WO2022056748A1 - 信息通知方法、信息接收方法、装置、设备及存储介质 - Google Patents
信息通知方法、信息接收方法、装置、设备及存储介质 Download PDFInfo
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- WO2022056748A1 WO2022056748A1 PCT/CN2020/115704 CN2020115704W WO2022056748A1 WO 2022056748 A1 WO2022056748 A1 WO 2022056748A1 CN 2020115704 W CN2020115704 W CN 2020115704W WO 2022056748 A1 WO2022056748 A1 WO 2022056748A1
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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
- H04W68/02—Arrangements for increasing efficiency of notification or paging channel
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0091—Signaling for the administration of the divided path
- H04L5/0096—Indication of changes in allocation
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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
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0048—Allocation of pilot signals, i.e. of signals known to the receiver
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0048—Allocation of pilot signals, i.e. of signals known to the receiver
- H04L5/0051—Allocation of pilot signals, i.e. of signals known to the receiver of dedicated pilots, i.e. pilots destined for a single user or terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
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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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- 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 field of communication technologies, and in particular, to an information notification method, an information receiving method, an apparatus, a device, and a storage medium.
- a reference signal is configured by a network device to a terminal in a connected state.
- Embodiments of the present disclosure provide an information notification method, an information receiving method, an apparatus, a device, and a storage medium.
- a network device sends notification information, and a first terminal correspondingly learns whether a reference signal is sent by receiving the notification information.
- the technical solution is as follows:
- an information notification method is provided, applied to a network device, the method includes:
- the notification information is used to notify a change in the sending state of the reference signal, or, is used to notify the sending state of the reference signal;
- the first terminal is in an idle state or an inactive state, the first terminal shares the reference signal of the second terminal, and the second terminal is at least one terminal in a connected state.
- a method for receiving information is provided, which is applied to a first terminal in an idle state or an inactive state, where the first terminal shares a reference signal of a second terminal, and the second terminal is in an idle state or inactive state. At least one terminal in a connected state, the method includes:
- Notification information is received, where the notification information is used to notify a change in the transmission state of the reference signal, or is used to notify the transmission state of the reference signal.
- an information receiving apparatus which is applied to a first terminal in an idle state or an inactive state, where the first terminal shares a reference signal of a second terminal, and the second terminal is in an idle state or inactive state.
- the apparatus includes: a receiving module;
- the receiving module is configured to receive notification information, where the notification information is used to notify a change of the transmission state of the reference signal, or, to notify the transmission state of the reference signal.
- an information notification apparatus which is applied to a network device, the apparatus comprising: a sending module;
- the sending module is configured to send notification information to the first terminal, where the notification information is used to notify the change of the sending state of the reference signal, or, is used to notify the sending state of the reference signal;
- the first terminal is in an idle state or an inactive state, the first terminal shares the reference signal of the second terminal, and the second terminal is at least one terminal in a connected state.
- a first terminal comprising: a processor; a transceiver connected to the processor; a memory for storing executable instructions of the processor; wherein , the processor is configured to load and execute the executable instructions to implement the information receiving method described in the above aspects.
- a network device comprising: a processor; a transceiver connected to the processor; a memory for storing executable instructions of the processor; wherein the The processor is configured to load and execute the executable instructions to implement the information notification method as described in the above aspects.
- a chip includes a programmable logic circuit and/or program instructions, and is used to implement the above-mentioned information receiving method or information notifying method when the chip is running.
- a computer-readable storage medium having executable instructions stored therein, the executable instructions being loaded and executed by a processor to implement the information described in the above aspects Receive method or information notification method.
- a computer program comprising computer instructions stored in a computer-readable storage medium.
- the processor of the computer device reads the computer instruction from the computer-readable storage medium, and the processor executes the computer instruction, so that the computer device executes the information receiving method or the information notifying method provided in the above aspects.
- the first terminal in the idle state or the inactive state shares the reference signal of the second terminal in the connected state, and the network device sends notification information. state, the first terminal correspondingly learns whether the reference signal is sent by receiving the notification information, thereby improving the accuracy of information exchange in the communication system.
- FIG. 1 is a block diagram of a communication system provided by an exemplary embodiment of the present disclosure
- FIG. 2 is a flowchart of an information receiving method provided by an exemplary embodiment of the present disclosure
- FIG. 3 is a flowchart of a method for receiving information provided by an exemplary embodiment of the present disclosure
- FIG. 4 is a block diagram of an information receiving apparatus provided by an exemplary embodiment of the present disclosure.
- FIG. 5 is a block diagram of an information notification apparatus provided by an exemplary embodiment of the present disclosure.
- FIG. 6 is a block diagram of a communication device provided by an exemplary embodiment of the present disclosure.
- RRC Radio Resource Control
- a terminal in a communication system can be in any one of three RRC states. Below, the three RRC states are briefly introduced.
- RRC_IDLE state mobility is based on terminal-based cell selection and reselection, paging is initiated by the core network (CN), and the paging area is configured by the CN. There is no UE access context on the network device side. There is no RRC connection.
- RRC_CONNECTED state (ie connected state): there is an RRC connection, and the network device and the terminal have a UE access context.
- the network device side knows that the location of the terminal is at the specific cell level. Mobility is the mobility controlled on the network device side. Unicast data can be transmitted between terminals and network devices.
- RRC_INACTIVE state (ie inactive state): A new RRC state is defined in the 5G network environment for the purpose of reducing air interface signaling, quickly restoring wireless connections, and quickly restoring data services.
- Mobility is terminal-based cell selection and reselection, there is a connection between CN-NR, UE access context exists on a certain network device, paging is triggered by Radio Access Network (RAN), RAN-based The paging area is managed by the RAN, and the network equipment side knows the location of the terminal based on the paging area level of the RAN.
- RAN Radio Access Network
- the first terminal targeted in the embodiments of the present disclosure is a terminal in an idle state or an inactive state.
- the synchronization behavior of the first terminal in the idle state or the inactive state can be divided into two cases:
- the first terminal In the case of good cell channel quality, the first terminal only needs to wake up before the synchronization signal block (Synchronization Signal Block, SSB) closest to the paging occasion (Paging Occasion, PO), and pass a synchronization signal of an SSB. (such as primary synchronization signal, secondary synchronization signal) for time calibration, and then receive paging.
- SSB Synchronization Signal Block
- the first terminal may need to synchronize through multiple SSBs, the first terminal needs to wake up multiple SSBs in advance, and use the synchronization signals of multiple SSBs (such as primary synchronization signals, secondary synchronization signals, and secondary synchronization signals). signal) for time calibration, and then receive paging, resulting in increased power consumption.
- the synchronization signals of multiple SSBs such as primary synchronization signals, secondary synchronization signals, and secondary synchronization signals). signal
- a mechanism for repeatedly sending POs may be introduced, especially for terminals with enhanced characteristics, such as reduced capabilities (Reduced Capabilities, RedCap) terminals.
- the signal measurement of the cell is also required, and the reference signal received power (Reference Signal Received Power, RSRP) strength of the SSB of the cell is required to be measured for a certain number of times within a certain period of time.
- RSRP Reference Signal Received Power
- reference signals There are many kinds of reference signals in a communication system, which are usually also called pilots, and these reference signals have their own functions.
- the reference signal targeted by the embodiments of the present disclosure has functions such as time-frequency synchronization, automatic gain control (Automatic Gain Control, AGC) adjustment, and the like.
- the reference signals include, but are not limited to: a downlink state information reference signal (Channel State Information Reference Signal, CSI-RS) and a tracking reference signal (Tracking Reference Signal, TRS).
- CSI-RS Downlink State Information Reference Signal
- TRS Track Reference Signal
- CSI-RS is a channel state reference signal introduced earlier in communication standards and can be used for channel demodulation.
- TRS is a special reference signal used for timing tracking introduced in New Radio (NR).
- a network device when a network device needs to page a terminal, it can send paging downlink control information (Paging Downlink Control Information, Paging DCI) on a physical downlink control channel (Physical Downlink Control Channel, PDCCH).
- Paging DCI paging Downlink Control Information
- PDCCH Physical Downlink Control Channel
- the terminal After the terminal detects the Paging DCI in the PDCCH channel, it can detect the paging message (Paging message) in the Physical Downlink Shared Channel (PDSCH), if the paging message includes the UE identity (identity, ID) of the terminal , it is determined that it is being paged; if the paging message does not include the UE identity of the terminal, it is determined that it is not being paged.
- FIG. 1 shows a block diagram of a communication system provided by an exemplary embodiment of the present disclosure.
- the communication system may include: an access network 12 , a first terminal 14 and a second terminal 16 .
- the access network 12 includes several network devices 120 .
- the network device 120 may be a base station, which is a device deployed in an access network to provide a wireless communication function for a terminal.
- the base station may include various forms of macro base station, micro base station, relay station, access point and so on.
- the names of devices with base station functions may be different.
- eNodeBs or eNBs In LTE systems, they are called eNodeBs or eNBs; in 5G NR-U systems, they are called gNodeBs or gNBs.
- the description of "base station” may change.
- the above-mentioned apparatuses for providing a wireless communication function for the first terminal 14 (or the second terminal 16 ) are collectively referred to as network devices.
- the first terminal 14 and the second terminal 16 may include various handheld devices, in-vehicle devices, wearable devices, computing devices, or other processing devices connected to wireless modems with wireless communication capabilities, as well as various forms of user equipment, mobile stations (Mobile Station, MS), terminal (terminal device) and so on.
- terminals For the convenience of description, the devices mentioned above are collectively referred to as terminals.
- the network device 120 and the first terminal 14 (or the second terminal 16) communicate with each other through some air interface technology, such as a Uu interface.
- the second terminal 16 is in a connected state, and the first terminal 14 is in an idle state or an inactive state.
- the second terminal 16 is at least one terminal in the connected state, and the network device 120 configures the reference signal to be used by the second terminal 16 in the connected state.
- the first terminal 14 in the idle state or the inactive state may also share the reference signal.
- GSM Global System of Mobile Communication
- CDMA Code Division Multiple Access
- CDMA wideband Code Division Multiple Access
- WCDMA Wideband Code Division Multiple Access
- GPRS General Packet Radio Service
- LTE Long Term Evolution
- FDD Frequency Division Duplex
- TDD Time Division Duplex
- LTE-A Advanced Long Term Evolution
- NR New Radio
- evolution systems of NR systems LTE on unlicensed frequency bands (LTE-based access to Unlicensed spectrum, LTE-U) system, NR-U system, Universal Mobile Telecommunication System (UMTS), Worldwide Interoperability for Microwave Access (WiMAX) communication system, Wireless Local Area Networks (WLAN), Wireless Fidelity (WiFi), next-generation communication systems or other communication systems, etc.
- D2D Device to Device
- M2M Machine to Machine
- MTC Machine Type Communication
- V2V Vehicle to Vehicle
- V2X Vehicle to Everything
- FIG. 2 shows a flowchart of an information receiving method provided by an exemplary embodiment of the present disclosure.
- the method can be applied to the first terminal and the network device shown in FIG. 1 , where the first terminal shares the reference signal of the second terminal, and the second terminal is a terminal in a connected state, and the method includes:
- step 210 the network device sends notification information, where the notification information is used to notify the change of the sending state of the reference signal, or is used to notify the sending state of the reference signal.
- the first terminal is a terminal in an idle state or an inactive state in the communication system. That is, the RRC state of the first terminal is the RRC_IDLE state or the RRC_INACTIVE state.
- a reference signal is a physical signal capable of performing a certain function in a communication system.
- the reference signals targeted by the embodiments of the present disclosure have functions such as time-frequency synchronization and AGC adjustment.
- Reference signals can generally be divided into: uplink reference signals and downlink reference signals.
- the uplink reference signal refers to the reference signal sent by the first terminal to the network device, and the downlink reference signal refers to the reference signal sent by the network device to the first terminal.
- the reference signal involved in the embodiments of the present disclosure is a downlink reference signal.
- the first terminal shares the reference signal of the second terminal, which means that the first terminal supports the use of the reference signal.
- the second terminal is a type of terminal in the connected state, and the reference signal is generally configured to the terminal in the connected state.
- the first terminal in the idle state or the inactive state shares the second terminal in the connected state
- the reference signal of the terminal can also be used as a reference signal.
- the network device has a certain degree of flexibility, and the transmission situation of the network device for the reference signal can be changed. For example, the network device may stop sending the reference signal after sending the reference signal for a period of time; or may restart sending the reference signal after stopping sending the reference signal.
- the network device supports sending notification information to the first terminal when the transmission situation for the reference signal changes.
- the notification information is used to notify a change in the transmission state of the reference signal, and the first terminal may determine that its own transmission state changes according to the notification information.
- the notification information is used to notify the sending state of the reference signal, for example, the sending state is that the network device sends the reference signal; the sending state is that the network device does not send the reference signal, and the first terminal can and the last transmission state to determine the change of the transmission state of the reference signal.
- Step 220 the first terminal receives the notification information.
- the network device sends notification information to the first terminal, and the first terminal receives the notification information accordingly, so as to know the change of whether the reference signal is sent or not.
- the first terminal determines whether it can use the reference signal in the future according to the content of the notification information.
- the first terminal receives the notification information and learns that the network device does not send the reference signal
- the first terminal will not be able to use the reference signal to perform time-frequency synchronization, AGC adjustment, and the like.
- the first terminal can use the reference signal to perform time-frequency synchronization, AGC adjustment, and the like.
- the first terminal in the idle state or the inactive state shares the reference signal of the second terminal in the connected state
- the network device sends notification information
- the notification information is used to notify the sending of the reference signal
- the state changes, or is used to notify the sending state of the reference signal
- the first terminal correspondingly learns the change of whether the reference signal is sent or not by receiving the notification information, so as to improve the accuracy of information exchange in the communication system.
- the transmission state change includes: stopping the transmission of the reference signal; or restarting the transmission of the reference signal.
- the network device stops sending the reference signal.
- the network device may send notification information to the first terminal, where the notification information is used to indicate a change in the sending state of the reference signal, and before the first terminal receives the notification information, the sending state of the reference signal is that the network device sends the reference signal, then the first terminal determines The transmission state change means that the network device stops transmitting the reference signal; or, the notification information notifies the transmission state of the reference signal is that the network device does not transmit the reference signal, and when the first terminal received the notification information last time, the notification information notifies that the transmission state of the reference signal is: When the network device sends the reference signal, the first terminal determines that the change in the sending state is that the network device stops sending the reference signal.
- the network device after the network device stops sending the reference signal, it starts sending the reference signal again.
- the network device sends notification information to the first terminal, where the notification information is used to indicate a change in the sending state of the reference signal, and before the first terminal receives the notification information, the sending state of the reference signal is that the network device does not send the reference signal, then the first terminal determines The transmission state change means that the network device restarts sending the reference signal; or, the notification information notifies the transmission state of the reference signal is that the network device transmits the reference signal, and when the first terminal receives the notification information last time, the notification information notifies the transmission state of the reference signal is: If the network device does not send the reference signal, the first terminal determines that the change in the sending state means that the network device restarts sending the reference signal.
- FIG. 3 shows a flowchart of an information receiving method provided by an exemplary embodiment of the present disclosure.
- the method can be applied to the first terminal and the network device shown in FIG. 1 .
- step 231 or step 232 is further included.
- the method includes:
- step 210 the network device sends notification information, where the notification information is used to notify the change of the sending state of the reference signal, or is used to notify the sending state of the reference signal.
- the first terminal shares the reference signal of the second terminal, the first terminal is a terminal in an idle state or an inactive state in the communication system, and the second terminal is a terminal in a connected state.
- Step 220 the first terminal receives the notification information.
- the first terminal receives notification information sent by the network device.
- Step 231 the first terminal determines the time-frequency synchronization behavior corresponding to the current or next paging occasion according to the notification information.
- the first terminal determines, according to the content of the notification information, the time-frequency synchronization behavior corresponding to the current or next paging occasion.
- the time-frequency synchronization behavior includes at least one of a time synchronization behavior and a frequency synchronization behavior.
- the paging occasion is a time period used by the first terminal to detect whether there is a paging message.
- the first terminal In order to monitor the paging occasion, the first terminal needs to perform time-frequency synchronization to ensure interaction with the network device at the correct time-frequency position.
- the first terminal may execute the time-frequency synchronization behavior corresponding to the paging occasion before the paging occasion; the first terminal may also execute the time-frequency synchronization behavior corresponding to the paging occasion during the process of the paging occasion. Synchronous behavior.
- the first terminal uses the SSB to perform time-frequency synchronization.
- the first terminal wakes up before the SSB closest to the paging occasion, and uses one SSB for time-frequency synchronization; in the case of poor cell channel quality (such as: A terminal is at the edge of a cell), the first terminal wakes up multiple SSBs in advance, and uses multiple SSBs for time-frequency synchronization.
- the first terminal when the reference signal is available, the first terminal can also use the reference signal to perform time-frequency synchronization without waking up multiple SSBs in advance, thereby reducing the power consumption of the terminal.
- step 231 includes: when it is determined according to the notification information that the network device does not send the reference signal, the first terminal determines to use the SSB to perform time-frequency synchronization at the current or next paging occasion.
- the first terminal Since the network device does not send the reference signal, the first terminal cannot use the reference signal for time-frequency synchronization for the current or next paging occasion, and the first terminal can only use the SSB for synchronization. It can be understood that, the first terminal may also use other signals other than the reference signal and the SSB to perform time-frequency synchronization, which is not limited in this embodiment of the present disclosure.
- step 231 includes: when it is determined according to the notification information that the network device sends the reference signal, the first terminal determines to use the SSB and the reference signal to perform time-frequency synchronization at the current or next paging occasion .
- the first terminal can use the reference signal to perform time-frequency synchronization for the current or next paging occasion.
- the first terminal performs time-frequency synchronization using the reference signal and the SSB. It can be understood that, the first terminal may also use other signals other than the reference signal and the SSB to perform time-frequency synchronization, which is not limited in this embodiment of the present disclosure.
- Step 232 the first terminal determines the time-frequency synchronization behavior corresponding to the current or next paging occasion according to the notification information and the cell channel quality of the first terminal.
- the first terminal After the first terminal determines that the reference signal is available according to the notification information, it will also determine the time-frequency synchronization behavior corresponding to the current or next paging occasion according to the cell channel quality of the first terminal.
- the time-frequency synchronization behavior includes at least one of a time synchronization behavior and a frequency synchronization behavior.
- step 232 includes: when it is determined according to the notification information that the network device does not send the reference signal, the first terminal determines to use the SSB to perform time-frequency synchronization at the current or next paging occasion.
- the first terminal Since the network device does not send the reference signal, the first terminal cannot use the reference signal for time-frequency synchronization for the current or next paging occasion, and the first terminal can only use the SSB for synchronization. It can be understood that, the first terminal may also use other signals other than the reference signal and the SSB to perform time-frequency synchronization, which is not limited in this embodiment of the present disclosure.
- step 232 includes: when it is determined according to the notification information that the network device sends the reference signal and the cell channel quality is not worse than the threshold, the first terminal determines to use the current or next paging occasion to use SSB performs time-frequency synchronization.
- step 232 includes: when it is determined according to the notification information that the network device sends a reference signal and the cell channel quality is worse than a threshold, the first terminal determines to use the SSB at the current or next paging occasion Time-frequency synchronization with the reference signal.
- the first terminal can use the reference signal to perform time-frequency synchronization for the current or next paging occasion.
- the first terminal will also judge the cell channel quality. In the case of poor cell channel quality, the first terminal will use the reference signal to perform time-frequency synchronization with the SSB; in the case of good cell channel quality, the first terminal Still only use SSB for time-frequency synchronization. Since the first terminal only needs to wake up one SSB in advance when the channel quality of the cell is good, and the power consumption of the first terminal is small, in this case, the first terminal can only use the SSB for time-frequency synchronization . It can be understood that, the first terminal may also use other signals other than the reference signal and the SSB to perform time-frequency synchronization, which is not limited in this embodiment of the present disclosure.
- the first terminal uses three SSBs to perform time-frequency synchronization for this or next paging occasion. .
- the first terminal uses one SSB and the reference signal to perform time-frequency communication for this or next paging occasion. Synchronize.
- the first terminal in the idle state or the inactive state shares the reference signal of the second terminal in the connected state
- the network device sends notification information
- the notification information is used to notify the sending of the reference signal
- the state changes, or is used to notify the sending state of the reference signal
- the first terminal correspondingly learns the change of whether the reference signal is sent or not by receiving the notification information, so as to improve the accuracy of information exchange in the communication system.
- the first terminal when the notification information instructs the network device to send the reference signal, the first terminal can use the reference signal to perform time-frequency synchronization, so that it does not need to receive multiple SSBs, and only performs time-frequency synchronization according to the SSB, reducing the first terminal power consumption of the terminal.
- the notification information may be indicated by different messages or signals.
- the embodiments of the present disclosure provide at least the following four solutions:
- the network device sends the paging DCI to the first terminal, and the indication bits in the paging DCI are used to indicate the sending state of the reference signal.
- the first terminal receives the paging DCI, and the indication bits in the paging DCI are used to indicate the sending state of the reference signal.
- the indication bits include n bits, where n is an integer not less than 1.
- the indication bits include 1 bit.
- the indication bit position is "1", indicating that the sending status of the reference signal is that the network device sends the reference signal; the indicating bit position is "0", indicating that the sending status of the reference signal is that the network device does not send the reference signal.
- the indication bit position is "0”, indicating that the sending status of the reference signal is that the network device sends the reference signal; the indicating bit position is "1”, indicating that the sending status of the reference signal is that the network device does not send the reference signal.
- the indication bit is a reserved bit in the paging DCI, and the reserved bit is a bit for which no other information is defined in the paging DCI.
- the indication bit is a newly added bit in the paging DCI, and the newly added bit is a newly added bit compared to the bit in the existing paging DCI.
- the indication bit is a custom bit in the paging DCI, and the custom bit is a bit after redefining the bits in the paging DCI that have been defined with other information.
- Table 1 shows the short message information field in the paging DCI:
- the Short Messages (Short Messages) information field corresponds to 8 bits: 1 is the system information update bit, if the bit is set to 1, it is used to indicate the addition of the System Information Block (SIB) 6, SIB7 Modification of Broadcast Control Channel (BCCH) other than SIB8; 2 is the system information update bit, if the bit is set to 1, it is used to indicate an earthquake and tsunami warning system master notification; and/or an earthquake and tsunami warning system Secondary notification; and/or a commercial mobile alert service notification; 3-8 are reserved bits.
- the indication bit can be one or more bits (that is, reserved bits) among bits 3-8, or one or more bits among bits 1-2. bits (ie custom bits).
- the first terminal when the indication bit in the paging DCI is used to indicate the sending state of the reference signal, the first terminal will also receive a paging message corresponding to the paging DCI, and the paging message carries the UE identifier.
- the UE identity is the identity information corresponding to the terminal being paged.
- the first terminal if the UE identifier carried in the paging message includes the UE identifier of the first terminal, the first terminal will initiate an RRC connection; if the UE identifier carried in the paging message does not include the UE identifier of the first terminal, then the first terminal will initiate an RRC connection. The first terminal will continue to sleep.
- the first terminal when the indication bit in the paging DCI is used to indicate the sending state of the reference signal, the first terminal will determine the time-frequency synchronization behavior corresponding to the current or next paging occasion according to the notification information.
- the indication bit in the paging DCI instructs the network device to send the reference signal, and the moment when the first terminal receives the paging DCI is T0, the moment when the first terminal receives the paging message corresponding to the paging DCI is T1, T0 and T1 If there is an available reference signal, the first terminal uses the SSB and the reference signal to perform time-frequency synchronization for this paging occasion.
- the indication bit in the paging DCI instructs the network device to send the reference signal, and the moment when the first terminal receives the paging DCI is T0, the moment when the first terminal receives the paging message corresponding to the paging DCI is T1, T0 and T1 If there is no available reference signal, the first terminal uses the SSB and the reference signal to perform time-frequency synchronization for the next paging occasion.
- Solution 2 The network device sends a first paging message carrying indication information to the first terminal; or, sends a second paging message that does not carry indication information to the first terminal; wherein the first paging message is used to indicate The first transmission state of the reference signal, and the second paging message is used to indicate the second transmission state of the reference signal.
- the first terminal receives the first paging message that carries the indication information; or, receives the second paging message that does not carry the indication information; wherein the first paging message is used to indicate the first sending state of the reference signal,
- the second paging message is used to indicate the second transmission state of the reference signal.
- the indication information is the information originally used to indicate the content irrelevant to the transmission state of the reference signal in the paging message.
- the indication information includes: UE identity.
- the UE identity is the identity information corresponding to the terminal being paged.
- the first sending state refers to: the network device sends the reference signal; the second sending state refers to: the network device does not send the reference signal.
- the first sending state refers to: the network device does not send the reference signal; the second sending state refers to: the network device sends the reference signal.
- the first terminal when the network device sends the first paging message or the second paging message to the first terminal to indicate the sending state of the reference signal, the first terminal will determine the next paging opportunity according to the notification information. Corresponding time-frequency synchronization behavior.
- Solution 3 The network device sends a third paging message that does not carry the indication information to the first terminal, where the third paging message is used to indicate a change in the sending state of the reference signal.
- the first terminal receives the third paging message that does not carry the indication information, and the third paging message is used to indicate the change of the sending state of the reference signal.
- the indication information is the information originally used to indicate the content irrelevant to the transmission state of the reference signal in the paging message.
- the indication information includes: UE identity.
- the UE identity is the identity information corresponding to the terminal being paged.
- the paging message In the case that the paging message carries the indication information, it means that the transmission of the reference signal by the network device has not changed; in the case that the paging message does not carry the indication information, it means that the transmission of the reference signal by the network device has occurred. changes, for example, the network device stops sending the reference signal, or the network device restarts sending the reference signal.
- the first terminal when the third paging message that does not carry the indication information is used to indicate a change in the sending state of the reference signal, the first terminal will determine the time-frequency synchronization behavior corresponding to the next paging occasion according to the notification information.
- Solution 4 The network device sends the supplementary reference signal to the first terminal, the information in the supplementary reference signal is used to indicate the sending state of the reference signal, and the supplementary reference signal is a signal different from the reference signal.
- the first terminal receives the supplementary reference signal
- the information in the supplementary reference signal is used to indicate the transmission state of the reference signal
- the supplementary reference signal is a signal different from the reference signal.
- the information in the supplementary reference signal includes but is not limited to: codeword characteristics of the supplementary reference signal.
- codeword characteristics of the supplementary reference signal when the codeword feature of the supplementary reference signal is the first feature, it indicates that the sending state of the reference signal is that the network device sends the reference signal; when the codeword feature of the supplementary reference signal is the second feature, it indicates that the reference signal is sent. The state is that the network device does not send reference signals.
- the first terminal when the information in the supplementary reference signal is used to indicate the sending state of the reference signal, the first terminal will determine the time-frequency synchronization behavior corresponding to the next paging occasion according to the notification information.
- the first terminal in the idle state or the inactive state shares the reference signal of the second terminal in the connected state
- the network device sends notification information
- the notification information is used to notify the sending of the reference signal
- the state changes, or is used to notify the sending state of the reference signal
- the first terminal correspondingly learns the change of whether the reference signal is sent or not by receiving the notification information, so as to improve the accuracy of information exchange in the communication system.
- the network device can notify the first terminal of a change in the transmission state of the reference signal by sending any one of paging DCI, paging message, and supplementary reference signal, or notify the first terminal of the transmission state of the reference signal , which improves the flexibility of how notification information is implemented.
- the reference signal includes, but is not limited to, at least one of CSI-RS and TRS.
- the steps performed by the first terminal can be independently implemented as the information receiving method on the first terminal side
- the steps performed by the network device can be implemented independently as the information notification method on the network device side.
- Fig. 4 shows a block diagram of an information receiving apparatus provided by an exemplary embodiment of the present disclosure, the apparatus is applied to a first terminal in an idle state or an inactive state, the first terminal shares the reference signal of the second terminal, and the second terminal
- the terminal is at least one terminal in a connected state, and the apparatus includes: a receiving module 401;
- the receiving module 401 is configured to receive notification information, where the notification information is used to notify the change of the sending state of the reference signal, or, is used to notify the sending state of the reference signal.
- the sending state change includes: stopping sending the reference signal.
- the transmission state change includes: restarting transmission of the reference signal.
- the apparatus further includes a determination module 402, the determination module 402 is configured to determine, according to the notification information, the time-frequency synchronization behavior corresponding to the current or next paging occasion; or, the determination module 402, configured to The time-frequency synchronization behavior corresponding to the current or next paging occasion is determined according to the notification information and the cell channel quality of the first terminal.
- the determining module 402 is configured to determine to use the SSB to perform time-frequency synchronization at the current or next paging occasion when it is determined according to the notification information that the network device does not send the reference signal; the determining module 402 is used to determine that the SSB and the reference signal are used for time-frequency synchronization at the current or next paging occasion when it is determined according to the notification information that the network device sends the reference signal; wherein, the time-frequency synchronization includes: time synchronization and frequency synchronization at least one of.
- the determining module 402 is configured to determine to use the SSB to perform time-frequency synchronization at the current or next paging occasion when it is determined according to the notification information that the network device does not send the reference signal; the determining module 402 , for determining the use of SSB to perform time-frequency synchronization at this or next paging occasion when it is determined according to the notification information that the network device sends a reference signal and the cell channel quality is not worse than the threshold;
- the notification information determines that when the network device sends the reference signal and the cell channel quality is worse than the threshold, it is determined to use the SSB and the reference signal to perform time-frequency synchronization at the current or next paging occasion; wherein, the time-frequency synchronization includes: time synchronization and frequency synchronization At least one of synchronization.
- the receiving module 401 is configured to receive paging DCI, and the indication bits in the paging DCI are used to indicate the sending state of the reference signal.
- the receiving module 401 is configured to receive a paging message corresponding to the paging DCI, where the paging message carries the UE identifier.
- the indication bits include n bits, where n is an integer not less than 1.
- the indication bits are reserved bits in paging DCI; or, the indication bits are self-defined bits in paging DCI.
- the receiving module 401 is configured to receive a first paging message that carries indication information; or, receive a second paging message that does not carry indication information; wherein, the first paging message uses In order to indicate the first transmission state of the reference signal, the second paging message is used to indicate the second transmission state of the reference signal.
- the receiving module 401 is configured to receive a third paging message that does not carry indication information, and the third paging message is used to indicate a change in the sending state of the reference signal.
- the indication information includes: a UE identity.
- the receiving module 401 is configured to receive the supplementary reference signal, the information in the supplementary reference signal is used to indicate the transmission status of the reference signal, and the supplementary reference signal is a signal different from the reference signal.
- the reference signal includes: at least one of CSI-RS and TRS.
- FIG. 5 shows a block diagram of an information notification apparatus provided by an exemplary embodiment of the present disclosure, the apparatus includes: a sending module 501;
- a sending module 501 configured to send notification information to the first terminal, where the notification information is used to notify a change in the sending state of the reference signal, or, is used to notify the sending state of the reference signal;
- the first terminal is in an idle state or an inactive state, the first terminal shares a reference signal of the second terminal, and the second terminal is at least one terminal in a connected state.
- the sending state change includes: stopping sending the reference signal.
- the transmission state change includes: restarting transmission of the reference signal.
- the sending module 501 is configured to send paging DCI to the first terminal, and the indication bits in the paging DCI are used to indicate the sending state of the reference signal.
- the sending module 501 is configured to send a paging message corresponding to the paging DCI, where the paging message carries the UE identifier.
- the indication bits include n bits, where n is an integer not less than 1.
- the indication bits are reserved bits in paging DCI; or, the indication bits are self-defined bits in paging DCI.
- the sending module 501 is configured to send the first paging message carrying the indication information to the first terminal; or, the sending module 501 is used to send the first paging message that does not carry the indication information to the first terminal The second paging message; wherein, the first paging message is used to indicate the first transmission state of the reference signal, and the second paging message is used to indicate the second transmission state of the reference signal.
- the sending module 501 is configured to send a third paging message that does not carry the indication information to the first terminal, where the third paging message is used to indicate a change in the sending state of the reference signal.
- the indication information includes: a UE identity.
- the sending module 501 is configured to send the supplementary reference signal to the first terminal, the information in the supplementary reference signal is used to indicate the sending state of the reference signal, and the supplementary reference signal is a signal different from the reference signal.
- the reference signal includes: at least one of CSI-RS and TRS.
- FIG. 6 shows a schematic structural diagram of a communication device (a first terminal or a network device) provided by an exemplary embodiment of the present disclosure.
- the terminal includes a processor 101 , a receiver 102 , a transmitter 103 , a memory 104 and a bus 105 .
- the processor 101 includes one or more processing cores, and the processor 101 executes various functional applications and information processing by running software programs and modules.
- the receiver 102 and the transmitter 103 may be implemented as a communication component, which may be a communication chip.
- the memory 104 is connected to the processor 101 through the bus 105 .
- the memory 104 may be configured to store at least one instruction, and the processor 101 may be configured to execute the at least one instruction, so as to implement various steps in the foregoing method embodiments.
- memory 104 may be implemented by any type or combination of volatile or non-volatile storage devices including, but not limited to, magnetic or optical disks, electrically erasable programmable Read Only Memory (Electrically-Erasable Programmable Read Only Memory, EEPROM), Erasable Programmable Read Only Memory (EPROM), Static Random Access Memory (SRAM), Read Only Memory (Read-Only Memory, ROM), magnetic memory, flash memory, programmable read-only memory (Programmable Read-Only Memory, PROM).
- volatile or non-volatile storage devices including, but not limited to, magnetic or optical disks, electrically erasable programmable Read Only Memory (Electrically-Erasable Programmable Read Only Memory, EEPROM), Erasable Programmable Read Only Memory (EPROM), Static Random Access Memory (SRAM), Read Only Memory (Read-Only Memory, ROM), magnetic memory, flash memory, programmable read-only memory (Programmable Read-Only Memory, PROM).
- a computer-readable storage medium stores at least one instruction, at least one piece of program, code set or instruction set, the at least one instruction, the At least one piece of program, the code set or the instruction set is loaded and executed by the processor to implement the information receiving method or the information notifying method executed by the communication device provided by each of the above method embodiments.
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Abstract
本公开公开了一种信息通知方法、信息接收方法、装置、设备及存储介质,涉及通信技术领域,该方法应用于网络设备,该方法包括:向第一终端发送通知信息,所述通知信息用于通知参考信号的发送状态变化,或,用于通知所述参考信号的发送状态;其中,所述第一终端处于空闲态或非激活态,所述第一终端共享有第二终端的所述参考信号,所述第二终端是处于连接态的至少一个终端。
Description
本公开涉及通信技术领域,特别涉及一种信息通知方法、信息接收方法、装置、设备及存储介质。
在通信标准中,定义了不同类型的参考信号,用于实现不同的功能。
相关技术中,由网络设备向连接态的终端配置参考信号。
发明内容
本公开实施例提供了一种信息通知方法、信息接收方法、装置、设备及存储介质,网络设备发送通知信息,第一终端相应通过接收通知信息得知参考信号是否发送。所述技术方案如下:
根据本公开的一个方面,提供了一种信息通知方法,应用于网络设备,所述方法包括:
向第一终端发送通知信息,所述通知信息用于通知参考信号的发送状态变化,或,用于通知所述参考信号的发送状态;
其中,所述第一终端处于空闲态或非激活态,所述第一终端共享有第二终端的所述参考信号,所述第二终端是处于连接态的至少一个终端。
根据本公开的一个方面,提供了一种信息接收方法,应用于处于空闲态或非激活态的第一终端,所述第一终端共享有第二终端的参考信号,所述第二终端是处于连接态的至少一个终端,所述方法包括:
接收通知信息,所述通知信息用于通知所述参考信号的发送状态变化,或,用于通知所述参考信号的发送状态。
根据本公开的一个方面,提供了一种信息接收装置,应用于处于空闲态或非激活态的第一终端,所述第一终端共享有第二终端的参考信号,所述第二终端是处于连接态的至少一个终端,所述装置包括:接收模块;
所述接收模块,用于接收通知信息,所述通知信息用于通知所述参考信号 的发送状态变化,或,用于通知所述参考信号的发送状态。
根据本公开的一个方面,提供了一种信息通知装置,应用于网络设备,所述装置包括:发送模块;
所述发送模块,用于向第一终端发送通知信息,所述通知信息用于通知参考信号的发送状态变化,或,用于通知所述参考信号的发送状态;
其中,所述第一终端处于空闲态或非激活态,所述第一终端共享有第二终端的所述参考信号,所述第二终端是处于连接态的至少一个终端。
根据本公开的一个方面,提供了一种第一终端,所述第一终端包括:处理器;与所述处理器相连的收发器;用于存储所述处理器的可执行指令的存储器;其中,所述处理器被配置为加载并执行所述可执行指令以实现如上述方面所述的信息接收方法。
根据本公开的一个方面,提供了一种网络设备,所述网络设备包括:处理器;与所述处理器相连的收发器;用于存储所述处理器的可执行指令的存储器;其中,所述处理器被配置为加载并执行所述可执行指令以实现如上述方面所述的信息通知方法。
根据本公开的另一方面,提供了一种芯片,所述芯片包括可编程逻辑电路和/或程序指令,当所述芯片运行时用于实现如上所述的信息接收方法或信息通知方法。
根据本公开的一个方面,提供了一种计算机可读存储介质,所述可读存储介质中存储有可执行指令,所述可执行指令由处理器加载并执行以实现如上述方面所述的信息接收方法或信息通知方法。
根据本公开的一个方面,提供了一种计算机程序,该计算机程序包括计算机指令,该计算机指令存储在计算机可读存储介质中。计算机设备的处理器从计算机可读存储介质读取该计算机指令,处理器执行该计算机指令,使得该计算机设备执行上述方面提供的信息接收方法或信息通知方法。
本公开实施例提供的技术方案至少包括如下有益效果:
处于空闲态或非激活态的第一终端共享有连接态的第二终端的参考信号,网络设备发送通知信息,通知信息用于通知参考信号的发送状态变化,或,用于通知参考信号的发送状态,第一终端相应通过接收通知信息得知参考信号是否发送,提高通信系统中信息交互的准确性。
为了更清楚地说明本公开实施例中的技术方案,下面将对实施例描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本公开的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1是本公开一个示例性实施例提供的通信系统的框图;
图2是本公开一个示例性实施例提供的信息接收方法的流程图;
图3是本公开一个示例性实施例提供的信息接收方法的流程图;
图4是本公开一个示例性实施例提供的信息接收装置的框图;
图5是本公开一个示例性实施例提供的信息通知装置的框图;
图6是本公开一个示例性实施例提供的通信设备的框图。
为使本公开的目的、技术方案和优点更加清楚,下面将结合附图对本公开实施方式作进一步地详细描述。
首先,在对本公开实施例提供的信息接收方法、通知方法进行详细介绍之前,先对本公开实施例涉及的名词和实施环境进行简单介绍。
1、无线资源控制(Radio Resource Control,RRC)状态
通信系统中的终端可以处于三种RRC状态中的任意一种。下面,对三种RRC状态进行简单介绍。
RRC_IDLE态(即空闲态):移动性为基于终端的小区选择重选,寻呼由核心网(Core Network,CN)发起,寻呼区域由CN配置。网络设备侧不存在UE接入上下文。不存在RRC连接。
RRC_CONNECTED态(即连接态):存在RRC连接,网络设备和终端存在UE接入上下文。网络设备侧知道终端的位置是具体小区级别的。移动性是网络设备侧控制的移动性。终端和网络设备之间可以传输单播数据。
RRC_INACTIVE态(即非激活态):5G网络环境中为了降低空口信令和快速恢复无线连接,快速恢复数据业务的目的,定义的一个新的RRC状态。移动性为基于终端的小区选择重选,存在CN-NR之间的连接,UE接入上下文存在 某个网络设备上,寻呼由无线接入网(Radio Access Network,RAN)触发,基于RAN的寻呼区域由RAN管理,网络设备侧知道终端的位置是基于RAN的寻呼区域级别的。
本公开实施例中针对的第一终端是处于空闲态或非激活态的终端。
空闲态或非激活态的第一终端的同步行为可以分为两种情况:
1)在小区信道质量较好的情况下,第一终端只需要在离寻呼时机(Paging Occasion,PO)最近的同步信号块(Synchronization Signal Block,SSB)前醒来,通过一个SSB的同步信号(如主同步信号、辅同步信号)进行时间校准,然后收寻呼。
2)在小区信道质量不好的情况下,第一终端可能需要通过多个SSB来同步,第一终端需要提前多个SSB醒来,通过多个SSB的同步信号(如主同步信号、辅同步信号)进行时间校准,然后收寻呼,造成功耗提高。
此外,在小区信道质量不好的情况下,可能会引入重复发送PO的机制,尤其是对于增强型特性的终端,如缩减能力(Reduced Capabilities,RedCap)终端。而且,在小区信道质量不好的情况下,还要求进行本小区的信号测量,要求在一定时间内测量一定次数的本小区SSB的参考信号接收功率(Reference Signal Received Power,RSRP)强度。
由上述对第一终端的行为的介绍可知,在小区信道质量不好的情况下,第一终端功耗较高,存在较大的优化空间。
2、参考信号(reference signal)
通信系统中存在多种参考信号,通常也可以称之为导频,这些参考信号分别有着各自的功能。
本公开实施例针对的参考信号具有时频同步、自动增益控制(Automatic Gain Control,AGC)调整等功能。其中,参考信号包括但不限于:下行状态信息参考信号(Channel State Information Reference Signal,CSI-RS)和跟踪参考信号(Tracking Reference Signal,TRS)。
CSI-RS是通信标准中较早引入的信道状态参考信号,可以用于信道解调。TRS是新空口(New Radio,NR)中引入的一种用于定时跟踪的特殊的参考信号。
3、寻呼
在通信系统中,当网络设备需要寻呼终端时,可以在物理下行控制信道(Physical Downlink Control Channel,PDCCH)发送寻呼下行控制信息(Paging Downlink Control Information,Paging DCI)。终端检测到PDCCH信道中的Paging DCI后,可以检测物理下行共享信道(Physical Downlink Shared Channel,PDSCH)中的寻呼消息(Paging message),若寻呼消息中包括终端的UE标识(identity,ID),则确定自身被寻呼;若寻呼消息中不包括终端的UE标识,则确定自身未被寻呼。
图1示出了本公开一个示例性实施例提供的通信系统的框图,该通信系统可以包括:接入网12、第一终端14和第二终端16。
接入网12中包括若干个网络设备120。网络设备120可以是基站,所述基站是一种部署在接入网中用以为终端提供无线通信功能的装置。基站可以包括各种形式的宏基站,微基站,中继站,接入点等等。在采用不同的无线接入技术的系统中,具备基站功能的设备的名称可能会有所不同,例如在LTE系统中,称为eNodeB或者eNB;在5G NR-U系统中,称为gNodeB或者gNB。随着通信技术的演进,“基站”这一描述可能会变化。为方便,本公开实施例中,上述为第一终端14(或第二终端16)提供无线通信功能的装置统称为网络设备。
第一终端14和第二终端16可以包括各种具有无线通信功能的手持设备、车载设备、可穿戴设备、计算设备或连接到无线调制解调器的其他处理设备,以及各种形式的用户设备,移动台(Mobile Station,MS),终端(terminal device)等等。为方便描述,上面提到的设备统称为终端。网络设备120与第一终端14(或第二终端16)之间通过某种空口技术互相通信,例如Uu接口。
其中,第二终端16处于连接态,第一终端14处于空闲态或非激活态。第二终端16是处于连接态的至少一个终端,网络设备120将参考信号配置给处于连接态的第二终端16使用。在本公开实施例中,处于空闲态或非激活态的第一终端14也可以共享参考信号。
本公开实施例的技术方案可以应用于各种通信系统,例如:全球移动通讯(Global System of Mobile Communication,GSM)系统、码分多址(Code Division Multiple Access,CDMA)系统、宽带码分多址(Wideband Code Division Multiple Access,WCDMA)系统、通用分组无线业务(General Packet Radio Service,GPRS)、长期演进(Long Term Evolution,LTE)系统、LTE频分双工(Frequency Division Duplex,FDD)系统、LTE时分双工(Time Division Duplex,TDD)系统、先进的长期演进(Advanced Long Term Evolution,LTE-A)系统、新无线(New Radio,NR)系统、NR系统的演进系统、非授权频段上的LTE(LTE-based access to Unlicensed spectrum,LTE-U)系统、NR-U系统、通用移动通信系统(Universal Mobile Telecommunication System,UMTS)、全球互联微波接入(Worldwide Interoperability for Microwave Access,WiMAX)通信系统、无线局域网(Wireless Local Area Networks,WLAN)、无线保真(Wireless Fidelity,WiFi)、下一代通信系统或其他通信系统等。
通常来说,传统的通信系统支持的连接数有限,也易于实现,然而,随着通信技术的发展,移动通信系统将不仅支持传统的通信,还将支持例如,设备到设备(Device to Device,D2D)通信,机器到机器(Machine to Machine,M2M)通信,机器类型通信(Machine Type Communication,MTC),车辆间(Vehicle to Vehicle,V2V)通信以及车联网(Vehicle to Everything,V2X)系统等。本公开实施例也可以应用于这些通信系统。
图2示出了本公开一个示例性实施例提供的信息接收方法的流程图。该方法可以应用于图1所示的第一终端和网络设备中,第一终端共享有第二终端的参考信号,第二终端是处于连接态的终端,该方法包括:
步骤210,网络设备发送通知信息,通知信息用于通知参考信号的发送状态变化,或,用于通知参考信号的发送状态。
第一终端是通信系统中处于空闲态或非激活态的终端。即,第一终端的RRC状态是RRC_IDLE态或RRC_INACTIVE态。
参考信号是通信系统中具备进行一定功能的物理信号。本公开实施例针对的参考信号具有时频同步、AGC调整等功能。参考信号一般可以分为:上行参考信号和下行参考信号。上行参考信号指的是由第一终端向网络设备发送的参考信号,下行参考信号指的是由网络设备向第一终端发送的参考信号。本公开实施例中涉及的参考信号是一种下行参考信号。
第一终端共享有第二终端的参考信号,指的是:第一终端支持使用参考信号。第二终端是处于连接态的一类终端,参考信号一般被配置给连接态的终端, 在本公开实施例中,处于空闲态或非激活态的第一终端通过共享有处于连接态的第二终端的参考信号,也可以使用参考信号。
在通信系统中,网络设备具有一定的灵活度,网络设备针对参考信号的发送情况可以发生变化。如:网络设备可以在发送一段时间的参考信号之后,停止发送参考信号;也可以在停止发送参考信号后,重新开始发送参考信号。
网络设备支持在针对参考信号的发送情况发生变化时,向第一终端发送通知信息。在一种实现方式中,通知信息用于通知参考信号的发送状态变化,第一终端可以根据通知信息,确定自身的发送状态发生变化。在另一种实现方式中,通知信息用于通知参考信号的发送状态,如:发送状态是网络设备发送参考信号;发送状态是网络设备不发送参考信号,第一终端可以根据本次的发送状态和上次的发送状态,确定参考信号的发送状态变化。
步骤220,第一终端接收通知信息。
网络设备向第一终端发送通知信息,第一终端相应接收通知信息,从而得知参考信号发送与否的变化。
可选的,在第一终端接收通知信息之后,第一终端根据通知信息的内容,明确自己后续是否能够使用参考信号。示例性的,在第一终端接收通知信息,得知网络设备不发送参考信号的情况下,第一终端将无法使用参考信号进行时频同步、AGC调整等。示例性的,在第一终端接收通知信息,得知网络设备发送参考信号的情况下,第一终端将可以使用参考信号进行时频同步、AGC调整等。
综上所述,本实施例提供的方法,处于空闲态或非激活态的第一终端共享有连接态的第二终端的参考信号,网络设备发送通知信息,通知信息用于通知参考信号的发送状态变化,或,用于通知参考信号的发送状态,第一终端相应通过接收通知信息得知参考信号发送与否的变化,提高通信系统中信息交互的准确性。
在基于图2的可选实施例中,发送状态变化包括:停止发送参考信号;或,重新开始发送参考信号。
示例性的,网络设备在发送一段时间的参考信号后,停止发送参考信号。网络设备可以向第一终端发送通知信息,通知信息用于指示参考信号的发送状态变化,且在第一终端接收通知信息前,参考信号的发送状态是网络设备发送 参考信号,则第一终端确定发送状态变化是网络设备停止发送参考信号;或者,通知信息通知参考信号的发送状态是网络设备不发送参考信号,且在第一终端上一次接收通知信息时,通知信息通知参考信号的发送状态是网络设备发送参考信号,则第一终端确定发送状态变化是网络设备停止发送参考信号。
示例性的,网络设备在停止发送参考信号后,重新开始发送参考信号。网络设备向第一终端发送通知信息,通知信息用于指示参考信号的发送状态变化,且在第一终端接收通知信息前,参考信号的发送状态是网络设备不发送参考信号,则第一终端确定发送状态变化是网络设备重新开始发送参考信号;或者,通知信息通知参考信号的发送状态是网络设备发送参考信号,且在第一终端上一次接收通知信息时,通知信息通知参考信号的发送状态是网络设备不发送参考信号,则第一终端确定发送状态变化是网络设备重新开始发送参考信号。
在基于图2的可选实施例中,图3示出了本公开一个示例性实施例提供的信息接收方法的流程图。该方法可以应用于图1所示的第一终端和网络设备中。在本实施例中,还包括步骤231或步骤232。该方法包括:
步骤210,网络设备发送通知信息,通知信息用于通知参考信号的发送状态变化,或,用于通知参考信号的发送状态。
其中,第一终端共享有第二终端的参考信号,第一终端是通信系统中处于空闲态或非激活态的终端,第二终端是处于连接态的终端。
步骤220,第一终端接收通知信息。
第一终端接收网络设备发送的通知信息。
步骤231,第一终端根据通知信息,确定本次或下次寻呼时机对应的时频同步行为。
第一终端根据通知信息的内容,确定本次或下次寻呼时机对应的时频同步行为。时频同步行为包括:时间同步行为、频率同步行为中的至少一种。
其中,寻呼时机是第一终端用于检测是否存在寻呼消息的时间段。
为了监听寻呼时机,第一终端需要进行时频同步,以保障在正确的时频位置上与网络设备进行交互。可选的,第一终端可以在寻呼时机之前,执行本次寻呼时机对应的时频同步行为;第一终端也可以在寻呼时机的进程中,执行本次寻呼时机对应的时频同步行为。
相关方案中,第一终端使用SSB进行时频同步。示例性的,在小区信道质 量较好的情况下,第一终端在离寻呼时机最近的SSB前醒来,使用一个SSB进行时频同步;在小区信道质量不好的情况下(如:第一终端处于小区边缘),第一终端提前多个SSB前醒来,使用多个SSB进行时频同步。在本公开实施例中,在参考信号可用的情况下,第一终端也可以使用参考信号进行时频同步,无需提前多个SSB前醒来,从而降低终端的功耗。
在一种可能的实现方式中,步骤231包括:在根据通知信息确定网络设备不发送参考信号的情况下,第一终端确定在本次或下次寻呼时机使用SSB进行时频同步。
由于网络设备不发送参考信号,则第一终端针对本次或下次寻呼时机,无法使用参考信号进行时频同步,第一终端只能使用SSB进行同步。可以理解的是,第一终端也可以使用除参考信号和SSB之外的其他信号进行时频同步,本公开实施例对此不进行限制。
在另一种可能的实现方式中,步骤231包括:在根据通知信息确定网络设备发送参考信号的情况下,第一终端确定在本次或下次寻呼时机使用SSB和参考信号进行时频同步。
由于网络设备发送参考信号,则第一终端针对本次或下次寻呼时机能够使用参考信号进行时频同步。第一终端使用参考信号和SSB进行时频同步。可以理解的是,第一终端也可以使用除参考信号和SSB之外的其他信号进行时频同步,本公开实施例对此不进行限制。
步骤232,第一终端根据通知信息和第一终端的小区信道质量情况,确定本次或下次寻呼时机对应的时频同步行为。
第一终端根据通知信息确定参考信号可用后,还将根据第一终端的小区信道质量情况,确定本次或下次寻呼时机对应的时频同步行为。时频同步行为包括:时间同步行为、频率同步行为中的至少一种。
在一种可能的实现方式中,步骤232包括:在根据通知信息确定网络设备不发送参考信号的情况下,第一终端确定在本次或下次寻呼时机使用SSB进行时频同步。
由于网络设备不发送参考信号,则第一终端针对本次或下次寻呼时机,无法使用参考信号进行时频同步,第一终端只能使用SSB进行同步。可以理解的是,第一终端也可以使用除参考信号和SSB之外的其他信号进行时频同步,本公开实施例对此不进行限制。
在另一种可能的实现方式中,步骤232包括:在根据通知信息确定网络设备发送参考信号且小区信道质量不差于阈值的情况下,第一终端确定在本次或下次寻呼时机使用SSB进行时频同步。
在另一种可能的实现方式中,步骤232包括:在根据通知信息确定网络设备发送参考信号且小区信道质量差于阈值的情况下,第一终端确定在本次或下次寻呼时机使用SSB和参考信号进行时频同步。
由于网络设备发送参考信号,则第一终端针对本次或下次寻呼时机能够使用参考信号进行时频同步。第一终端还将对小区信道质量进行判断,在小区信道质量较差的情况下,第一终端将会使用参考信号和SSB进行时频同步;在小区信道质量较好的情况下,第一终端依旧只使用SSB进行时频同步。由于在小区信道质量较好的情况下,第一终端只需提前1个SSB醒来,第一终端的功耗较小,所以在这种情况下,第一终端可以只使用SSB进行时频同步。可以理解的是,第一终端也可以使用除参考信号和SSB之外的其他信号进行时频同步,本公开实施例对此不进行限制。
示例性的,小区信道质量不好,且第一终端根据接收到的通知信息确定网络设备不发送参考信号,则针对本次或下次寻呼时机,第一终端使用3个SSB进行时频同步。
示例性的,小区信号质量不好,且第一终端接收到的通知信息确定网络设备发送参考信号,则针对本次或下次寻呼时机,第一终端使用1个SSB和参考信号进行时频同步。
综上所述,本实施例提供的方法,处于空闲态或非激活态的第一终端共享有连接态的第二终端的参考信号,网络设备发送通知信息,通知信息用于通知参考信号的发送状态变化,或,用于通知参考信号的发送状态,第一终端相应通过接收通知信息得知参考信号发送与否的变化,提高通信系统中信息交互的准确性。
本实施例提供的方法,在通知信息指示网络设备发送参考信号的情况下,第一终端可以使用参考信号进行时频同步,从而无需接收多个SSB,只根据SSB进行时频同步,降低第一终端的功耗。
在基于图2的可选实施例中,通知信息可以通过不同的消息或信号进行指示。示例性的,关于通知信息的指示方式,本公开实施例至少提供了如下四种 方案:
方案一、网络设备向第一终端发送paging DCI,paging DCI中的指示比特位用于指示参考信号的发送状态。
相应的,第一终端接收paging DCI,paging DCI中的指示比特位用于指示参考信号的发送状态。
可选的,指示比特位包括n个比特,n为不小于1的整数。示例性的,指示比特位包括1个比特。示例性的,指示比特位置为“1”,指示参考信号的发送状态是网络设备发送参考信号;指示比特位置为“0”,指示参考信号的发送状态是网络设备不发送参考信号。示例性的,指示比特位置为“0”,指示参考信号的发送状态是网络设备发送参考信号;指示比特位置为“1”,指示参考信号的发送状态是网络设备不发送参考信号。
可选的,指示比特位是paging DCI中的保留比特位,保留比特位是在paging DCI中未被定义其他信息的比特位。可选的,指示比特位是paging DCI中的新增比特位,新增比特位是相比于现有paging DCI中的比特位,新增加的比特位。可选的,指示比特位是paging DCI中的自定义比特位,自定义比特位是对paging DCI中的已被定义其他信息的比特位进行重新定义后的比特位。
示例性的,结合参考如下表一,表一示出了paging DCI中的短信信息域:
表一:短信信息域
如表一所示,短信(Short Messages)信息域对应有8个比特:1是系统信息更新位,如果该位设置为1,用于指示除系统信息块(System Information Block,SIB)6、SIB7和SIB8之外的广播控制信道(Broadcast Control Channel,BCCH)修改;2是系统信息更新位,如果该位设置为1,用于表示一个地震海啸警报系统主通知;和/或一个地震海啸警报系统次要通知;和/或一个商用移动警报服务通知;3-8是保留比特位。在paging DCI中携带短信信息域的情况下,指示比特位可以是3-8位中的一个比特或多个比特(即保留比特位),也可以是1-2位中的一个比特或多个比特(即自定义比特位)。
可选的,在paging DCI中的指示比特位用于指示参考信号的发送状态的情况下,第一终端还将接收paging DCI对应的寻呼消息,寻呼消息中携带有UE标识。其中,UE标识是被寻呼的终端所对应的标识信息。示例性的,若寻呼消息中携带的UE标识包括第一终端的UE标识,则第一终端将会发起RRC连接,若寻呼消息中携带的UE标识不包括第一终端的UE标识,则第一终端将会继续睡眠。
可选的,在paging DCI中的指示比特位用于指示参考信号的发送状态的情况下,第一终端将根据通知信息,确定本次或下次寻呼时机对应的时频同步行为。
示例性的,paging DCI中的指示比特位指示网络设备发送参考信号,记第一终端接收paging DCI的时刻为T0,第一终端接收paging DCI所对应的寻呼消息的时刻为T1,T0与T1之间存在可用的参考信号,则第一终端针对本次寻呼时机,使用SSB和参考信号进行时频同步。
示例性的,paging DCI中的指示比特位指示网络设备发送参考信号,记第一终端接收paging DCI的时刻为T0,第一终端接收paging DCI所对应的寻呼消息的时刻为T1,T0与T1之间不存在可用的参考信号,则第一终端针对下次寻呼时机,使用SSB和参考信号进行时频同步。
方案二、网络设备向第一终端发送携带有指示信息的第一寻呼消息;或,向第一终端发送未携带有指示信息的第二寻呼消息;其中,第一寻呼消息用于指示参考信号的第一发送状态,第二寻呼消息用于指示参考信号的第二发送状态。
相应的,第一终端接收携带指示信息的第一寻呼消息;或,接收未携带有指示信息的第二寻呼消息;其中,第一寻呼消息用于指示参考信号的第一发送状态,第二寻呼消息用于指示参考信号的第二发送状态。
其中,指示信息是寻呼消息中原用于指示与参考信号的发送状态无关的内容的信息。可选的,指示信息包括:UE标识。UE标识是被寻呼的终端所对应的标识信息。
示例性的,第一发送状态指的是:网络设备发送参考信号;第二发送状态指的是:网络设备不发送参考信号。示例性的,第一发送状态指的是:网络设备不发送参考信号;第二发送状态指的是:网络设备发送参考信号。
可选的,在网络设备向第一终端发送第一寻呼消息或第二寻呼消息,用于 指示参考信号的发送状态的情况下,第一终端将根据通知信息,确定下次寻呼时机对应的时频同步行为。
方案三、网络设备向第一终端发送未携带有指示信息的第三寻呼消息,第三寻呼消息用于指示参考信号的发送状态变化。
相应的,第一终端接收未携带有指示信息的第三寻呼消息,第三寻呼消息用于指示参考信号的发送状态变化。
其中,指示信息是寻呼消息中原用于指示与参考信号的发送状态无关的内容的信息。可选的,指示信息包括:UE标识。UE标识是被寻呼的终端所对应的标识信息。
在寻呼消息携带有指示信息的情况下,则说明网络设备针对参考信号的发送情况未发生变化;在寻呼消息未携带有指示信息的情况下,则说明网络设备针对参考信号的发送情况发生了变化,如:网络设备停止发送参考信号,或者,网络设备重新开始发送参考信号。
可选的,在未携带有指示信息的第三寻呼消息用于指示参考信号的发送状态变化的情况下,第一终端将根据通知信息,确定下次寻呼时机对应的时频同步行为。
方案四、网络设备向第一终端发送补充参考信号,补充参考信号中的信息用于指示参考信号的发送状态,补充参考信号是不同于参考信号的信号。
相应的,第一终端接收补充参考信号,补充参考信号中的信息用于指示参考信号的发送状态,补充参考信号是不同于参考信号的信号。
可选的,补充参考信号中的信息包括但不限于:补充参考信号的码字特征。示例性的,在补充参考信号的码字特征为第一特征时,指示参考信号的发送状态是网络设备发送参考信号;在补充参考信号的码字特征为第二特征时,指示参考信号的发送状态是网络设备不发送参考信号。
可选的,在补充参考信号中的信息用于指示参考信号的发送状态的情况下,第一终端将根据通知信息,确定下次寻呼时机对应的时频同步行为。
综上所述,本实施例提供的方法,处于空闲态或非激活态的第一终端共享有连接态的第二终端的参考信号,网络设备发送通知信息,通知信息用于通知参考信号的发送状态变化,或,用于通知参考信号的发送状态,第一终端相应通过接收通知信息得知参考信号发送与否的变化,提高通信系统中信息交互的准确性。
本实施例提供的方法,网络设备可以通过发送paging DCI、寻呼消息和补充参考信号中的任意一种,通知第一终端参考信号的发送状态变化,或,通知第一终端参考信号的发送状态,提高了通知信息的实现方式的灵活性。
在基于图2的可选实施例中,参考信号包括但不限于:CSI-RS和TRS中的至少一种。
需要说明的是,上述方法实施例可以分别单独实施,也可以组合实施,本公开对此不进行限制。
在上述各个实施例中,由第一终端执行的步骤可以单独实现成为第一终端一侧的信息接收方法,由网络设备执行的步骤可以单独实现成为网络设备一侧的信息通知方法。
图4示出了本公开一个示例性实施例提供的信息接收装置的框图,该装置应用于处于空闲态或非激活态的第一终端,第一终端共享有第二终端的参考信号,第二终端是处于连接态的至少一个终端,该装置包括:接收模块401;
接收模块401,用于接收通知信息,通知信息用于通知参考信号的发送状态变化,或,用于通知参考信号的发送状态。
在一个可选的实施例中,发送状态变化包括:停止发送参考信号。
在一个可选的实施例中,发送状态变化包括:重新开始发送参考信号。
在一个可选的实施例中,装置还包括确定模块402,确定模块402,用于根据通知信息,确定本次或下次寻呼时机对应的时频同步行为;或,确定模块402,用于根据通知信息和第一终端的小区信道质量情况,确定本次或下次寻呼时机对应的时频同步行为。
在一个可选的实施例中,确定模块402,用于在根据通知信息确定网络设备不发送参考信号的情况下,确定在本次或下次寻呼时机使用SSB进行时频同步;确定模块402,用于在根据通知信息确定网络设备发送参考信号的情况下,确定在本次或下次寻呼时机使用SSB和参考信号进行时频同步;其中,时频同步包括:时间同步和频率同步中的至少一种。
在一个可选的实施例中,确定模块402,用于在根据通知信息确定网络设备不发送参考信号的情况下,确定在本次或下次寻呼时机使用SSB进行时频同步; 确定模块402,用于在根据通知信息确定网络设备发送参考信号且小区信道质量不差于阈值的情况下,确定在本次或下次寻呼时机使用SSB进行时频同步;确定模块402,用于在根据通知信息确定网络设备发送参考信号且小区信道质量差于阈值的情况下,确定在本次或下次寻呼时机使用SSB和参考信号进行时频同步;其中,时频同步包括:时间同步和频率同步中的至少一种。
在一个可选的实施例中,接收模块401,用于接收paging DCI,paging DCI中的指示比特位用于指示参考信号的发送状态。
在一个可选的实施例中,接收模块401,用于接收paging DCI对应的寻呼消息,寻呼消息中携带有UE标识。
在一个可选的实施例中,指示比特位包括n个比特,n为不小于1的整数。
在一个可选的实施例中,指示比特位是paging DCI中的保留比特位;或,指示比特位是paging DCI中的自定义比特位。
在一个可选的实施例中,接收模块401,用于接收携带有指示信息的第一寻呼消息;或,接收未携带有指示信息的第二寻呼消息;其中,第一寻呼消息用于指示参考信号的第一发送状态,第二寻呼消息用于指示参考信号的第二发送状态。
在一个可选的实施例中,接收模块401,用于接收未携带有指示信息的第三寻呼消息,第三寻呼消息用于指示参考信号的发送状态变化。
在一个可选的实施例中,指示信息包括:UE标识。
在一个可选的实施例中,接收模块401,用于接收补充参考信号,补充参考信号中的信息用于指示参考信号的发送状态,补充参考信号是不同于参考信号的信号。
在一个可选的实施例中,参考信号包括:CSI-RS和TRS中的至少一种。
图5示出了本公开一个示例性实施例提供的信息通知装置的框图,该装置包括:发送模块501;
发送模块501,用于向第一终端发送通知信息,通知信息用于通知参考信号的发送状态变化,或,用于通知参考信号的发送状态;
其中,第一终端处于空闲态或非激活态,第一终端共享有第二终端的参考信号,第二终端是处于连接态的至少一个终端。
在一个可选的实施例中,发送状态变化包括:停止发送参考信号。
在一个可选的实施例中,发送状态变化包括:重新开始发送参考信号。
在一个可选的实施例中,发送模块501,用于向第一终端发送paging DCI,paging DCI中的指示比特位用于指示参考信号的发送状态。
在一个可选的实施例中,发送模块501,用于发送paging DCI对应的寻呼消息,寻呼消息中携带有UE标识。
在一个可选的实施例中,指示比特位包括n个比特,n为不小于1的整数。
在一个可选的实施例中,指示比特位是paging DCI中的保留比特位;或,指示比特位是paging DCI中的自定义比特位。
在一个可选的实施例中,发送模块501,用于向第一终端发送携带有指示信息的第一寻呼消息;或,发送模块501,用于向第一终端发送未携带有指示信息的第二寻呼消息;其中,第一寻呼消息用于指示参考信号的第一发送状态,第二寻呼消息用于指示参考信号的第二发送状态。
在一个可选的实施例中,发送模块501,用于向第一终端发送未携带有指示信息的第三寻呼消息,第三寻呼消息用于指示参考信号的发送状态变化。
在一个可选的实施例中,指示信息包括:UE标识。
在一个可选的实施例中,发送模块501,用于向第一终端发送补充参考信号,补充参考信号中的信息用于指示参考信号的发送状态,补充参考信号是不同于参考信号的信号。
在一个可选的实施例中,参考信号包括:CSI-RS和TRS中的至少一种。
图6示出了本公开一个示例性实施例提供的通信设备(第一终端或网络设备)的结构示意图,该终端包括:处理器101、接收器102、发射器103、存储器104和总线105。
处理器101包括一个或者一个以上处理核心,处理器101通过运行软件程序以及模块,从而执行各种功能应用以及信息处理。
接收器102和发射器103可以实现为一个通信组件,该通信组件可以是一块通信芯片。
存储器104通过总线105与处理器101相连。
存储器104可用于存储至少一个指令,处理器101用于执行该至少一个指令,以实现上述方法实施例中的各个步骤。
此外,存储器104可以由任何类型的易失性或非易失性存储设备或者它们 的组合实现,易失性或非易失性存储设备包括但不限于:磁盘或光盘,电可擦除可编程只读存储器(Electrically-Erasable Programmable Read Only Memory,EEPROM),可擦除可编程只读存储器(Erasable Programmable Read Only Memory,EPROM),静态随时存取存储器(Static Random Access Memory,SRAM),只读存储器(Read-Only Memory,ROM),磁存储器,快闪存储器,可编程只读存储器(Programmable Read-Only Memory,PROM)。
在示例性实施例中,还提供了一种计算机可读存储介质,所述计算机可读存储介质中存储有至少一条指令、至少一段程序、代码集或指令集,所述至少一条指令、所述至少一段程序、所述代码集或指令集由所述处理器加载并执行以实现上述各个方法实施例提供的由通信设备执行的信息接收方法或信息通知方法。
本领域普通技术人员可以理解实现上述实施例的全部或部分步骤可以通过硬件来完成,也可以通过程序来指令相关的硬件完成,所述的程序可以存储于一种计算机可读存储介质中,上述提到的存储介质可以是只读存储器,磁盘或光盘等。
以上所述仅为本公开的可选实施例,并不用以限制本公开,凡在本公开的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本公开的保护范围之内。
Claims (33)
- 一种信息通知方法,其特征在于,应用于网络设备,所述方法包括:向第一终端发送通知信息,所述通知信息用于通知参考信号的发送状态变化,或,用于通知所述参考信号的发送状态;其中,所述第一终端处于空闲态或非激活态,所述第一终端共享有第二终端的所述参考信号,所述第二终端是处于连接态的至少一个终端。
- 根据权利要求1所述的方法,其特征在于,所述发送状态变化包括:停止发送所述参考信号。
- 根据权利要求1所述的方法,其特征在于,所述发送状态变化包括:重新开始发送所述参考信号。
- 根据权利要求1至3任一所述的方法,其特征在于,所述向第一终端发送通知信息,包括:向所述第一终端发送寻呼下行控制信息paging DCI,所述paging DCI中的指示比特位用于指示所述参考信号的发送状态。
- 根据权利要求4所述的方法,其特征在于,所述方法还包括:发送所述paging DCI对应的寻呼消息,所述寻呼消息中携带有UE标识。
- 根据权利要求4所述的方法,其特征在于,所述指示比特位包括n个比特,所述n为不小于1的整数。
- 根据权利要求4所述的方法,其特征在于,所述指示比特位是所述paging DCI中的保留比特位;或,所述指示比特位是所述paging DCI中的自定义比特位。
- 根据权利要求1至3任一所述的方法,其特征在于,所述向第一终端发送通知信息,包括:向所述第一终端发送携带有指示信息的第一寻呼消息;或,向所述第一终端发送未携带有所述指示信息的第二寻呼消息;其中,所述第一寻呼消息用于指示所述参考信号的第一发送状态,所述第二寻呼消息用于指示所述参考信号的第二发送状态。
- 根据权利要求1至3任一所述的方法,其特征在于,所述向第一终端发送通知信息,包括:向所述第一终端发送未携带有指示信息的第三寻呼消息,所述第三寻呼消息用于指示所述参考信号的发送状态变化。
- 根据权利要求8或9所述的方法,其特征在于,所述指示信息包括:UE标识。
- 根据权利要求1至3任一所述的方法,其特征在于,所述向第一终端发送通知信息,包括:向所述第一终端发送补充参考信号,所述补充参考信号中的信息用于指示所述参考信号的发送状态,所述补充参考信号是不同于所述参考信号的信号。
- 根据权利要求1至11任一所述的方法,其特征在于,所述参考信号包括:下行状态信息参考信号CSI-RS和跟踪参考信号TRS中的至少一种。
- 一种信息接收方法,其特征在于,应用于处于空闲态或非激活态的第一终端,所述第一终端共享有第二终端的参考信号,所述第二终端是处于连接态的至少一个终端,所述方法包括:接收通知信息,所述通知信息用于通知所述参考信号的发送状态变化,或,用于通知所述参考信号的发送状态。
- 根据权利要求13所述的方法,其特征在于,所述发送状态变化包括:停止发送所述参考信号。
- 根据权利要求13所述的方法,其特征在于,所述发送状态变化包括:重新开始发送所述参考信号。
- 根据权利要求13至15任一所述的方法,其特征在于,所述方法还包括:根据所述通知信息,确定本次或下次寻呼时机对应的时频同步行为;或,根据所述通知信息和所述第一终端的小区信道质量情况,确定所述本次或下次寻呼时机对应的时频同步行为。
- 根据权利要求16所述的方法,其特征在于,所述根据所述通知信息,确定本次或下次寻呼时机对应的时频同步行为,包括:在根据所述通知信息确定网络设备不发送所述参考信号的情况下,确定在所述本次或下次寻呼时机使用同步信号块SSB进行时频同步;在根据所述通知信息确定所述网络设备发送所述参考信号的情况下,确定在所述本次或下次寻呼时机使用所述SSB和所述参考信号进行时频同步;其中,所述时频同步包括:时间同步和频率同步中的至少一种。
- 根据权利要求16所述的方法,其特征在于,所述根据所述通知信息和所述第一终端的小区信道质量情况,确定所述本次或下次寻呼时机对应的时频同步行为,包括:在根据所述通知信息确定网络设备不发送所述参考信号的情况下,确定在所述本次或下次寻呼时机使用SSB进行时频同步;在根据所述通知信息确定所述网络设备发送所述参考信号且小区信道质量不差于所述阈值的情况下,确定在所述本次或下次寻呼时机使用所述SSB进行时频同步;在根据所述通知信息确定所述网络设备发送所述参考信号且小区信道质量差于所述阈值的情况下,确定在所述本次或下次寻呼时机使用所述SSB和所述参考信号进行时频同步;其中,所述时频同步包括:时间同步和频率同步中的至少一种。
- 根据权利要求13至15任一所述的方法,其特征在于,所述接收通知信息,包括:接收寻呼下行控制信息paging DCI,所述paging DCI中的指示比特位用于指示所述参考信号的发送状态。
- 根据权利要求19所述的方法,其特征在于,所述方法还包括:接收所述paging DCI对应的寻呼消息,所述寻呼消息中携带有UE标识。
- 根据权利要求19所述的方法,其特征在于,所述指示比特位包括n个比特,所述n为不小于1的整数。
- 根据权利要求19所述的方法,其特征在于,所述指示比特位是所述paging DCI中的保留比特位;或,所述指示比特位是所述paging DCI中的自定义比特位。
- 根据权利要求13至15任一所述的方法,其特征在于,所述接收通知信息,包括:接收携带有指示信息的第一寻呼消息;或,接收未携带有所述指示信息的第二寻呼消息;其中,所述第一寻呼消息用于指示所述参考信号的第一发送状态,所述第二寻呼消息用于指示所述参考信号的第二发送状态。
- 根据权利要求13至15任一所述的方法,其特征在于,所述接收通知信息,包括:接收未携带有指示信息的第三寻呼消息,所述第三寻呼消息用于指示所述参考信号的发送状态变化。
- 根据权利要求23或24所述的方法,其特征在于,所述指示信息包括:UE标识。
- 根据权利要求13至15任一所述的方法,其特征在于,所述接收通知信息,包括:接收补充参考信号,所述补充参考信号中的信息用于指示所述参考信号的发送状态,所述补充参考信号是不同于所述参考信号的信号。
- 根据权利要求13至15任一所述的方法,其特征在于,所述参考信号包括:下行状态信息参考信号CSI-RS和跟踪参考信号TRS中的至少一种。
- 一种信息通知装置,其特征在于,应用于网络设备中,所述装置包括:发送模块;所述发送模块,用于向第一终端发送通知信息,所述通知信息用于通知参考信号的发送状态变化,或,用于通知所述参考信号的发送状态;其中,所述第一终端处于空闲态或非激活态,所述第一终端共享有第二终端的所述参考信号,所述第二终端是处于连接态的至少一个终端。
- 一种信息接收装置,其特征在于,应用于处于空闲态或非激活态的第一终端,所述第一终端共享有第二终端的参考信号,所述第二终端是处于连接态的至少一个终端,所述装置包括:接收模块;所述接收模块,用于接收通知信息,所述通知信息用于通知所述参考信号的发送状态变化,或,用于通知所述参考信号的发送状态。
- 一种网络设备,其特征在于,所述网络设备包括:处理器;与所述处理器相连的收发器;用于存储所述处理器的可执行指令的存储器;其中,所述处理器被配置为加载并执行所述可执行指令以实现如权利要求1至12任一所述的信息通知方法。
- 一种第一终端,其特征在于,所述第一终端包括:处理器;与所述处理器相连的收发器;用于存储所述处理器的可执行指令的存储器;其中,所述处理器被配置为加载并执行所述可执行指令以实现如权利要求13至27任一所述的信息接收方法。
- 一种芯片,其特征在于,所述芯片包括可编程逻辑电路和/或程序指令,当所述芯片运行时用于实现如上权利要求1至12任一所述的信息通知方法,或,如上权利要求13至27任一所述的信息接收方法。
- 一种计算机可读存储介质,其特征在于,所述可读存储介质中存储有可执行指令,所述可执行指令由处理器加载并执行以实现如权利要求1至12任一所述的信息通知方法,或,如上权利要求13至27任一所述的信息接收方法。
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