters of the UE in the inactive state.
- the second aspect of the embodiments of the present disclosure provides a device for determining a paging monitoring parameter, wherein the device includes:
- the determining module is configured to determine the paging monitoring parameters of the UE in the inactive state according to the configuration of the eDRX parameters in the inactive state and the eDRX parameters in the idle state.
- the third aspect of the embodiments of the present disclosure provides a communication device, including a processor, a transceiver, a memory, and an executable program stored on the memory and capable of being run by the processor, wherein the processor runs the executable During the program, the method for determining the monitoring and paging parameters provided in the aforementioned first aspect is executed.
- the fourth aspect of the embodiment of the present disclosure provides a computer storage medium, the computer storage medium stores an executable program; after the executable program is executed by the processor, it can realize the determination of the monitoring and paging parameters provided in the first aspect. method.
- the terminal can execute the e-DRX function in the inactive state. Through the execution of the e-DRX function, the terminal can well balance UE reachability and power consumption even in the inactive state.
- Fig. 1 is a schematic structural diagram of a wireless communication system according to an exemplary embodiment
- Fig. 2 is a schematic diagram showing a timing sequence of e-DRX function execution according to an exemplary embodiment
- Fig. 3 is an interactive schematic diagram showing the e-DRX function of the core network configuration idle state according to an exemplary embodiment
- Fig. 4 is a schematic flowchart of a method for determining paging monitoring parameters according to an exemplary embodiment
- Fig. 5 is a schematic diagram showing a time domain overlap situation of an idle state PTW and an inactive state PTW according to an exemplary embodiment
- Fig. 6 is a schematic diagram showing a time domain overlap situation of an idle state PTW and an inactive state PTW according to an exemplary embodiment
- Fig. 7 is a schematic diagram showing results of a device for determining paging monitoring parameters according to an exemplary embodiment
- Fig. 8 is a schematic structural diagram of a UE according to an exemplary embodiment.
- first, second, third, etc. may use the terms first, second, third, etc. to describe various information, the information should not be limited to these terms. These terms are only used to distinguish information of the same type from one another. For example, without departing from the scope of the embodiments of the present disclosure, first information may also be called second information, and similarly, second information may also be called first information. Depending on the context, the word “if” as used herein may be interpreted as “at” or "when” or "in response to a determination.”
- FIG. 1 shows a schematic structural diagram of a wireless communication system provided by an embodiment of the present disclosure.
- the wireless communication system is a communication system based on cellular mobile communication technology, and the wireless communication system may include: several UEs 11 and several access devices 12 .
- UE11 may be a device that provides voice and/or data connectivity to a user.
- UE11 can communicate with one or more core networks via a radio access network (Radio Access Network, RAN), and UE11 can be an Internet of Things UE, such as a sensor device, a mobile phone (or called a "cellular" phone) and a device with an Internet of Things
- RAN Radio Access Network
- UE11 can be an Internet of Things UE, such as a sensor device, a mobile phone (or called a "cellular" phone) and a device with an Internet of Things
- the UE's computer for example, may be a fixed, portable, pocket, hand-held, built-in or vehicle-mounted device.
- a station For example, a station (Station, STA), a subscriber unit (subscriber unit), a subscriber station (subscriber station), a mobile station (mobile station), a mobile station (mobile), a remote station (remote station), an access point, a remote UE ( remote terminal), access UE (access terminal), user equipment (user terminal), user agent (user agent), user equipment (user device), or user UE (user equipment, UE).
- UE11 may also be a device of an unmanned aerial vehicle.
- UE11 may also be a vehicle-mounted device, for example, it may be a trip computer with a wireless communication function, or a wireless communication device connected externally to the trip computer.
- the UE11 may also be a roadside device, for example, it may be a street lamp, a signal lamp, or other roadside devices with a wireless communication function.
- the access device 12 may be a network side device in a wireless communication system.
- the wireless communication system may be a fourth generation mobile communication technology (the 4th generation mobile communication, 4G) system, also known as a Long Term Evolution (LTE) system; or, the wireless communication system may also be a 5G system, Also known as new radio (NR) system or 5G NR system.
- the wireless communication system may also be a next-generation system of the 5G system.
- the access network in the 5G system can be called NG-RAN (New Generation-Radio Access Network, New Generation Radio Access Network).
- the MTC system the MTC system.
- the access device 12 may be an evolved access device (eNB) adopted in a 4G system.
- the access device 12 may also be an access device (gNB) adopting a centralized and distributed architecture in the 5G system.
- eNB evolved access device
- gNB access device
- the access device 12 adopts a centralized distributed architecture it usually includes a centralized unit (central unit, CU) and at least two distributed units (distributed unit, DU).
- the centralized unit is provided with a packet data convergence protocol (Packet Data Convergence Protocol, PDCP) layer, radio link layer control protocol (Radio Link Control, RLC) layer, media access control (Media Access Control, MAC) layer protocol stack;
- PDCP Packet Data Convergence Protocol
- RLC Radio Link Control
- MAC media access control
- a physical (Physical, PHY) layer protocol stack is set in the unit, and the embodiment of the present disclosure does not limit the specific implementation manner of the access device 12 .
- a wireless connection may be established between the access device 12 and the UE 11 through a wireless air interface.
- the wireless air interface is a wireless air interface based on the fourth-generation mobile communication network technology (4G) standard; or, the wireless air interface is a wireless air interface based on the fifth-generation mobile communication network technology (5G) standard, such as
- the wireless air interface is a new air interface; alternatively, the wireless air interface may also be a wireless air interface based on a technical standard of a next-generation mobile communication network based on 5G.
- an E2E (End to End, end-to-end) connection can also be established between UE11.
- V2V vehicle to vehicle, vehicle-to-vehicle
- V2I vehicle to Infrastructure, vehicle-to-roadside equipment
- V2P vehicle to pedestrian, vehicle-to-person communication in vehicle to everything (V2X) communication Wait for the scene.
- the above wireless communication system may further include a network management device 13 .
- the network management device 13 may be a core network device in the wireless communication system, for example, the network management device 13 may be a mobility management entity (Mobility Management Entity, MME).
- MME Mobility Management Entity
- the network management device can also be other core network devices, such as Serving GateWay (SGW), Public Data Network Gateway (Public Data Network GateWay, PGW), policy and charging rule functional unit (Policy and Charging Rules Function, PCRF) or Home Subscriber Server (Home Subscriber Server, HSS), etc.
- SGW Serving GateWay
- PGW Public Data Network Gateway
- PCRF Policy and Charging Rules Function
- HSS Home Subscriber Server
- a UE in eDRX mode has the following characteristics:
- the UE device can be reached at any time, but the reachability delay is relatively large, and the delay depends on the eDRX cycle configuration.
- the UE with the eDRX function enabled achieves a maximum balance between the power consumption of the UE and the timeliness of data transmission.
- the eDRX function has one or more of the following eDRX parameters
- the eDRX cycle can be represented by T eDRX, H.
- FIG. 2 is a sequence diagram after the UE starts the eDRX function.
- the duration of the DRX cycle may be shorter (or even much shorter) than the duration of the eDRX cycle.
- FIG. 3 shows one type of eDRX parameters for exchanging eDRX functions between UE (ie, UE) and the core network.
- the method for exchanging eDRX parameters between the UE and the core network shown in Figure 3 may include:
- the eNB sends an indication of the allowed eDRX function, a specific cell indication (Cell-specific DRX) and a hyperframe number (Hyper system Frame Number, SFN) to the UE through the System Information Block (SIB).
- SIB System Information Block
- the UE sends UE-specific DRX parameters (UE-specific DRX) and/or preferred DRX parameters (preferable eDRX) in an attach request or a Tracking Area Update (TAU) request;
- UE-specific DRX UE-specific DRX
- preferred DRX parameters preferable eDRX
- the MME After the MME receives the above attach request or TAU request, it sends the eDRX configuration to the UE; the eDRX configuration carries the aforementioned one or more eDRX parameters;
- MME performs paging according to eDRX configuration
- the eNB After receiving the CN paging message delivered by the MME, the eNB forwards the CN paging message to the UE.
- the eDRX parameters issued by the core network are transparently transmitted to the UE through the base station (for example, an evolved base station (eNB) or a next-generation base station (gNB)).
- the base station for example, an evolved base station (eNB) or a next-generation base station (gNB)
- the mobile management function (Mobile Management Entity, MME) of the core network sends the eDRX parameters of the eDRX function to the UE through the eNB.
- MME Mobile Management Entity
- the RRC idle state is a low power consumption state of the UE known to the core network.
- the RRC inactive state is referred to as the inactive state for short.
- the inactive state is a low power consumption state of the UE transparent to the core network. But the inactive state is visible to the access network.
- the UE needs to receive the paging message sent by the CN (that is, the CN paging message), and also needs to receive the paging message sent by the access network (Radio Access Network, RAN), that is, the RAN paging message .
- the access network Radio Access Network, RAN
- an embodiment of the present disclosure provides a method for determining a paging monitoring parameter, which is performed by a UE, and the method includes:
- S110 Determine the paging monitoring parameters of the UE in the inactive state according to the configuration of the eDRX parameters in the inactive state and the eDRX parameters in the idle state.
- the UE may be various types of UEs.
- the UE may be a mobile phone, a tablet computer, a wearable device, a smart home device, a smart office device, or a vehicle-mounted device.
- the UE is in an inactive state, and this kind of UE may be referred to as: an inactive state UE.
- Both the eDRX parameter in the inactive state and the eDRX parameter in the idle state may be issued by the network side, or may be determined according to a communication protocol.
- the eDRX parameters in the idle state may be issued by the core network, and the eDRX parameters in the inactive state may be issued by the access network.
- the UE in the inactive state determines the paging monitoring parameters for monitoring the paging message by itself according to the configuration of the eDRX parameters in the inactive state and the eDRX parameters in the idle state.
- the inactive-state eDRX parameters may include: an inactive-state eDRX cycle.
- the inactive state eDRX parameters may further include: an inactive state paging time window (Paging Time Window, PTW).
- the idle state eDRX parameters may include: idle state eDRX cycle. In some embodiments, the idle state eDRX parameters may further include: idle state PTW.
- the UE in the inactive state will combine its idle state eDRX parameters and the configuration of the inactive state eDRX parameters to determine its own paging monitoring parameters, and the paging monitoring parameters may include at least one of the following:
- the monitoring period for paging messages is not limited to.
- Subsequent UEs in the inactive state monitor the paging message sent by the network side according to the determined paging monitoring parameters.
- the PTW defined by eDRX parameters in the idle state may also be called the PTW in the idle state or the first PTW.
- the PTW defined by the eDRX parameters in the inactive state is called the inactive PTW or the second PTW.
- the idle state PTW may be PTW1, and may be distributed periodically or aperiodically according to the duration of the idle state eDRX cycle in the time domain.
- the PTW in the inactive state may be PTW2, and similarly, in the time domain, it may be distributed periodically or aperiodically according to the duration of the eDRX cycle in the inactive state.
- the determining the paging monitoring parameters of the UE in the inactive state according to the configuration of the eDRX parameters in the inactive state and the eDRX parameters in the idle state includes at least one of the following:
- the inactive state UE paging monitoring parameters In response to the configuration of the idle state eDRX parameters and the configuration of the inactive state eDRX parameters, according to the first PTW included in the idle state eDRX and the second PTW included in the inactive eDRX parameters, determine the inactive state UE paging monitoring parameters. That is: if the inactive UE is configured with inactive eDRX parameters, and at this time the inactive UE is configured with idle eDRX parameters, the paging monitoring parameters are determined according to the idle eDRX parameters.
- the paging monitoring parameter may indicate at least one of the following:
- the first PTW is the time window for monitoring the paging message, and the first PTW may be the PTW included in the eDRX parameter in the idle state;
- the monitoring period can be one of the following:
- the CN paging cycle may be equal to the idle state DRX cycle in the first PTW;
- the inactive UE is configured with idle eDRX parameters and inactive eDRX parameters, but the inactive eDRX parameters may not be configured with PTW; for example, the inactive eDRX parameters contained in the inactive eDRX parameters
- the eDRX cycle is relatively small.
- the eDRX cycle in the inactive state is 2.56s, 5.12s, etc.
- the eDRX parameters in the inactive state will not include PTW.
- the eDRX parameter in the inactive state does not limit the PTW. Another possible reason is that the base station does not allocate the PTW of the eDRX parameter in the inactive state according to the implementation.
- the UE in the inactive state can still monitor the paging message according to the eDRX parameters in the idle state, and the paging monitoring parameters can be determined according to the eDRX parameters in the idle state.
- the first PTW contained in the idle state eDRX parameter is determined as the time window for listening to paging messages.
- the paging cycle for monitoring paging messages in the first PTW is determined in combination with the idle state DRX cycle defined by the idle state eDRX parameter in the first PTW.
- the response is configured with idle-state eDRX parameters and the inactive-state eDRX parameters do not include a paging time window PTW, and the paging of the inactive-state UE is determined according to the idle-state eDRX parameters.
- Monitoring parameters may include: in response to configuration of idle state eDRX parameters, the idle state eDRX parameters define that the idle state eDRX period is configured with the first PTW and the inactive state eDRX parameters do not include the second PTW, determine that in the The paging monitoring parameter of the first PTW monitoring the paging message.
- the terminal is only configured Processing of eDRX parameters in idle state, that is, eDRX parameters in inactive state do not take effect.
- the processing according to the eDRX parameters in the idle state may include: performing paging monitoring according to the PTW1 (ie, the first PTW) defined by the eDRX parameters in the idle state. For example, in S110, it is determined that the UE in the inactive state monitors CN paging and/or paging monitoring parameters of RAN paging in PTW1.
- the determining the paging monitoring parameters of the UE in the inactive state according to the first PTW contained in the idle state eDRX and the inactive state eDRX parameters containing the second PTW includes:
- the fact that the first PTW is smaller than the second PTW means that the time domain resource length of the first PTW is smaller than the time domain resource length of the second PTW. If the first PTW is smaller than the second PTW, it will be determined according to the idle state eDRX parameter when determining the paging monitoring parameter. As an example, if the UE in the inactive state is configured with idle eDRX parameters and inactive eDRX parameters, but the first PTW is smaller than the second PTW, the terminal is only configured with idle eDRX parameters, that is, the inactive eDRX parameters failed. That is, it can be considered that the first PTW being smaller than the second PTW is an illegal configuration of eDRX parameters in an inactive state.
- the listening time window indicated by the paging listening parameter may be the first PTW.
- the paging cycle for monitoring paging messages in the first PTW may be at least one of the following:
- the CN paging cycle may be equal to the idle state DRX cycle in the first PTW;
- Min (CN paging cycle, RAN paging cycle, default paging cycle) or Min (CN paging cycle, RAN paging cycle) as the paging cycle can make the UE monitor the paging message at a relatively small cycle, Therefore, the missed paging message can be reduced, and the repeated delivery of the paging message on the network side can be reduced.
- the first PTW contained in the idle-state eDRX parameters and the second PTW contained in the inactive-state eDRX parameters are used to determine the paging monitoring parameters of the inactive-state UE, and at least the following one:
- the paging monitoring parameter that stops continuing to monitor paging in the first PTW when the RAN is paging or the RAN is paging;
- the inactive UE In response to the fact that the first PTW is smaller than the second PTW and the first PTW and the second PTW overlap in time domain, determine that the inactive UE has heard the CN paging once within the two PTWs Or, when the RAN is paging, stop continuously monitoring the paging monitoring parameters in the first PTW.
- the first PTW contained in the idle-state eDRX parameters and the second PTW contained in the inactive-state eDRX parameters are used to determine the paging monitoring parameters of the inactive-state UE, and at least the following one:
- the eDRX cycle of the inactive state UE corresponds to the first Monitor the paging monitoring parameters of the core network CN paging and RAN paging in the time domain position of the PTW;
- the inactive UE In response to the fact that the first PTW is smaller than the second PTW and the first PTW and the second PTW overlap in time domain; if the inactive UE detects the CN seek once in the first PTW paging or the RAN paging, stop monitoring the paging monitoring parameters of paging in the first PTW.
- the distribution density of eDRX cycles in the inactive state in the time domain may be larger than the distribution density of eDRX cycles in the idle state.
- the PTW of the eDRX cycle in the idle state overlaps, and the PTW of the part of the eDRX cycle in the inactive state does not overlap with the PTW of the eDRX cycle in the idle state in the time domain. That is, part of the first PTW and part of the second PTW overlap in the time domain, while part of the second PTW does not overlap with the first PTW.
- the RAN paging is monitored according to the inactive state eDRX parameters, that is, the second PTW in this inactive state eDRX cycle monitors the RAN paging .
- the monitoring cycle includes but is not limited to: RAN paging cycle, and/or min (RAN paging cycle, default paging cycle (default paging cycle)).
- the listening object is: RAN paging.
- the second PTW of the eDRX cycle in the inactive state overlaps with the first PTW of the eDRX cycle in the idle state.
- the first PTW and the second PTW need to be aligned at the starting point, and the first PTW is smaller than the second PTW.
- the base station may eventually send paging messages according to the first PTW, then the inactive UE can only use the eDRX cycle in the inactive state that overlaps with the eDRX cycle in the idle state and corresponds to the first PTW It is only necessary to monitor the paging message in the time domain position, reducing unnecessary monitoring of the paging message.
- the paging monitoring object can be CN paging and/or RAN paging.
- the UE although the UE is in an inactive state, if the core network loses the context of the UE, it may also page the UE.
- This kind of paging from the core network is CN paging, and the CN paging is generally According to the eDRX parameters in the idle state, it is issued within the CN paging opportunity of the first PTW. Therefore, in the embodiment of the present disclosure, the first PTW whose time domain overlaps the eDRX cycle in the inactive state and the eDRX cycle in the idle state will simultaneously monitor CN paging and RAN paging.
- the monitoring period when monitoring the paging message in the first PTW can be one of the following:
- the CN paging cycle may be equal to the idle state DRX cycle in the first PTW;
- the paging message is monitored in the first PTW, if a CN paging and/or RAN paging is detected, the monitoring of the paging message in the first PTW is stopped, so as to reduce unnecessary Necessary monitoring.
- the second and fourth PTW2 represented by the squares filled with diagonal stripes are the second PTW in the inactive state that has no time domain overlap with the first PTW.
- the inactive If the UE in the state can only monitor the RAN paging, then determine the paging monitoring parameter of only monitoring the RAN paging.
- the 1st, 3rd, and 5th second PTWs represented by squares with no diagonal stripes are second PTWs that temporally overlap with the first PTW. In this case, the UE in the inactive state will simultaneously monitor CN paging and RAN paging within the first PTW.
- the eDRX cycle of the inactive UE can continue to be the inactive eDRX cycle, then the inactive UE will be able to simultaneously monitor CN paging and RAN in the first PTW during the inactive eDRX cycle paging.
- the determining the paging monitoring parameters of the UE in the inactive state according to the first PTW contained in the idle state eDRX and the inactive state eDRX parameters containing the second PTW includes:
- the fact that the first PTW is greater than the second PTW means that the time domain resource length of the first PTW is greater than the time domain resource length of the second PTW.
- the UE in the inactive state monitors (only) the paging monitoring configuration of the RAN paging in the second PTW that has no time domain overlap with the first PTW.
- the first PTW is greater than the second PTW, and there is also a second PTW that overlaps with the first PTW in a time domain, and a second PTW that does not overlap with the first PTW in a time domain.
- RAN paging is listened to at a second PTW that has no time domain overlap with the first PTW.
- the monitoring time window defined by the paging monitoring parameter is the second PTW.
- the paging cycle defined by the determined paging monitoring parameter may be the RAN paging cycle, or Min(RAN paging cycle, default paging cycle).
- the monitoring object is RAN paging.
- the core network Since the current eDRX cycle does not overlap with the idle state eDRX cycle in the time domain, the core network will not issue CN paging, so there is no need to monitor CN paging, and there is no need to extend the monitoring time window, thereby reducing unnecessary monitoring.
- determining the paging monitoring parameter of the inactive state UE further includes at least one of the following one:
- the inactive UE In response to the fact that the first PTW is greater than the second PTW and the first PTW and the second PTW overlap in time domain, determine that the inactive UE has heard a CN paging within the second PTW, or Once RAN paging, stop the paging monitoring configuration of paging monitoring;
- the inactive UE In response to the fact that the first PTW is greater than the second PTW and the first PTW and the second PTW overlap in time domain, determine that the inactive UE has heard a CN paging within the first PTW, or Once RAN paging, stop the paging monitoring configuration of paging monitoring;
- the paging monitoring configuration of paging monitoring is stopped.
- the first PTW included in the idle state eDRX and the inactive state eDRX parameters include the second PTW, and the paging monitoring parameters of the inactive state UE are determined, including at least one of the following :
- the paging monitoring configuration is stopped;
- the paging monitoring configuration is stopped.
- the UE may also need to continue to monitor CN paging in the time domain position corresponding to the first PTW in the part where the second PTW does not overlap in time domain, so as to monitor various paging messages as much as possible.
- the second PTW does not detect CN paging and/or RAN paging, it will continue to monitor CN paging in the part of the first PTW that does not overlap with the second PTW (that is, it will continue to monitor CN paging in the first PTW).
- the part of the first PTW except the second PTW continues to monitor the CN paging).
- the paging monitoring in the first PTW is stopped, thereby reducing unnecessary paging monitoring.
- a CN paging and/or a RAN paging is heard in the second PTW that overlaps with the time domain of the first PTW, only the paging monitoring in the second PTW is stopped, but in the second PTW that does not overlap with the second PTW Some of the first PTWs may continue to monitor the CN paging.
- the inactive UE listens to CN paging and RAN paging at the same time in the second PTW that overlaps with the first PTW, and listens to CN paging in the remaining part of the first PTW that does not overlap with the second PTW. .
- one CN paging or one RAN paging can be monitored within a PTW, and then the paging monitoring corresponding to the PTW is stopped. For example, in the inactive state eDRX cycle and the second PTW that overlaps with the first PTW in the time domain hears a CN paging or a RAN paging, stop corresponding to the second PTW or the entire first PTW in the eDRX cycle. Paging listening within the location.
- the monitoring period for monitoring CN paging and RAN paging in the second PTW of the inactive eDRX period overlapping with the idle state eDRX period may be at least one of the following:
- Min ⁇ default paging cycle CN paging cycle (UE-Specific cycle), RAN paging cycle ⁇ .
- the monitoring period when monitoring the CN paging in the first PTW outside the second PTW within the inactive eDRX cycle time domain overlapping with the idle state eDRX cycle may be one of the following:
- CN paging cycle (UE-specific cycle);
- Min n default paging cycle, CN paging cycle (UE-Specific cycle) ⁇ .
- the above-mentioned paging monitoring parameter may arbitrarily indicate a parameter of the above-mentioned paging monitoring renewal.
- the part of the first PTW that does not overlap with the second PTW of the inactive state eDRX cycle in the time domain overlaps a CN paging, stop in the inactive state eDRX cycle paging monitoring.
- determining the paging monitoring parameter of the inactive state UE further includes at least one of the following one:
- the inactive UE listens to CN paging and RAN paging in the first PTW Paging monitor configuration
- the inactive UE In response to the fact that the first PTW is greater than the second PTW and the first PTW and the second PTW overlap in time domain, determine that the inactive UE has heard a CN paging within the first PTW or Once RAN paging, stop the paging monitoring configuration of paging monitoring.
- determining the paging monitoring parameter of the inactive state UE further includes at least one of the following one:
- the inactive UE In response to the fact that the first PTW is greater than the second PTW and the first PTW and the second PTW overlap in time domain, determine that the inactive UE has heard a CN paging within the first PTW or Paging monitoring configuration to stop paging monitoring during a RAN paging;
- the inactive UE monitors the CN within the first PTW of the idle eDRX cycle paging listener configuration for paging and RAN paging;
- the UE in the inactive state listens to the first PTW in the idle state eDRX cycle Paging monitoring configuration to stop paging monitoring during a CN paging or a RAN paging.
- the first PTW is greater than the second PTW, and there is an inactive eDRX cycle within the time domain overlap with the idle eDRX cycle.
- the inactive eDRX cycle corresponds to the first PTW Monitor CN paging and RAN paging at the same time in the domain location.
- the first PTW is the monitoring time window defined by the determined paging monitoring parameter.
- the monitored objects include CN paging and/or RAN paging at the same time.
- the paging cycle can be one of the following:
- the idle state eDRX parameters include an idle state eDRX cycle and the first PTW and the inactive state eDRX parameters include an inactive state eDRX cycle and the second PTW; the idle state eDRX cycle
- the period of the eDXR in the inactive state overlaps in the time domain, the start positions of the first PTW and the second PTW in the time domain are the same.
- the first PTW will include the second PTW in the inactive eDRX cycle that overlaps with the idle eDRX cycle time domain.
- the embodiments of the present disclosure provide a working mode of using the eDRX mechanism for the UE in the inactive state, that is, the UE determines the paging monitoring parameter for use in the inactive state according to the eDRX parameters determined by the core network and/or the eDRX parameters determined by the base station.
- the paging monitoring parameter may also be referred to as a paging parameter for short.
- the paging monitoring parameters include: eDRX cycle; and/or PTW.
- the paging monitoring parameter may indicate the window length and the time domain start position of the PTW.
- the paging listening parameter may also indicate the time-domain start position and time-domain end position of the PTW.
- the base station does not provide at least one of the eDRX cycle and PTW of the eDRX parameters, it means that the base station has not configured eDRX parameters for the user; at this time, the UE performs paging monitoring according to the eDRX parameters in the idle state. That is, the paging monitoring parameter is determined according to the eDRX parameter in the idle state.
- the UE performs paging monitoring only according to idle state eDRX; and determines the paging monitoring parameters according to idle state eDRX parameters.
- the PTW defined by the idle state eDRX parameters can be called an idle state PTW, and the idle state PTW is PTW1, then the UE monitors CN paging (paging) in PTW1; Monitor RAN paging outside PTW1.
- the core network can provide the UE with idle state eDRX parameters; for an inactive UE, in addition to the core network can provide the user with idle state eDRX parameters, the base station
- the eDRX parameters in the inactive state may be provided to the UE in the inactive state.
- the idle state eDRX parameters are the eDRX parameters in the idle state mode or the CN e-DRX parameters;
- the inactive state eDRX parameters are the eDRX parameters in the inactive state mode or the RAN e-DRX parameters.
- the UE only activates or configures the eDRX in the idle state.
- the inactive eDRX parameter may include: at least one of an inactive eDRX period and an inactive PTW.
- the UE only activates the eDRX parameters in the idle state or configures the idle state eDRX parameters for paging monitoring.
- the idle state eDRX parameters activated here may be the idle state eDRX parameters configured for the UE and activated (that is, effective).
- the UE performs CN paging (paging) within the PTW window of the CN. ) and RAN paging (paging) monitoring, and outside PTW, even if the base station provides an eDRX cycle of inactive eDRX parameters and is greater than 10.24s (such as 20.48s), it will be performed according to the eDRX cycle without using PTW. That is, only the PTW of CN takes effect at this time.
- CN PTW is not provided at the same time. In one embodiment, if the eDRX period of the inactive state provided by the base station does not exceed 10.24s, the RAN PTW will not be provided at the same time. In one embodiment, if the eDRX cycle of the idle state provided by the core network is greater than 10.24s, the CN PTW parameter will be provided at the same time. In one embodiment, if the eDRX cycle of the inactive state provided by the base station is greater than 10.24s, the RAN PTW parameter will be provided at the same time.
- the base station will not provide the inactive state eDRX parameters, that is, the idle state eDRX is not configured or activated . In one embodiment, if the eDRX cycle in the idle state provided by the core network is greater than 10.24s, but CN PTW is not provided at the same time, the base station will provide the eDRX cycle in the inactive state eDRX parameters, but will not provide RAN PTW at the same time (ie inactive PTW).
- the eDRX cycle in the inactive eDRX parameters that the base station will provide will not exceed 10.24s.
- the UE will not use PTW for paging monitoring, that is, monitor according to Min ⁇ CN eDRX cycle, RAN eDRX cycle ⁇ or RAN eDRX cycle .
- the CN eDRX cycle here is the eDRX cycle defined by the eDRX parameters in the idle state
- the RAN eDRX cycle here is the eDRX cycle defined by the eDRX parameters in the inactive state.
- the inactive UE performs the following processing:
- Scenario 1 PTW2>PTW1 provided by the base station, that is, the window length of PTW2 is greater than the window length of PTW1.
- the eDRX parameter in the idle state is not configured by the base station for the UE, that is, it is determined according to the eDRX parameter in the idle state; at this time, the configuration can be considered as an illegal configuration of the eDRX in the inactive state.
- PTW2 when the base station provides eDRX parameters in an inactive state, PTW2 cannot be longer than PTW1. That is, configuring PTW2 needs to use PTW1 configured on the core network as auxiliary reference information. If PTW2 is configured according to PTW1, then PTW2 will be less than or equal to PTW1. If PTW2 is greater than PTW1, it will be considered as an illegal configuration.
- the base station configures PTW1 for the user, that is, the UE truncates the configuration of the base station according to the configuration of the core network; that is, the core network parameters are reused in this case; at this time, the window length corresponding to the inactive eDRX cycle Also PTW1;
- PTW2 in the inactive state (inactive) eDRX and PTW1 in the idle state eDRX cycle overlap in the time domain (overlap), then CN paging (Paging) and RAN paging (paging) are monitored at the same time in the period corresponding to PTW1 ;
- the UE detects a CN paging (paging) or a RAN paging (paging), it stops subsequent monitoring in the PTW1 window;
- Scenario 2 PTW2 ⁇ PTW1 provided by the base station, that is, the window length of PTW2 is smaller than the window length of PTW1.
- the RAN paging is monitored according to the RAN paging cycle (paging cycle).
- the UE After detecting a RAN paging (paging), the UE stops subsequent monitoring in PTW2.
- CN paging is monitored; when the UE detects a CN paging (paging), it stops subsequent monitoring in PTW1.
- PTW2 in the inactive eDRX and PTW1 in the idle eDRX cycle overlap in the time domain (overlap), and listen to CN paging (Paging) and RAN paging (paging) at the same time during the period corresponding to PTW2 .
- the paging monitoring cycle at this moment has multiple setting modes, and as an embodiment, the paging cycle can be: min ⁇ default paging cycle (default paging cycle), UE specific cycle (UE-specific cycle), wireless Access network paging cycle (RAN paging cycle) ⁇ , and finally there are multiple setting methods according to the paging monitoring cycle at this time. Understandably, when the UE detects a CN paging (paging) or a RAN paging (paging), it stops subsequent monitoring in the PTW2 window.
- the UE stops monitoring subsequent CN paging and RAN paging in the PTW1 window.
- the PTW2 of the inactive eDRX cycle and the PTW1 of the idle eDRX cycle have a time domain overlap (overlap), and the remaining PTW outside the time domain overlap (overlap) of the inactive eDRX cycle and the idle state eDRX cycle In the window, that is, within the time domain range of PTW1 minus PTW2, the CN paging (paging) is monitored.
- the paging monitoring cycle at this time has multiple setting modes.
- the paging cycle can be: according to min ⁇ default paging cycle (default paging cycle), UE specific cycle (UE-specific cycle) ⁇ , and set min ⁇ default paging cycle (default paging cycle), UE-specific cycle (UE-specific cycle) ⁇ to monitor CN paging.
- the UE when it detects a CN paging, it stops subsequent monitoring in the PTW.
- the RAN paging (paging) is monitored according to the RAN paging cycle (paging cycle).
- CN paging is monitored; when the UE detects a CN paging (paging), it stops subsequent monitoring in PTW1.
- PTW2 in the inactive eDRX cycle and PTW1 in the idle eDRX cycle sometimes overlap.
- CN paging (Paging) and RAN paging (paging) are simultaneously performed.
- Monitor (as an embodiment: monitor CN or Paging message for RAN paging.
- the UE when the UE detects a CN paging (paging) or a RAN paging (paging), it stops subsequent monitoring in the PTW1 window.
- paging CN paging
- RAN paging paging
- this method can be handled more simply when the PTW2 in the inactive eDRX cycle and the PTW1 in the idle eDRX cycle sometimes overlap. That is, the length of PTW1 is no longer divided into two parts and processed in two ways; instead, it is processed in one way. That is, CN paging and RAN paging (paging) paging are performed simultaneously within the entire PTW1 range.
- an embodiment of the present disclosure provides a device for determining a paging monitoring parameter, and the device includes:
- the determining module 110 is configured to determine the paging listening parameters of the UE in the inactive state according to the configuration of the eDRX parameters in the inactive state and the eDRX parameters in the idle state.
- the device for determining the paging monitoring parameter may be included in the UE.
- the determining module 110 may be a program module; after the program module is executed by the processor, it can determine the inactive The paging monitoring parameters of the state UE.
- the determined paging monitoring parameters are used for the UE to monitor paging at the network side.
- the paging at the network side includes but not limited to: CN paging and/or RAN paging.
- the determining module 110 may be a combination of hardware and software; the combination of hardware and software includes, but is not limited to: various programmable arrays; the programmable arrays include, but not limited to: field programmable arrays and/or complex programmable arrays.
- the determining module 110 may be a pure hardware module; the pure hardware module includes but is not limited to: an application specific integrated circuit.
- the determining module 110 is configured to perform at least one of the following:
- the inactive state UE paging monitoring parameters In response to the configuration of the idle state eDRX parameters and the configuration of the inactive state eDRX parameters, according to the first PTW included in the idle state eDRX and the second PTW included in the inactive eDRX parameters, determine the inactive state UE paging monitoring parameters.
- the determining module 110 is configured to, in response to the first PTW being smaller than the second PTW, determine the paging monitoring parameter of the UE in the inactive state according to the eDRX parameter in the idle state.
- the inactive state eDRX parameters include: inactive state eDRX cycle;
- the idle state eDRX parameters include: idle state eDRX cycle;
- the determination module 110 is further configured as at least one of the following:
- the second PTW of the inactive UE in the inactive eDRX cycle Internally monitor the paging monitoring parameters of CN paging and RAN paging of the core network;
- the inactive UE listens to core network CN paging and paging monitoring parameters for RAN paging;
- a paging monitoring parameter for stopping to continue monitoring paging in the first PTW when the RAN is paging or the RAN is paging.
- the inactive state eDRX parameters include: inactive state eDRX cycle;
- the idle state eDRX parameters include: idle state eDRX cycle;
- the determining module 110 is further configured to, in response to the first PTW being greater than the second PTW and the first PTW and the second PTW having no time domain overlap, The paging monitoring configuration of monitoring RAN paging in the second PTW of the inactive eDRX cycle.
- the inactive state eDRX parameters include: inactive state eDRX cycle;
- the idle state eDRX parameters include: idle state eDRX cycle;
- the determining module 110 is further configured to perform at least one of the following:
- the inactive UE listens within the second PTW of the inactive eDRX cycle Paging monitoring configuration to stop paging monitoring when a CN paging or a RAN paging occurs;
- the inactive state eDRX parameters include: inactive state eDRX cycle;
- the idle state eDRX parameters include: idle state eDRX cycle;
- determining the paging monitoring parameters of the inactive state UE also includes at least one of the following:
- the inactive UE In response to the fact that the first PTW is greater than the second PTW and the first PTW and the second PTW overlap in time domain, determine that the inactive UE has heard a CN paging within the first PTW or Paging monitoring configuration to stop paging monitoring when a RAN paging.
- the idle state eDRX parameters include an idle state eDRX cycle and the first PTW and the inactive state eDRX parameters include an inactive state eDRX cycle and the second PTW; the idle state eDRX cycle
- the period of the eDXR in the inactive state overlaps in the time domain, the start positions of the first PTW and the second PTW in the time domain are the same.
- An embodiment of the present disclosure provides a communication device, including:
- memory for storing processor-executable instructions
- the processor is configured to execute the method for determining the paging monitoring parameter provided by any of the foregoing technical solutions.
- the processor may include various types of storage media, which are non-transitory computer storage media, and can continue to memorize and store information thereon after the communication device is powered off.
- the communication device includes: UE.
- the processor may be connected to the memory through a bus or the like, and is used to read the executable program stored on the memory, for example, at least one of the methods shown in FIG. 24 .
- Fig. 8 is a block diagram of a UE 800 according to an exemplary embodiment.
- UE 800 may be a mobile phone, computer, digital broadcast user equipment, messaging device, game console, tablet device, medical device, fitness device, personal digital assistant, and the like.
- UE 800 may include one or more of the following components: processing component 802, memory 804, power supply component 806, multimedia component 808, audio component 810, input/output (I/O) interface 812, sensor component 814, and communication component 816 .
- Processing component 802 generally controls the overall operations of UE 800, such as those associated with display, phone calls, data communications, camera operations, and recording operations.
- the processing component 802 may include one or more processors 820 to execute instructions to complete all or part of the steps of the above method.
- processing component 802 may include one or more modules that facilitate interaction between processing component 802 and other components.
- processing component 802 may include a multimedia module to facilitate interaction between multimedia component 808 and processing component 802 .
- the memory 804 is configured to store various types of data to support operations at the UE 800 . Examples of such data include instructions for any application or method operating on UE800, contact data, phonebook data, messages, pictures, videos, etc.
- the memory 804 can be implemented by any type of volatile or non-volatile storage device or their combination, such as static random access memory (SRAM), electrically erasable programmable read-only memory (EEPROM), erasable Programmable Read Only Memory (EPROM), Programmable Read Only Memory (PROM), Read Only Memory (ROM), Magnetic Memory, Flash Memory, Magnetic or Optical Disk.
- SRAM static random access memory
- EEPROM electrically erasable programmable read-only memory
- EPROM erasable Programmable Read Only Memory
- PROM Programmable Read Only Memory
- ROM Read Only Memory
- Magnetic Memory Flash Memory
- Magnetic or Optical Disk Magnetic Disk
- the power supply component 806 provides power to various components of the UE 800 .
- Power components 806 may include a power management system, one or more power supplies, and other components associated with generating, managing, and distributing power for UE 800 .
- the multimedia component 808 includes a screen providing an output interface between the UE 800 and the user.
- the screen may include a liquid crystal display (LCD) and a touch panel (TP). If the screen includes a touch panel, the screen may be implemented as a touch screen to receive input signals from a user.
- the touch panel includes one or more touch sensors to sense touches, swipes, and gestures on the touch panel. The touch sensor may not only sense a boundary of a touch or swipe action, but also detect duration and pressure associated with the touch or swipe action.
- the multimedia component 808 includes a front camera and/or a rear camera. When the UE800 is in an operation mode, such as a shooting mode or a video mode, the front camera and/or the rear camera can receive external multimedia data. Each front camera and rear camera can be a fixed optical lens system or have focal length and optical zoom capability.
- the audio component 810 is configured to output and/or input audio signals.
- the audio component 810 includes a microphone (MIC), which is configured to receive an external audio signal when the UE 800 is in an operation mode, such as a call mode, a recording mode, and a voice recognition mode. Received audio signals may be further stored in memory 804 or sent via communication component 816 .
- the audio component 810 also includes a speaker for outputting audio signals.
- the I/O interface 812 provides an interface between the processing component 802 and a peripheral interface module, which may be a keyboard, a click wheel, a button, and the like. These buttons may include, but are not limited to: a home button, volume buttons, start button, and lock button.
- Sensor component 814 includes one or more sensors for providing various aspects of status assessment for UE 800 .
- the sensor component 814 can detect the open/closed state of the device 800, the relative positioning of components, such as the display and the keypad of the UE800, the sensor component 814 can also detect the position change of the UE800 or a component of the UE800, and the user and Presence or absence of UE800 contact, UE800 orientation or acceleration/deceleration and temperature change of UE800.
- Sensor assembly 814 may include a proximity sensor configured to detect the presence of nearby objects in the absence of any physical contact.
- Sensor assembly 814 may also include an optical sensor, such as a CMOS or CCD image sensor, for use in imaging applications.
- the sensor component 814 may also include an acceleration sensor, a gyroscope sensor, a magnetic sensor, a pressure sensor or a temperature sensor.
- Communication component 816 is configured to facilitate wired or wireless communications between UE 800 and other devices.
- the UE800 can access wireless networks based on communication standards, such as WiFi, 2G or 3G, or a combination thereof.
- the communication component 816 receives broadcast signals or broadcast related information from an external broadcast management system via a broadcast channel.
- the communication component 816 also includes a near field communication (NFC) module to facilitate short-range communication.
- NFC near field communication
- the NFC module may be implemented based on Radio Frequency Identification (RFID) technology, Infrared Data Association (IrDA) technology, Ultra Wide Band (UWB) technology, Bluetooth (BT) technology and other technologies.
- RFID Radio Frequency Identification
- IrDA Infrared Data Association
- UWB Ultra Wide Band
- Bluetooth Bluetooth
- UE 800 may be powered by one or more Application Specific Integrated Circuits (ASICs), Digital Signal Processors (DSPs), Digital Signal Processing Devices (DSPDs), Programmable Logic Devices (PLDs), Field Programmable Gates Arrays (FPGAs), controllers, microcontrollers, microprocessors or other electronic implementations for performing the methods described above.
- ASICs Application Specific Integrated Circuits
- DSPs Digital Signal Processors
- DSPDs Digital Signal Processing Devices
- PLDs Programmable Logic Devices
- FPGAs Field Programmable Gates Arrays
- controllers microcontrollers, microprocessors or other electronic implementations for performing the methods described above.
- a computer storage medium including instructions is also provided.
- the computer storage medium may be: a non-transitory computer-readable storage medium, such as the memory 804 including instructions, and the above instructions can be executed by the processor 820 of the UE 800 to complete the above method.
- the non-transitory computer readable storage medium may be ROM, random access memory (RAM), CD-ROM, magnetic tape, floppy disk, optical data storage device, and the like.
- the method for determining the paging monitoring parameters provided in any of the foregoing embodiments can be implemented.
- the method for determining the paging monitoring parameters may include: determining the paging monitoring parameters of the UE in the inactive state according to the configuration of the eDRX parameters in the inactive state and the eDRX parameters in the idle state.
- determining the paging monitoring parameters of the UE in the inactive state includes at least one of the following: Active state eDRX parameters, determine the paging monitoring parameters of the inactive state UE according to the idle state eDRX parameters; in response to the idle state eDRX parameters configured and the inactive state eDRX parameters do not include the paging time window PTW, according to The idle state eDRX parameters determine the paging monitoring parameters of the inactive state UE; in response to the configuration of the idle state eDRX parameters and the configuration of the inactive state eDRX parameters, according to the first PTW and The eDRX parameter in the inactive state includes a second PTW, which determines the paging monitoring parameter of the UE in the inactive state.
- determining the paging monitoring parameters of the inactive state UE includes:
- determining the paging monitoring parameters of the inactive state UE also includes at least one of the following : In response to the fact that the first PTW is smaller than the second PTW and the first PTW and the second PTW have no time domain overlap, determine that the UE in the inactive state is in the second eDRX cycle of the inactive state Monitor the paging monitoring parameters of radio access network RAN paging within two PTWs; in response to the first PTW being smaller than the second PTW and the first PTW and the second PTW overlapping in time domain, determine the non- The UE in the active state monitors the paging monitoring parameters of CN paging and RAN paging of the core network in the first PTW; in response to the first PTW being smaller than the second PTW and the first PTW and the second The PTW time
- determining the paging monitoring parameter of the inactive state UE further includes: responding to the The first PTW is greater than the second PTW and the first PTW and the second PTW have no time domain overlap, and it is determined that the inactive UE monitors RAN paging within the second PTW of the inactive eDRX cycle paging listener configuration.
- determining the paging monitoring parameter of the inactive state UE also includes at least one of the following: In response to the fact that the first PTW is greater than the second PTW and the first PTW and the second PTW overlap in time domain, determine that the inactive UE listens within the second PTW of the inactive eDRX cycle Paging monitoring configuration of CN paging and RAN paging; in response to the first PTW being greater than the second PTW and the first PTW and the second PTW overlapping in the time domain, it is determined that the UE in the inactive state is in the The paging monitoring configuration of stopping paging monitoring when a CN paging or a RAN paging is detected in the second PTW; in response to the first PTW being greater than the second PTW and the first PTW and the The second paging monitoring configuration of stopping paging monitoring when a CN paging or a RAN paging is detected in the second PTW; in response to the
- determining the paging monitoring parameter of the inactive state UE also includes at least one of the following: In response to the fact that the first PTW is greater than the second PTW and the first PTW and the second PTW overlap in time domain, determine that the inactive UE monitors CN paging and RAN paging in the first PTW Paging monitoring configuration for paging; in response to the first PTW being greater than the second PTW and the first PTW and the second PTW overlapping in time domain, determine that the inactive UE is within the first PTW Paging monitoring configuration that stops paging monitoring when a CN paging or a RAN paging is detected.
- the idle state eDRX parameters include the idle state eDRX cycle and the first PTW and the inactive state eDRX parameters include the inactive state eDRX cycle and the second PTW; the idle state eDRX cycle and the When the eDXR periods in the inactive state overlap in the time domain, the start positions of the first PTW and the second PTW in the time domain are the same.
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Abstract
Description
Claims (18)
- 一种寻呼监听参数确定方法,其中,由用户设备UE执行,所述方法包括:根据非激活态eDRX参数和空闲态eDRX参数的配置情况,确定非激活态UE的寻呼监听参数。
- 根据权利要求1所述的方法,其中,所述根据非激活态eDRX参数和空闲态eDRX参数的配置情况,确定非激活态UE的寻呼监听参数,包括以下至少之一:响应于配置有空闲态eDRX参数且没有配置非激活态eDRX参数,根据所述空闲态eDRX参数确定所述非激活态UE的寻呼监听参数;响应于配置有空闲态eDRX参数且所述非激活态eDRX参数不包含寻呼时间窗PTW,根据所述空闲态eDRX参数确定所述非激活态UE的寻呼监听参数;响应于配置有所述空闲态eDRX参数且配置有非激活态eDRX参数,根据所述空闲态eDRX包含的第一PTW和所述非激活态eDRX参数包含第二PTW,确定所述非激活态UE的寻呼监听参数。
- 根据权利要求2所述的方法,其中,所述根据所述空闲态eDRX包含的第一PTW和所述非激活态eDRX参数包含第二PTW,确定所述非激活态UE的寻呼监听参数,包括:响应于所述第一PTW小于所述第二PTW,根据所述空闲态eDRX参数确定所述非激活态UE的寻呼监听参数。
- 根据权利要求2或3所述的方法,其中,所述非激活态eDRX参数包括:非激活态eDRX周期;所述空闲态eDRX参数包括:空闲态eDRX周期;所述根据所述空闲态eDRX参数包含的第一PTW和所述非激活态eDRX参数包含第二PTW,确定所述非激活态UE的寻呼监听参数,还包括以下至少之一:响应于所述第一PTW小于所述第二PTW且所述第一PTW和所述第二PTW无时域重叠,确定所述非激活态UE在所述非激活态eDRX周期的所述第二PTW内监听无线接入网RAN寻呼的寻呼监听参数;响应于所述第一PTW小于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第一PTW内监听核心网CN寻呼和RAN寻呼的寻呼监听参数;响应于所述第一PTW小于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第一PTW内监听到一次所述CN寻呼或者所述RAN寻呼时停止在所述第一PTW内继续监听寻呼的寻呼监听参数。
- 根据权利要求2或3所述的方法,其中,所述非激活态eDRX参数包括:非激活态eDRX周期;所述空闲态eDRX参数包括:空闲态eDRX周期;所述根据所述空闲态eDRX包含的第一PTW和所述非激活态eDRX参数包含第二PTW,确定所述非激活态UE的寻呼监听参数,还包括:响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW无时域重叠,确定所述非激活态UE在所述非激活态eDRX周期的第二PTW内监听RAN寻呼的寻呼监听配置。
- 根据权利要求2或3所述的方法,其中,所述非激活态eDRX参数包括:非激活态eDRX周期;所述空闲态eDRX参数包括:空闲态eDRX周期;所述根据所述空闲态eDRX包含的第一PTW和所述非激活态eDRX参数包含第二PTW,确定所述非激活态UE的寻呼监听参数,还包括以下至少之一:响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第二PTW内监听CN寻呼和RAN寻呼的寻呼监听配置;响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第二PTW内监听到一次CN寻呼或者一次RAN寻呼时停止寻呼监听的寻呼监听配置;响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第一PTW内监听到一次CN寻呼或者一次RAN寻呼时停止寻呼监听的寻呼监听配置;响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第二PTW外的所述第一PTW内监听CN寻呼的寻呼监听配置;响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述所述第二PTW外的所述第一PTW内监听到一次CN寻呼停止寻呼监听的寻呼监听配置。
- 根据权利要求2或3所述的方法,其中,所述非激活态eDRX参数包括:非激活态eDRX周期;所述空闲态eDRX参数包括:空闲态eDRX周期;所述根据所述空闲态eDRX包含的第一PTW和所述非激活态eDRX参数包含第二PTW,确定所述非激活态UE的寻呼监听参数,还包括以下至少之一:响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第一PTW内监听CN寻呼和RAN寻呼的寻呼监听配置;响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述所述第一PTW内监听到一次CN寻呼或一次RAN寻呼时停止寻呼监听的寻呼监听配置。
- 根据权利要求2至7任一项所述的方法,其中,所述空闲态eDRX参数包括空闲态eDRX周期和所述第一PTW且所述非激活态eDRX参数包括非激活态eDRX周期和所述第二PTW;所述空闲态eDRX周期和所述非激活态eDXR周期在时域重叠时,所述第一PTW和所述第二PTW的时域起点位置相同。
- 一种寻呼监听参数确定装置,其中,所述装置包括:确定模块,被配置为根据非激活态eDRX参数和空闲态eDRX参数的配置情况,确定非激活态UE的寻呼监听参数。
- 根据权利要求9所述的装置,其中,所述确定模块,被配置为执行以下至少之一:响应于配置有空闲态eDRX参数且没有配置非激活态eDRX参数,根据所述空闲态eDRX参数确定所述非激活态UE的寻呼监听参数;响应于配置有空闲态eDRX参数且所述非激活态eDRX参数不包含寻呼时间窗PTW,根据所述空闲态eDRX参数确定所述非激活态UE的寻呼监听参数;响应于配置有所述空闲态eDRX参数且配置有非激活态eDRX参数,根据所述空闲态eDRX包含的第一PTW和所述非激活态eDRX参数包含第二PTW,确定所述非激活态UE的寻呼监听参数。
- 根据权利要求10所述的装置,其中,所述确定模块,被配置为响应于所述第一PTW小于所述第二PTW,根据所述空闲态eDRX参数确定所述非激活态UE的寻呼监听参数。
- 根据权利要求10或11所述的装置,其中,所述非激活态eDRX参数包括:非激活态eDRX周期;所述空闲态eDRX参数包括:空闲态eDRX周期;所述确定模块,还被配置为以下至少之一:响应于所述第一PTW小于所述第二PTW且所述第一PTW和所述第二PTW无时域重叠,确定所述非激活态UE在所述非激活态eDRX周期的所述第二PTW内监听无线接入网RAN寻呼的寻呼监听参数;响应于所述第一PTW小于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第一PTW内监听核心网CN寻呼和RAN寻呼的寻呼监听参数;响应于所述第一PTW小于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第一PTW内监听到一次所述CN寻呼或者所述RAN寻呼时停止在所述第一PTW内继续监听寻呼的寻呼监听参数。
- 根据权利要求10或11所述的装置,其中,所述非激活态eDRX参数包括:非激活态eDRX周期;所述空闲态eDRX参数包括:空闲态eDRX周期;所述确定模块,还被配置为响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW无时域重叠,确定所述非激活态UE在所述非激活态eDRX周期的第二PTW内监听RAN寻呼的寻呼监听配置。
- 根据权利要求10或11所述的装置,其中,所述非激活态eDRX参数包括:非激活态eDRX周期;所述空闲态eDRX参数包括:空闲态eDRX周期;所述确定模块,还被配置为执行以下至少之一:响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第二PTW内监听CN寻呼和RAN寻呼的寻呼监听配置;响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第二PTW内监听到一次CN寻呼或者一次RAN寻呼时停止寻呼监听的寻呼监听配置;响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定 所述非激活态UE在所述第一PTW内监听到一次CN寻呼或者一次RAN寻呼时停止寻呼监听的寻呼监听配置;响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第二PTW外的所述第一PTW内监听CN寻呼的寻呼监听配置;响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第二PTW外的所述第一PTW内监听到一次CN寻呼停止寻呼监听的寻呼监听配置。
- 根据权利要求10或11所述的装置,其中,所述非激活态eDRX参数包括:非激活态eDRX周期;所述空闲态eDRX参数包括:空闲态eDRX周期;所述根据所述空闲态eDRX包含的第一PTW和所述非激活态eDRX参数包含第二PTW,确定所述非激活态UE的寻呼监听参数,还包括以下至少之一:响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第一PTW内监听CN寻呼和RAN寻呼的寻呼监听配置;响应于所述第一PTW大于所述第二PTW且所述第一PTW和所述第二PTW有时域重叠,确定所述非激活态UE在所述第一PTW内监听到一次CN寻呼或一次RAN寻呼时停止寻呼监听的寻呼监听配置。
- 根据权利要求10至15任一项所述的装置,其中,所述空闲态eDRX参数包括空闲态eDRX周期和所述第一PTW且所述非激活态eDRX参数包括非激活态eDRX周期和所述第二PTW;所述空闲态eDRX周期和所述非激活态eDXR周期在时域重叠时,所述第一PTW和所述第二PTW的时域起点位置相同。
- 一种通信设备,包括处理器、收发器、存储器及存储在存储器上并能够有所述处理器运行的可执行程序,其中,所述处理器运行所述可执行程序时执行如权利要求1至8任一项提供的方法。
- 一种计算机存储介质,所述计算机存储介质存储有可执行程序;所述可执行程序被处理器执行后,能够实现如权利要求1至8任一项提供的方法。
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