WO2022174799A1 - 终端状态的控制方法、装置及终端 - Google Patents
终端状态的控制方法、装置及终端 Download PDFInfo
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- WO2022174799A1 WO2022174799A1 PCT/CN2022/076685 CN2022076685W WO2022174799A1 WO 2022174799 A1 WO2022174799 A1 WO 2022174799A1 CN 2022076685 W CN2022076685 W CN 2022076685W WO 2022174799 A1 WO2022174799 A1 WO 2022174799A1
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- 206010048669 Terminal state Diseases 0.000 title claims abstract description 32
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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
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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
- H04W52/0225—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
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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
- H04W52/0225—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
- H04W52/0235—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal where the received signal is a power saving command
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/20—Manipulation of established connections
- H04W76/27—Transitions between radio resource control [RRC] states
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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 application belongs to the field of communication technologies, and in particular, relates to a terminal state control method, device and terminal.
- RRC Radio Resource Control
- UE User Equipment
- the embodiments of the present application provide a terminal state control method, device and terminal, which can solve the problem of how to reduce the power consumption of the terminal.
- a method for controlling a terminal state comprising:
- the power consumption when the terminal is in the first state is less than the power consumption when the terminal is in a connected state, an idle state or an inactive state;
- the first condition is determined according to a protocol agreement, or the first condition is determined according to a network side configuration.
- a terminal state control device including:
- a first processing module configured to trigger the terminal to enter the first state when the first condition is met or a network indication is received
- the power consumption when the terminal is in the first state is less than the power consumption when the terminal is in a connected state, an idle state or an inactive state;
- the first condition is determined according to a protocol agreement, or the first condition is determined according to a network side configuration.
- a terminal in a third aspect, includes a processor, a memory, and a program or instruction stored on the memory and executable on the processor, when the program or instruction is executed by the processor.
- a readable storage medium is provided, and a program or an instruction is stored on the readable storage medium, and when the program or instruction is executed by a processor, the steps of the method according to the first aspect are implemented.
- a chip in a fifth aspect, includes a processor and a communication interface, the communication interface is coupled to the processor, and the processor is configured to run a program or an instruction to implement the method according to the first aspect .
- a computer program product is provided, the computer program product is stored in a non-volatile storage medium, the computer program product is executed by at least one processor to implement the method of the first aspect.
- the power consumption when the terminal is in the first state is smaller than the power consumption when the terminal is in the connected state, idle state or inactive state, therefore, when the first condition is satisfied or the network indication is received In the first state, after the terminal enters the first state, it is beneficial for the terminal to further save power, thereby achieving the purpose of reducing the power consumption of the terminal.
- FIG. 1 shows a structural diagram of a communication system to which an embodiment of the present application can be applied
- FIG. 2 shows a schematic flowchart of a method for controlling a terminal state according to an embodiment of the present application
- FIG. 3 shows one of the schematic diagrams of the mapping of the first state in the embodiment of the present application
- FIG. 4 shows the second schematic diagram of the mapping of the first state in the embodiment of the present application
- FIG. 5 shows the third schematic diagram of the mapping of the first state in the embodiment of the present application
- FIG. 6 shows the fourth schematic diagram of the mapping of the first state in the embodiment of the present application.
- FIG. 7 is a schematic block diagram of an apparatus for controlling a terminal state according to an embodiment of the present application.
- FIG. 8 shows a structural block diagram of a communication device according to an embodiment of the present application.
- FIG. 9 shows a structural block diagram of a terminal according to an embodiment of the present application.
- first, second and the like in the description and claims of the present application are used to distinguish similar objects, and are not used to describe a specific order or sequence. It is to be understood that the data so used are interchangeable under appropriate circumstances so that the embodiments of the present application can be practiced in sequences other than those illustrated or described herein, and "first”, “second” distinguishes Usually it is a class, and the number of objects is not limited.
- the first object may be one or multiple.
- “and/or” in the description and claims indicates at least one of the connected objects, and the character “/" generally indicates that the associated objects are in an "or” relationship.
- LTE Long Term Evolution
- LTE-Advanced LTE-Advanced
- LTE-A Long Term Evolution-Advanced
- CDMA Code Division Multiple Access
- TDMA Time Division Multiple Access
- FDMA Frequency Division Multiple Access
- OFDMA Orthogonal Frequency Division Multiple Access
- SC-FDMA Single-Carrier Frequency-Division Multiple Access
- system and “network” in the embodiments of the present application are often used interchangeably, and the described technology can be used not only for the above-mentioned systems and radio technologies, but also for other systems and radio technologies.
- NR New Radio
- the following description describes a New Radio (NR) system for example purposes, and uses NR terminology in most of the description below, these techniques are also applicable to applications other than NR system applications, such as 6th generation (6 th Generation, 6G) communication system.
- 6th generation 6 th Generation, 6G
- FIG. 1 shows a block diagram of a wireless communication system to which the embodiments of the present application can be applied.
- the wireless communication system includes a terminal 11 and a network-side device 12 .
- the terminal 11 may also be called a terminal device or a user terminal (User Equipment, UE), and the terminal 11 may be a mobile phone, a tablet computer (Tablet Computer), a laptop computer (Laptop Computer) or a notebook computer, a personal digital assistant (Personal Digital Assistant, PDA), PDA, Netbook, Ultra-mobile Personal Computer (UMPC), Mobile Internet Device (Mobile Internet Device, MID), Wearable Device (Wearable Device) or vehicle-mounted device ( VUE), pedestrian terminal (PUE) and other terminal-side devices, wearable devices include: bracelets, earphones, glasses, etc.
- the network side device 12 may be a base station or a core network device, wherein the base station may be referred to as a Node B, an evolved Node B, an access point, a Base Transceiver Station (BTS), a radio base station, a radio transceiver, a basic Service Set (Basic Service Set, BSS), Extended Service Set (Extended Service Set, ESS), Node B, Evolved Node B (eNB), Home Node B, Home Evolved Node B, WLAN Access Point, WiFi Node, Transmitting Receiving Point (TRP) or some other suitable term in the field, as long as the same technical effect is achieved, the base station is not limited to specific technical terms. It should be noted that in the embodiments of this application, only Take the base station in the NR system as an example, but the specific type of the base station is not limited.
- RRC radio resource control
- RRC Under 5G NR, RRC has three states: idle state (IDLE), inactive state (INACTIVE), and connected state (CONNECTED).
- 4G LTE has only two RRC states, RRC_IDLE and RRC_CONNECTED.
- 5G NR introduces a new state: RRC INACTIVE.
- RRC_IDLE (idle mode) corresponds to the following characteristics:
- Public Land Mobile Network Public Land Mobile Network, PLMN selection
- the paging of mobile terminated data is initiated by the 5G core network (5GC);
- the paging of the mobile terminal data area is managed by 5GC;
- DRX Discontinuous Reception
- NAS Non Access Stratum
- Core Network Core Network, CN
- RRC_INACTIVE inactive mode
- the paging is initiated by the Next Generation Radio Access Network (5G NR Radio Access Network, NG-RAN) (RAN paging);
- 5G NR Radio Access Network, NG-RAN Next Generation Radio Access Network, NG-RAN
- RNA-based notification area is managed by NG-RAN;
- UE access stratum (Access Stratum, AS) messages are stored in NG-RAN and UE;
- the NG-RAN knows which RNA the UE belongs to.
- RRC_CONNECTED (connected mode) corresponds to the following characteristics:
- UE AS messages are stored in NG-RAN and UE;
- the NG-RAN knows the cell to which the UE belongs
- the network controls mobility, including measurements.
- the above RRC states can be converted to each other.
- Connection management (Connection Management, CM) consists of two parts, the establishment and release of the non-access stratum (NAS) signaling connection between the UE and the Access and Mobility Management Function (AMF).
- the NAS signaling connection is used for NAS signaling interaction between the UE and the core network. It consists of two parts: 1) The signaling connection between the UE and the Access Network (AN) (the RRC connection in the 3GPP access mode, the interworking function in the UE-non-3GPP mode (Non-3GPP InterWorking) Function, N3 IWF) connection), 2) N2 connection between AN and AMF.
- AN The signaling connection between the UE and the Access Network (AN) (the RRC connection in the 3GPP access mode, the interworking function in the UE-non-3GPP mode (Non-3GPP InterWorking) Function, N3 IWF) connection), 2) N2 connection between AN and AMF.
- CM state 5GS connection management state
- the signaling connection between UE and AMF in 5GS has two states:
- CM idle state (CM_IDLE);
- CM connected state (CM_CONNECTED).
- the CM state is independent for 3GPP access and non-3GPP access, that is, one access can be in an idle state while the other is in a connected state at this time.
- ECM_idle idle
- Evolved Packet System Connection Management idle
- ECM_Connected Evolved Packet System Connection Management
- the UE is in the CM_IDLE state and the resource management (Resource Manager, RM)_(registered) REGISTERED state (that is, when it has been registered, but there is no NAS signaling connection), the UE should:
- service-request Initiating a service-request (service-request) process in response to a paging of the network, unless the UE is in Mobile Initiated Connection Only (MICO) mode;
- MICO Mobile Initiated Connection Only
- the UE When the signaling connection between the UE and the AN is established (the RRC connection in the 3GPP access mode, the UE-N3IWF connection in the non-3GPP mode), the UE enters the CM-CONNECTED state.
- the transmission of an initial NAS message (such as a Registration Request, Service Request or Deregistration Request) will trigger the UE state transition process from CM-IDLE to CM-CONNECTED.
- the UE is in the CM_IDLE state and the RM_REGISTERED state (that is, when it has been registered, but there is no NAS signaling connection), the AMF should:
- the AMF enters the CM-CONNECTED state when the N2 connection is established. Receiving the initial NAS message (Registration Request, Service Request or Deregistration Request) will trigger the state transition process of AMF from CM-IDLE to CM-CONNECTED.
- a NAS signaling connection is established between the UE in the CM_CONNECTED state and the corresponding AMF.
- the UE shall:
- CM-IDLE Enter the CM-IDLE state, when receiving the signaling connection of the AN (ie RRC connection release (3GPP access) or UE-N3IWF connection release (non-3GPP access)).
- AN ie RRC connection release (3GPP access) or UE-N3IWF connection release (non-3GPP access)
- the AMF shall:
- the reachability of the UE is managed by the access network
- the paging of the UE is managed by the access network
- the UE should simultaneously monitor the paging of the core network ID (such as 5G-S Temporary Mobile Subscriber Identity (5G-S Temporary Mobile Subscriber Identity, 5G S-TMSI)) and the paging of the RAN-ID.
- the core network ID such as 5G-S Temporary Mobile Subscriber Identity (5G-S Temporary Mobile Subscriber Identity, 5G S-TMSI)
- 5G-S Temporary Mobile Subscriber Identity 5G-S Temporary Mobile Subscriber Identity, 5G S-TMSI
- a wake-up signal such as Wake-Up Signaling (WUS)/temporary identification of a power-saving wireless network
- WUS Wake-Up Signaling
- a wake-up signal such as Wake-Up Signaling (WUS)/temporary identification of a power-saving wireless network
- DCI Downlink Control Information
- DCP DCI with CRC scrambled by PS-RNTI, DCP
- Paging Early Indication Paging Early Indication, PEI
- the purpose is to enable the terminal to monitor the physical state from the dormant state (ie, the DRX off state) (ie, enter the DRX on state) as needed when the connected state DRX or idle state DRX is configured.
- Downlink control channel Physical downlink control channel, PDCCH).
- the terminal determines whether to return to the active state from the DRX off state by monitoring the DCP signal sent by the network side at the corresponding monitoring occasion (Monitor occasion), thereby monitoring the PDCCH, and completing the corresponding connected state scheduling and data transmission.
- the terminal monitors the WUS or PEI message sent by the network side at the corresponding monitor opportunity (Monitor occasion) in each DRX cycle, so as to determine whether it needs to monitor the paging in one or more subsequent DRX cycles.
- PDCCH and/or physical downlink shared channel (Physical downlink shared channel, PDSCH) message corresponding to the message.
- an embodiment of the present application provides a method for controlling a terminal state, including:
- Step 201 Trigger the terminal to enter a first state when the first condition is met or a network indication is received;
- the power consumption when the terminal is in the first state is less than the power consumption when the terminal is in a connected state, an idle state or an inactive state;
- the first condition is determined according to a protocol agreement, or the first condition is determined according to a network side configuration.
- the power consumption when the terminal is in the first state is less than the power consumption when the terminal is in a connected state, an idle state, or an inactive state, or within a unit time or within the same length of time , the power when the terminal is in the first state is smaller than the power when the terminal is in a connected state, an idle state or an inactive state.
- a terminal state that is not used in the connected state, idle state or inactive state is newly introduced, that is, the above-mentioned first state.
- the behavior performed when the terminal is in the first state is the same as the behavior performed when the terminal is in the connected state, idle state or inactive state.
- the behavior is different, and the power consumption is small, which is conducive to further power saving of the terminal.
- the above-mentioned first state includes one of the following: a sleep state (Sleep), a zero power state (Zero Power), a near zero power state (Almost Zero Power, AZP) or (Near Zero Power, NZP), a low power consumption state (Low Power, LP), ultra-low power state ((Ultra Low Power, ULP) or (Super Low Power, SLP)).
- the first state may be a newly defined RRC state, that is, it is different from the three existing RRC states: RRC connected state (RRC_CONNECTED), RRC idle state (RRC_IDLE), and RRC inactive state (RRC_INACTIVE), except for the above three states.
- RRC connected state RRC_CONNECTED
- RRC idle state RRC_IDLE
- RRC inactive state RRC_INACTIVE
- the above-mentioned first condition or network indication specifically includes at least one of the following:
- the received signal quality is higher or lower than a certain threshold, or the received signal quality change value is higher or lower than a certain threshold, or the difference between the received signal quality and the reference value is higher or lower than a certain threshold, the received signal quality Including Reference Signal Received Power (RSRP), Reference Signal Received Quality (RSRQ), Received Signal Strength Indication (RSSI), Pathloss or Signal and Interference Plus Noise ratio (Signal to Interference plus Noise Ratio, SINR), etc., but not limited to this.
- the above threshold may be pre-configured or pre-defined.
- Mobility conditions include one or more of the following but are not limited to:
- the quality of the signal or the fluctuation range of the signal quality within a period of time is less than a threshold, where the signal quality includes RSRP, RSRQ, RSSI, Pathloss or SINR, etc. but is not limited to this;
- the continuous dwell time in the non-SLEEP state exceeds the preset time.
- the power consumption of the terminal when the terminal is in the first state is smaller than the power consumption when the terminal is in the connected state, idle state or inactive state, therefore, when the first condition is satisfied or the network indication is received , after the terminal enters the first state, it is beneficial for the terminal to further save power, thereby achieving the purpose of reducing the power consumption of the terminal.
- a first behavior is performed, and the first behavior includes at least one of the following:
- SI System Information
- Radio resource management measurements are not performed.
- the power consumption of the terminal when the terminal is in the first state, the power consumption of the terminal can be further reduced by performing the above-mentioned first behavior.
- the first state belongs to at least one of the following:
- connection management Connection Management, CM
- the first state when the first state belongs to the RRC state, the first state is mapped to the CM idle state;
- the first state belongs to the CM state
- the first state is mapped to the RRC idle state
- the first state on the radio access network side is mapped to the first state on the core network side.
- CM idle state is the idle state of the terminal defined by the core network side.
- the mapping of the first state to the CM idle state refers to the state between the UE and the core network when the UE is in the first state on the access network side Synchronization is CM idle state.
- the mapping of the first state to the RRC idle state refers to the state synchronization between the UE and the access network side when the UE is in the first state on the core network side RRC idle state.
- the mapping of the first state on the radio access network side to the first state on the core network side means that when the terminal is on the access network side
- the state between the UE and the core network is synchronously transitioned to the corresponding state.
- the first state when the first state belongs to the RRC state, the first state is an RRC state other than the first RRC state, or the first state is a sub-state of the RRC idle state;
- the first RRC state includes an RRC idle state, an RRC inactive state, and an RRC connected state.
- the first state is an RRC state other than the first RRC state
- the first state and the first RRC state can be converted to each other
- the first state is a sub-state of the RRC idle state
- the first state and the RRC idle state can be converted to each other
- the first state is a sub-state of the RRC idle state
- the first state and the first RRC state cannot be directly converted.
- the terminal when the first state is an RRC state other than the first RRC state, the terminal performs at least one of the following:
- Some or all of the RAN configuration information in the RRC idle state is invalid
- the failure of part or all of the RAN configuration information in the RRC idle state may be understood as when the terminal transitions from the RRC idle state to the first state, part or all of the configuration information on the RAN side in the RRC idle state is released; and/or, when the terminal transitions from the RRC idle state to the first state When transitioning from the first state back to the RRC idle state, re-acquire part or all of the RAN side configuration information.
- Part or all of the core network configuration information in the CM idle state continues to take effect can be understood as when the terminal transitions from the CM idle state to the first state, part or all of the core network configuration information in the CM idle state continues to take effect; and/or, When the terminal transitions from the first state back to the CM idle state, it continues to use part or all of the configuration information on the core network side.
- the terminal when the first state is a sub-state of the RRC idle state, the terminal performs at least one of the following:
- the configuration information in the idle state includes at least one of access network configuration information and core network configuration information.
- the above configuration information maintained in the idle state continues to take effect can be understood as when the terminal transitions from the idle state to the first state, the configuration information in the idle state is not released; and/or, when the terminal transitions from the first state back to the idle state , use the configuration information of the idle state before entering the first state.
- the configuration information of the terminal in the idle state is partially or completely invalid
- the configuration information of the terminal in the idle state includes at least one of access network configuration information and core network configuration information.
- the configuration information of the terminal in the idle state is partially or completely invalid, which can be understood as: the terminal does not save the configuration in the idle state, that is, a partial failure of the configuration information in the idle state. Or all configurations are invalid, that is, when the terminal transitions from the IDLE state to the first state, part or all of the configuration in the IDLE state is released; and/or, when the terminal transitions from the first state back to the idle state, re-acquires part or all of the configuration .
- the first state on the radio access network side is an RRC state other than the first RRC state
- the core network The first state of the side is a core network state other than the first core network state
- the first RRC state includes an RRC idle state, an RRC inactive state, and an RRC connected state
- the first core network state includes a CM idle state and a CM connected state
- the first state when the first state belongs to the CM state, the first state is a core network state other than the first core network state;
- the first core network state includes a CM idle state and a CM connected state.
- the CM connected state can also be described as the connected state on the core network side.
- the first state and the first core network state can be converted to each other.
- the terminal when the first state belongs to the CM state, the terminal performs at least one of the following:
- the RAN configuration information maintained in the RRC idle state continues to take effect;
- the configuration information maintained on the RAN side continues to take effect, that is, the configuration information maintained on the RAN side remains unchanged;
- Part or all of the configuration information on the core network side in the idle state of the CM is invalid.
- the RAN configuration information maintained in the RRC idle state continues to take effect can be understood as: when the terminal transitions from the CM_IDLE state to the first state, part or all of the RRC side configuration in the RRC_IDLE state continues to take effect; and/or, when the terminal changes from the CM_IDLE state to the first state.
- a state transitions back to the CM_IDLE state continue to use part or all of the RAN side configuration;
- Part or all of the configuration information on the core network side in the CM idle state can be understood as: when the terminal transitions from the CM_IDLE state to the first state, part or all of the configuration information on the CN side in the CM_IDLE state is released; and/or, when the terminal changes from the CM_IDLE state to the first state When a state transitions back to the CM_IDLE state, part or all of the CN side configuration is reacquired.
- the method of the embodiment of the present application further includes:
- the first configuration information includes at least one of the following:
- the second configuration information includes at least one of the following:
- the NAS-related configuration information includes at least one of the following:
- the first state belongs to the state of the radio access network side, that is, a newly introduced RRC state (assuming a sleep state), the sleep state (RRC_SLEEP state) and the RRC idle state (RRC_IDLE state), RRC inactive state (RRC_INACTIVE state) state) or RRC connected state (RRC_CONNECTED state).
- the sleep state is mapped to the idle state on the core network side, that is, when the UE is in the RRC_SLEEP state on the RAN side of the access network, the state synchronization between the UE and the core network is the CM_IDLE state.
- the terminal maintains the registration information in the core network unchanged.
- the RRC states of the terminal can be converted to each other conditionally, for example, through RRC configuration, through the RRC process, or based on timer/ period, or based on trigger conditions, etc.
- part or all of the RAN side configuration stored in the RRC_IDLE state by the terminal is invalid, that is, when the terminal transitions from the RRC_IDLE state to the RRC_SLEEP state, the RAN side configuration in the RRC_IDLE state is partially or completely released; When the RRC_SLEEP state transitions back to the RRC_IDLE state, re-acquire part or all of the RAN side configuration.
- part or all of the CN side configuration stored in the CM_IDLE state by the terminal continues to take effect (such as UE-specific DRX, registration information, etc.), that is, when the terminal transitions from the RRC_IDLE state to the RRC_SLEEP state, the terminal in the CM_IDLE state Part or all of the CN side configuration continues to take effect; when the terminal transitions from the SLEEP state back to the IDLE state, part or all of the CN side configuration continues to be used.
- effect such as UE-specific DRX, registration information, etc.
- Embodiment 2 The first state belongs to the state of the radio access network side, and the first state (eg, the sleep state, that is, the RRC_SLEEP state) is a subordinate state of the RRC_IDLE state.
- the first state eg, the sleep state, that is, the RRC_SLEEP state
- the sub-states of the RRC_IDLE state are mapped to the idle state of the core network, that is, when the UE is in the RRC_SLEEP state on the RAN side of the access network, the state synchronization between the UE and the core network is the CM_IDLE state.
- the terminal maintains the registration information in the core network unchanged.
- the configuration of the terminal saved in the idle state is not invalid, that is, when the terminal transitions from the idle state to the sleep state, the configuration in the idle state is not released; idle state configuration.
- the configuration in the idle state includes: RAN configuration and/or CN configuration.
- the RRC_SLEEP state and the RRC_IDLE state can be converted to each other conditionally, for example, through RRC configuration, through an RRC process, or based on a timer/period, or based on a trigger condition, and the like.
- the RRC_SLEEP state and other RRC states ie, the RRC_IDLE state, the RRC_INACTIVE state, and the RRC_CONNECTED state
- the transition between the RRC_IDLE state and other states is required.
- Embodiment 3 The first state belongs to the state of the radio access network side and the state of the core network side, that is, the RRC_SLEEP state is introduced at the radio access network side, and the CM_SLEEP state is introduced at the core network side.
- the RRC_SLEEP state is mapped to the CM_SLEEP state, that is, when the UE transitions from the RRC_SLEEP state to another RRC state on the access network side, the state between the UE and the core network is synchronously transitioned to the corresponding state.
- the RRC states of the terminal can be converted to each other conditionally, for example, through RRC configuration, through the RRC process, or based on timer/ period, or based on trigger conditions, etc.
- the terminal does not save the configuration in the idle state, that is, part or all of the configuration is invalid, that is, when the terminal transitions from the IDLE state to the SLEEP state, part or all of the configuration in the IDLE state is released;
- the SLEEP state transitions back to the IDLE state, re-acquire some or all of the configuration.
- the configuration in the idle state includes: RAN configuration and/or CN configuration.
- Embodiment 4 The first state belongs to the state on the core network side, that is, the CM_SLEEP state is introduced on the core network side.
- the CM_SLEEP state on the core network side is mapped to the RRC_IDLE state on the radio access network side, that is, when the UE is in the CM_SLEEP state on the core network side, the state synchronization between the UE and the RAN side is the RRC_IDLE state.
- the terminal maintains the configuration information on the RAN side unchanged.
- the terminal UE can switch between the CM_SLEEP state on the core network side and other states (ie, the CM_CONNECTED state), and at the same time, the state of the UE on the radio access network side synchronously switches to the corresponding state.
- the CM_SLEEP state on the core network side and other states (ie, the CM_CONNECTED state)
- the state of the UE on the radio access network side synchronously switches to the corresponding state.
- NAS configuration NAS process, RRC configuration, RRC process, or based on timer/period, or based on trigger conditions, etc.
- part or all of the configuration on the core network side stored in the CM_IDLE state by the terminal is invalid (such as UE-specific DRX, registration information, TA information, etc.), that is, when the terminal transitions from the CM_IDLE state to the CM_SLEEP state, the CN side in the CM_IDLE state Part or all of the configuration is released; when the terminal transitions from the CM_SLEEP state back to the CM_IDLE state, part or all of the CN side configuration is reacquired.
- invalid such as UE-specific DRX, registration information, TA information, etc.
- part or all of the configuration on the RAN side saved in the RRC_IDLE state by the terminal continues to take effect, that is, when the terminal transitions from the CM_IDLE state to the CM_SLEEP state, part or all of the configuration on the RRC side in the RRC_IDLE state continues to take effect; when the terminal transitions from the SLEEP state When the state transitions back to the IDLE state, part or all of the RAN side configuration continues to be used.
- the terminal since the power consumption when the terminal is in the first state is smaller than the power consumption when the terminal is in the connected state, idle state or inactive state, therefore, when the first condition is satisfied, the terminal enters the first state After being in the state, it is beneficial for the terminal to further save power, thereby achieving the purpose of reducing the power consumption of the terminal.
- the execution subject may be a terminal state control device, or a control module in the terminal state control device for executing the terminal state control method.
- the terminal state control device provided by the embodiment of the present application is described by taking the terminal state control device executing the terminal state control method as an example.
- an embodiment of the present application provides a terminal state control apparatus 700, including:
- the first processing module 701 is configured to trigger the terminal to enter the first state when the first condition is satisfied or a network indication is received;
- the power consumption when the terminal is in the first state is less than the power consumption when the terminal is in a connected state, an idle state or an inactive state;
- the first condition is determined according to a protocol agreement, or the first condition is determined according to a network side configuration.
- control apparatus in this embodiment of the present application further includes: a first determination module, configured to determine whether the first condition is satisfied.
- a first behavior is performed, and the first behavior includes at least one of the following:
- the first state belongs to at least one of the following:
- connection of the terminal on the core network side manages the CM state.
- the first state when the first state belongs to the RRC state, the first state is mapped to the CM idle state;
- the first state belongs to the CM state
- the first state is mapped to the RRC idle state
- the first state on the radio access network side is mapped to the first state on the core network side.
- the first state when the first state belongs to the RRC state, the first state is an RRC state other than the first RRC state, or the first state is a sub-state of the RRC idle state;
- the first RRC state includes an RRC idle state, an RRC inactive state, and an RRC connected state.
- the first state is an RRC state other than the first RRC state
- the first state and the first RRC state can be converted to each other
- the first state is a sub-state of the RRC idle state
- the first state and the RRC idle state can be converted to each other
- the first state is a sub-state of the RRC idle state
- the first state and the first RRC state cannot be directly converted.
- the terminal when the first state is an RRC state other than the first RRC state, the terminal performs at least one of the following:
- Some or all of the RAN configuration information in the RRC idle state is invalid
- the terminal when the first state is a sub-state of the RRC idle state, the terminal performs at least one of the following:
- the configuration information in the idle state includes at least one of access network configuration information and core network configuration information.
- the configuration information of the terminal in the idle state is partially or completely invalid
- the configuration information of the terminal in the idle state includes at least one of access network configuration information and core network configuration information.
- the first state on the radio access network side is an RRC state other than the first RRC state
- the core network The first state of the side is a core network state other than the first core network state
- the first RRC state includes an RRC idle state, an RRC inactive state, and an RRC connected state
- the first core network state includes a CM idle state and a CM connected state
- the first state when the first state belongs to the CM state, the first state is a core network state other than the first core network state;
- the first core network state includes a connected CM idle state and a CM connected state.
- the first state and the first core network state can be converted to each other.
- the terminal when the first state belongs to the CM state, the terminal performs at least one of the following:
- the RAN configuration information maintained in the RRC idle state continues to take effect;
- the configuration information maintained on the RAN side continues to take effect;
- Part or all of the configuration information on the core network side in the idle state of the CM is invalid.
- the device in the embodiment of the present application further includes:
- a second processing module configured to release part or all of the RRC configuration information when the terminal transitions from the RRC connected state to the first state
- the first configuration information includes at least one of the following:
- the second configuration information includes at least one of the following:
- the NAS-related configuration information includes at least one of the following:
- the power consumption of the terminal when the terminal is in the first state is smaller than the power consumption when the terminal is in the connected state, idle state or inactive state, therefore, when the first condition is satisfied or the network indication is received , after the terminal enters the first state, it is beneficial for the terminal to further save power, thereby achieving the purpose of reducing the power consumption of the terminal.
- the device for controlling the terminal state in this embodiment of the present application may be a device, or may be a component, an integrated circuit, or a chip in the terminal.
- the device may be a mobile terminal or a non-mobile terminal.
- the mobile terminal may include but is not limited to the types of terminals 11 listed above, and the non-mobile terminal may be a server, a network attached storage (Network Attached Storage, NAS), a personal computer (Personal Computer, PC), a television ( Television, TV), teller machine, or self-service machine, etc., which are not specifically limited in the embodiments of the present application.
- Network Attached Storage NAS
- PC Personal Computer
- TV Television, TV
- teller machine or self-service machine, etc.
- the device for controlling the terminal state in this embodiment of the present application may be a device having an operating system.
- the operating system may be an Android (Android) operating system, an ios operating system, or other possible operating systems, which are not specifically limited in the embodiments of the present application.
- the terminal state control apparatus provided in the embodiments of the present application can implement the various processes implemented by the method embodiments in FIGS. 2 to 6 , and achieve the same technical effect. To avoid repetition, details are not described here.
- an embodiment of the present application further provides a communication device 800, including a processor 801, a memory 802, a program or instruction stored in the memory 802 and executable on the processor 801,
- a communication device 800 including a processor 801, a memory 802, a program or instruction stored in the memory 802 and executable on the processor 801
- the communication device 800 is a terminal
- the program or instruction is executed by the processor 801
- each process of the above-mentioned embodiment of the terminal state control method can be achieved, and the same technical effect can be achieved. To avoid repetition, details are not repeated here.
- FIG. 9 is a schematic diagram of the hardware structure of a terminal implementing an embodiment of the present application.
- the terminal 900 includes but is not limited to: a radio frequency unit 901, a network module 902, an audio output unit 903, an input unit 904, a sensor 905, a display unit 906, a user Input unit 907, interface unit 908, memory 909, processor 910 and other components.
- the terminal 900 may also include a power source (such as a battery) for supplying power to various components, and the power source may be logically connected to the processor 910 through a power management system, so as to manage charging, discharging, and power consumption through the power management system management and other functions.
- a power source such as a battery
- the terminal structure shown in FIG. 9 does not constitute a limitation on the terminal, and the terminal may include more or less components than shown, or combine some components, or arrange different components, which will not be repeated here.
- the input unit 904 may include a graphics processor (Graphics Processing Unit, GPU) 9041 and a microphone 9042. Such as camera) to obtain still pictures or video image data for processing.
- the display unit 906 may include a display panel 9061, which may be configured in the form of a liquid crystal display, an organic light emitting diode, or the like.
- the user input unit 907 includes a touch panel 9071 and other input devices 9072 .
- the touch panel 9071 is also called a touch screen.
- the touch panel 9071 may include two parts, a touch detection device and a touch controller.
- Other input devices 9072 may include, but are not limited to, physical keyboards, function keys (such as volume control keys, switch keys, etc.), trackballs, mice, and joysticks, which will not be repeated here.
- the radio frequency unit 901 receives the downlink data from the network side device, and then processes it to the processor 910; in addition, sends the uplink data to the network side device.
- the radio frequency unit 901 includes, but is not limited to, an antenna, at least one amplifier, a transceiver, a coupler, a low noise amplifier, a duplexer, and the like.
- Memory 909 may be used to store software programs or instructions as well as various data.
- the memory 909 may mainly include a storage program or instruction area and a storage data area, wherein the stored program or instruction area may store an operating system, an application program or instruction required for at least one function (such as a sound playback function, an image playback function, etc.) and the like.
- the memory 909 may include a high-speed random access memory, and may also include a non-volatile memory, wherein the non-volatile memory may be a read-only memory (Read-Only Memory, ROM), a programmable read-only memory (Programmable ROM) , PROM), erasable programmable read-only memory (Erasable PROM, EPROM), electrically erasable programmable read-only memory (Electrically EPROM, EEPROM) or flash memory.
- ROM Read-Only Memory
- PROM programmable read-only memory
- PROM erasable programmable read-only memory
- Erasable PROM Erasable PROM
- EPROM electrically erasable programmable read-only memory
- EEPROM electrically erasable programmable read-only memory
- flash memory for example at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device.
- the processor 910 may include one or more processing units; optionally, the processor 910 may integrate an application processor and a modem processor, wherein the application processor mainly processes the operating system, user interface, application programs or instructions, etc., Modem processors mainly deal with wireless communications, such as baseband processors. It can be understood that, the above-mentioned modulation and demodulation processor may not be integrated into the processor 910.
- the processor 910 is configured to trigger the terminal to enter the first state when the first condition is satisfied or a network indication is received;
- the power consumption when the terminal is in the first state is less than the power consumption when the terminal is in a connected state, an idle state or an inactive state;
- the first condition is determined according to a protocol agreement, or the first condition is determined according to a network side configuration.
- a first behavior is performed, and the first behavior includes at least one of the following:
- the first state belongs to at least one of the following:
- connection of the terminal on the core network side manages the CM state.
- the first state when the first state belongs to the RRC state, the first state is mapped to the CM idle state;
- the first state belongs to the CM state
- the first state is mapped to the RRC idle state
- the first state on the radio access network side is mapped to the first state on the core network side.
- the first state when the first state belongs to the RRC state, the first state is an RRC state other than the first RRC state, or the first state is a sub-state of the RRC idle state;
- the first RRC state includes an RRC idle state, an RRC inactive state, and an RRC connected state.
- the first state is an RRC state other than the first RRC state
- the first state and the first RRC state can be converted to each other
- the first state is a sub-state of the RRC idle state
- the first state and the RRC idle state can be converted to each other
- the first state is a sub-state of the RRC idle state
- the first state and the first RRC state cannot be directly converted.
- the terminal when the first state is an RRC state other than the first RRC state, the terminal performs at least one of the following:
- Some or all of the RAN configuration information in the RRC idle state is invalid
- the terminal when the first state is a sub-state of the RRC idle state, the terminal performs at least one of the following:
- the configuration information in the idle state includes at least one of access network configuration information and core network configuration information.
- the configuration information of the terminal in the idle state is partially or completely invalid
- the configuration information of the terminal in the idle state includes at least one of access network configuration information and core network configuration information.
- the first state on the radio access network side is an RRC state other than the first RRC state
- the core network The first state of the side is a core network state other than the first core network state
- the first RRC state includes an RRC idle state, an RRC inactive state, and an RRC connected state
- the first core network state includes a CM idle state and a CM connected state
- the first state when the first state belongs to the CM state, the first state is a core network state other than the first core network state;
- the first core network state includes a connected CM idle state and a CM connected state.
- the first state and the first core network state can be converted to each other.
- the terminal when the first state belongs to the CM state, the terminal performs at least one of the following:
- the RAN configuration information maintained in the RRC idle state continues to take effect;
- the configuration information maintained on the RAN side continues to take effect;
- Part or all of the configuration information on the core network side in the idle state of the CM is invalid.
- the processor 910 is further configured to:
- the first configuration information includes at least one of the following:
- the second configuration information includes at least one of the following:
- the NAS-related configuration information includes at least one of the following:
- the power consumption of the terminal when the terminal is in the first state is smaller than the power consumption of the terminal when the terminal is in the connected state, idle state, or inactive state, when the first condition is satisfied or the network indication is received In the first state, after the terminal enters the first state, it is beneficial for the terminal to further save power, thereby achieving the purpose of reducing the power consumption of the terminal.
- the embodiments of the present application further provide a readable storage medium, where a program or an instruction is stored on the readable storage medium, and when the program or instruction is executed by a processor, each process of the above-mentioned embodiment of the control method for a terminal state is implemented, and can To achieve the same technical effect, in order to avoid repetition, details are not repeated here.
- the processor is the processor in the terminal described in the foregoing embodiment.
- the readable storage medium includes a computer-readable storage medium, such as a computer read-only memory (Read-Only Memory, ROM), a random access memory (Random Access Memory, RAM), a magnetic disk or an optical disk, and the like.
- An embodiment of the present application further provides a chip, where the chip includes a processor and a communication interface, the communication interface is coupled to the processor, and the processor is used to run a program or an instruction to implement the above-mentioned control method for a terminal state In order to avoid repetition, the details are not repeated here.
- the chip mentioned in the embodiments of the present application may also be referred to as a system-on-chip, a system-on-chip, a system-on-chip, or a system-on-a-chip, or the like.
- An embodiment of the present application further provides a computer program product, where the computer program product is stored in a non-volatile storage medium, and the computer program product is executed by at least one processor to implement the above-mentioned embodiment of the terminal state control method
- Each process can achieve the same technical effect. In order to avoid repetition, it will not be repeated here.
- the disclosed apparatus and method may be implemented in other manners.
- the apparatus embodiments described above are only illustrative.
- the division of the units is only a logical function division. In actual implementation, there may be other division methods.
- multiple units or components may be combined or Can be integrated into another system, or some features can be ignored, or not implemented.
- the shown or discussed mutual coupling or direct coupling or communication connection may be through some interfaces, indirect coupling or communication connection of devices or units, and may be in electrical, mechanical or other forms.
- the units described as separate components may or may not be physically separated, and components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution in this embodiment.
- each functional unit in each embodiment of the present application may be integrated into one processing unit, or each unit may exist physically alone, or two or more units may be integrated into one unit.
- the functions, if implemented in the form of software functional units and sold or used as independent products, may be stored in a computer-readable storage medium.
- the technical solution of the present application can be embodied in the form of a software product in essence, or the part that contributes to the related technology or the part of the technical solution.
- the computer software product is stored in a storage medium, including several
- the instructions are used to cause a computer device (which may be a personal computer, a server, or a network device, etc.) to execute all or part of the steps of the methods described in the various embodiments of the present application.
- the aforementioned storage medium includes: a U disk, a removable hard disk, a ROM, a RAM, a magnetic disk, or an optical disk and other mediums that can store program codes.
- the realization of all or part of the processes in the methods of the above embodiments can be accomplished by controlling the relevant hardware through a computer program, and the program can be stored in a computer-readable storage medium. During execution, the processes of the embodiments of the above-mentioned methods may be included.
- the storage medium may be a magnetic disk, an optical disk, a ROM or a RAM, and the like.
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Abstract
Description
Claims (33)
- 一种终端状态的控制方法,包括:在满足第一条件或接收到网络指示的情况下,触发终端进入第一状态;其中,所述终端处于所述第一状态时的功耗小于所述终端处于连接态、空闲态或非激活态时的功耗;所述第一条件是根据协议约定确定的,或者,所述第一条件是根据网络侧配置确定的。
- 根据权利要求1所述的方法,其中,所述终端处于所述第一状态时执行第一行为,所述第一行为包括以下至少一项:关闭射频模块;关闭基带模块;关闭调制解调器对应的功能模块;不接收参考信号;不接收系统信息;不监听物理下行控制信道;不接收寻呼消息;不进行无线资源管理测量。
- 根据权利要求1所述的方法,其中,所述第一状态属于以下至少一项:所述终端在无线接入网侧的无线资源控制RRC状态;所述终端在核心网侧的连接管理CM状态。
- 根据权利要求3所述的方法,其中,在所述第一状态属于所述RRC状态的情况下,所述第一状态映射到CM空闲态;或者,在所述第一状态属于所述CM状态的情况下,所述第一状态映射到RRC空闲态;或者,在所述第一状态属于所述RRC状态和所述CM状态情况下,所述 无线接入网侧的第一状态映射到所述核心网侧的第一状态。
- 根据权利要求3所述的方法,其中,在所述第一状态属于RRC状态的情况下,所述第一状态为除第一RRC状态之外的RRC状态,或者,所述第一状态为RRC空闲态的子状态;其中,所述第一RRC状态包括RRC空闲态、RRC非激活态和RRC连接态。
- 根据权利要求5所述的方法,其中,在所述第一状态为除第一RRC状态之外的RRC状态的情况下,所述第一状态与所述第一RRC状态之间能够相互转换;或者,在所述第一状态为RRC空闲态的子状态的情况下,所述第一状态与所述RRC空闲态之间能够相互转换;或者,在所述第一状态为RRC空闲态的子状态的情况下,所述第一状态与所述第一RRC状态之间不能够直接转换。
- 根据权利要求5所述的方法,其中,在所述第一状态为除第一RRC状态之外的RRC状态的情况下,所述终端执行以下至少一项:在RRC空闲态的部分或者全部RAN配置信息失效;维持在CM空闲态的部分或全部核心网配置信息继续生效;维持在核心网的注册信息不变。
- 根据权利要求5所述的方法,其中,在所述第一状态为RRC空闲态的子状态的情况下,所述终端执行以下至少一项:维持在空闲态的配置信息继续生效;维持在核心网的注册信息不变;其中,所述空闲态的配置信息包括接入网配置信息和核心网配置信息中的至少一项。
- 根据权利要求3所述的方法,其中,在所述第一状态属于所述RRC状态和所述CM状态情况下,所述终端在空闲态的配置信息部分失效或者全部失效;其中,所述终端在空闲态的配置信息包括接入网配置信息和核心网配置信息中的至少一项。
- 根据权利要求9所述的方法,其中,在所述第一状态属于所述RRC状态和所述CM状态情况下,所述无线接入网侧的第一状态为除第一RRC状态之外的RRC状态,所述核心网侧的第一状态为除第一核心网状态之外的核心网状态;其中,所述第一RRC状态包括RRC空闲态、RRC非激活态和RRC连接态,所述第一核心网状态包括CM空闲态和CM连接态。
- 根据权利要求3所述的方法,其中,在所述第一状态属于CM状态的情况下,所述第一状态为除第一核心网状态之外的核心网状态;所述第一核心网状态包括连CM空闲态和CM连接态。
- 根据权利要求11所述的方法,其中,所述第一状态与所述第一核心网状态之间能够相互转换。
- 根据权利要求3所述的方法,其中,在所述第一状态属于CM状态的情况下,所述终端执行以下至少一项:维持在RRC空闲态的RAN配置信息继续生效;维持在RAN侧的配置信息继续生效;在CM空闲态的核心网侧配置信息部分或全部失效。
- 根据权利要求1所述的方法,其中,还包括:在所述终端是从RRC连接态转换到所述第一状态的情况下,释放部分或者全部RRC配置信息;或者,在所述终端是从RRC非激活态转换到所述第一状态的情况下,释放第一配置信息;或者,在所述终端是从RRC空闲态转换到所述第一状态的情况下,释放第二配置信息;或者,在所述终端是从RRC连接态、RRC非激活态或RRC空闲态转换到所述第一状态的情况下,释放部分或者全部非接入层NAS相关配置信息;其中,所述第一配置信息包括以下至少一项:部分或全部RRC配置信息;部分或全部系统消息;所述第二配置信息包括以下至少一项:部分或全部在空闲态生效的RRC配置信息;部分或全部系统消息;所述NAS相关配置信息包括以下至少一项:注册信息;非连续接收DRX配置信息;跟踪区TA相关配置信息。
- 一种终端状态的控制装置,包括:第一处理模块,用于在满足第一条件或接收到网络指示的情况下,触发终端进入第一状态;其中,所述终端处于所述第一状态时的功耗小于所述终端处于连接态、空闲态或非激活态时的功耗;所述第一条件是根据协议约定确定的,或者,所述第一条件是根据网络侧配置确定的。
- 根据权利要求15所述的装置,其中,所述终端处于所述第一状态时执行第一行为,所述第一行为包括以下至少一项:关闭射频模块;关闭基带模块;关闭调制解调器对应的功能模块;不接收参考信号;不接收系统信息;不监听物理下行控制信道;不接收寻呼消息;不进行无线资源管理测量。
- 根据权利要求15所述的装置,其中,所述第一状态属于以下至少一项:所述终端在无线接入网侧的无线资源控制RRC状态;所述终端在核心网侧的连接管理CM状态。
- 根据权利要求17所述的装置,其中,在所述第一状态属于所述RRC状态的情况下,所述第一状态映射到CM空闲态;或者,在所述第一状态属于所述CM状态的情况下,所述第一状态映射到RRC空闲态;或者,在所述第一状态属于所述RRC状态和所述CM状态情况下,所述无线接入网侧的第一状态映射到所述核心网侧的第一状态。
- 根据权利要求17所述的装置,其中,在所述第一状态属于RRC状态的情况下,所述第一状态为除第一RRC状态之外的RRC状态,或者,所述第一状态为RRC空闲态的子状态;其中,所述第一RRC状态包括RRC空闲态、RRC非激活态和RRC连接态。
- 根据权利要求19所述的装置,其中,在所述第一状态为除第一RRC状态之外的RRC状态的情况下,所述第一状态与所述第一RRC状态之间能够相互转换;或者,在所述第一状态为RRC空闲态的子状态的情况下,所述第一状态与所述RRC空闲态之间能够相互转换;或者,在所述第一状态为RRC空闲态的子状态的情况下,所述第一状态与所述第一RRC状态之间不能够直接转换。
- 根据权利要求19所述的装置,其中,在所述第一状态为除第一RRC状态之外的RRC状态的情况下,所述终端执行以下至少一项:在RRC空闲态的部分或者全部RAN配置信息失效;维持在CM空闲态的部分或全部核心网配置信息继续生效;维持在核心网的注册信息不变。
- 根据权利要求19所述的装置,其中,在所述第一状态为RRC空闲态的子状态的情况下,所述终端执行以下至少一项:维持在空闲态的配置信息继续生效;维持在核心网的注册信息不变;其中,所述空闲态的配置信息包括接入网配置信息和核心网配置信息中的至少一项。
- 根据权利要求17所述的装置,其中,在所述第一状态属于所述RRC状态和所述CM状态情况下,所述终端在空闲态的配置信息部分失效或者全部失效;其中,所述终端在空闲态的配置信息包括接入网配置信息和核心网配置信息中的至少一项。
- 根据权利要求23所述的装置,其中,在所述第一状态属于所述RRC状态和所述CM状态情况下,所述无线接入网侧的第一状态为除第一RRC状态之外的RRC状态,所述核心网侧的第一状态为除第一核心网状态之外的核心网状态;其中,所述第一RRC状态包括RRC空闲态、RRC非激活态和RRC连接态,所述第一核心网状态包括CM空闲态和CM连接态。
- 根据权利要求17所述的装置,其中,在所述第一状态属于CM状态的情况下,所述第一状态为除第一核心网状态之外的核心网状态;所述第一核心网状态包括连CM空闲态和CM连接态。
- 根据权利要求25所述的装置,其中,所述第一状态与所述第一核心网状态之间能够相互转换。
- 根据权利要求17所述的装置,其中,在所述第一状态属于CM状态的情况下,所述终端执行以下至少一项:维持在RRC空闲态的RAN配置信息继续生效;维持在RAN侧的配置信息继续生效;在CM空闲态的核心网侧配置信息部分或全部失效。
- 根据权利要求15所述的装置,其中,还包括:第二处理模块,用于在所述终端是从RRC连接态转换到所述第一状态的情况下,释放部分或者全部RRC配置信息;或者,在所述终端是从RRC非激活态转换到所述第一状态的情况下,释放第一配置信息;或者,在所述终端是从RRC空闲态转换到所述第一状态的情况下,释放第二配置信息;或者,在所述终端是从RRC连接态、RRC非激活态或RRC空闲态转换到所述第一状态的情况下,释放部分或者全部非接入层NAS相关配置信息;其中,所述第一配置信息包括以下至少一项:部分或全部RRC配置信息;部分或全部系统消息;所述第二配置信息包括以下至少一项:部分或全部在空闲态生效的RRC配置信息;部分或全部系统消息;所述NAS相关配置信息包括以下至少一项:注册信息;非连续接收DRX配置信息;跟踪区TA相关配置信息。
- 一种终端,其中,包括处理器、存储器及存储在所述存储器上并可在所述处理器上运行的程序或指令,所述程序或指令被所述处理器执行时实现如权利要求1至14任一项所述的终端状态的控制方法的步骤。
- 一种可读存储介质,所述可读存储介质上存储程序或指令,其中,所述程序或指令被处理器执行时实现如权利要求1至14任一项所述的终端状态的控制方法的步骤。
- 一种芯片,包括处理器和通信接口,其中,所述通信接口和所述处理器耦合,所述处理器用于运行程序或指令,实现如权利要求1至14任一项 所述的终端状态的控制方法的步骤。
- 一种计算机程序产品,其中,所述计算机程序产品被存储在非易失的存储介质中,所述计算机程序产品被至少一个处理器执行以实现如权利要求1至14任一项所述的终端状态的控制方法的步骤。
- 一种终端,被配置为执行如权利要求1至14任一项所述的终端状态的控制方法的步骤。
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