CN109699051A - A kind of method and apparatus in the user equipment of wireless communication, the network equipment - Google Patents

Abstract

This application discloses the method and apparatus in a kind of user equipment of wireless communication, the network equipment.User equipment determines the first running time-frequency resource subset first from the first running time-frequency resource set, then in sub- the first wireless signal of Centralizing inspection of the first running time-frequency resource；The location dependent information of the user equipment be used to determine the first running time-frequency resource subset from the first running time-frequency resource set, and first wireless signal includes paging relevant information.The location dependent information of the running time-frequency resource and the user equipment that transmit the paging user equipment relevant information is established connection by design by the application, it avoids when non-ground network base station covers the extremely more user equipment of quantity, all user equipmenies share a set of paging scheme and caused by paging information collision problem and user equipment the problem of receiving power wastage；And then improve the efficiency and systematic entirety energy of paging information transmission.

Description

A kind of method and apparatus in the user equipment of wireless communication, the network equipment

Technical field

This application involves the transmission methods and device in wireless communication system, longer wireless more particularly, to transmission delay The transmission method and device of signal.

Background technique

Currently, non-about being supported in 5G NR (New Radio Access Technology, new wireless access technology) In 3GPP, (3rd GenerationPartner Project, the third generation close the research project (Study Item) of ground network Make partnership projects) it is discussed in RAN (Radio Access Network, wireless access network).In the discussion of non-ground network, one A important scene is exactly that ground based terminal is directly accessed spaceflight delivering tool (Spaceborne Vehicle) and is communicated, and navigates It include GEO (Geostationary Earth Orbiting, geosynchronous earth orbit) satellite, MEO (Medium in its delivery vehicle Earth Orbiting, Medium-Earth Orbit) satellite, LEO (Low Earth Orbit, Low Earth Orbit) satellite, HEO (Highly Elliptical Orbiting, highly elliptical orbit) satellite, one of Airborne Platform (aerial platform) or more Kind.

Existing system is about in the transmission plan of paging information, and UE (User Equipment, user equipment) is according to DRX (Discontinuous Reception, discontinuous reception) configuration, IMSI (the International Mobile of itself Subscriber Identification Number, international mobile subscriber identity) and base station configuration information calculating PF (Paging Frame, paging frame) and PO (Paging Occasion, pager meeting), and searched on the corresponding PO of the PF Page relevant information.UE under one base station covering is all made of a kind of paging mechanism, and the time-domain position of PF and PO and DRX It configures related with the IMSI of UE.For NTN application scenarios, the higher carrying space of track will cover the extremely more user of quantity, If the corresponding base station of a space flight tool, it is clear that above-mentioned paging will lead to a large amount of UE and search for paging on the same PF/PO Information in turn results in collision and unnecessary power consumption penalty.

Summary of the invention

In the scheme of traditional paging transmission, identical UE can be same after configuring identical DRX cycle and IMSI modulus 1024 Search paging relevant information on one PF/PO.Because the limited coverage area of each base station, and then same under the covering of each base station The UE quantity of search paging relevant information is also limited on one PF/PO, and then is not in the problem of paging information collides.However For NTN (Non-Terrestrial Network, non-ground network) base station, a base station NTN will cover very big Ground areas, and then cover the extremely more user equipment of quantity, paging is related to be believed when the base station NTN sends covering lower all UE Breath, traditional paging scheme will will lead to following two problem:

The a large amount of UE of problem 1. searches for paging information on identical PF and PO, generates the collision of paging information, influence property Energy.

Though the certain UE of problem 2. can be because collision monitors paging information for a long time and but still can't detect the paging letter of oneself Breath, causes unnecessary power consumption.

For above-mentioned design, this application discloses a solution.In the absence of conflict, the user of the application sets The feature in embodiment and embodiment in standby can be applied in base station, and vice versa.In the absence of conflict, the application Embodiment and embodiment in feature can arbitrarily be combined with each other.

This application discloses a kind of methods in user equipment that be used to wirelessly communicate, characterized by comprising:

The first running time-frequency resource subset is determined from the first running time-frequency resource set；

In sub- the first wireless signal of Centralizing inspection of the first running time-frequency resource；

Wherein, described in the location dependent information of the user equipment be used to determine from the first running time-frequency resource set First running time-frequency resource subset, first wireless signal include paging relevant information.

As one embodiment, the above method is advantageous in that: by believing the position correlation of the user equipment Breath and the first running time-frequency resource subset establish connection.The first running time-frequency resource set is corresponding, and a base station NTN is all is used for The running time-frequency resource of transmitting paging information, and user equipment only receives on portion of time frequency resources relevant to oneself location Paging information avoids the problem that the base station NTN because of paging collision caused by service number of users is excessive.

As one embodiment, another of the above method is advantageous in that: the user equipment is not needed for one Paging information is monitored on the running time-frequency resource of all transmission paging informations of the base station NTN, reduces the power consumption of user equipment.

As one embodiment, another of the above method is advantageous in that: the first running time-frequency resource set is divided into K Candidate running time-frequency resource subset, the first running time-frequency resource subset be in described K candidate running time-frequency resource subset one of, described the One time-frequency subset of resources is related with the location information of received user equipment；By the above-mentioned means, by being used in a base station NTN The running time-frequency resource for sending paging information is grouped according to the geographical location of user equipment；And then paging efficiency is improved, while Conducive to the tracking (Tracking) to user equipment.

According to the one aspect of the application, the above method be characterized in that include:

Determine the second running time-frequency resource subset；

The first wireless signal described in the sub- Centralizing inspection of the second running time-frequency resource；

Wherein, the second running time-frequency resource subset is unrelated with the location dependent information of the user equipment.

As one embodiment, the above method is advantageous in that: the second running time-frequency resource subset is for described first Rollback (Fallback) scheme of running time-frequency resource subset, to guarantee not obtaining the position correlation correctly when the user equipment It still is able to receive paging information when information.

According to the one aspect of the application, the above method be characterized in that include:

Receive the first information；

Wherein, the first information is used for determining the location dependent information of the user equipment.

As one embodiment, the above method is advantageous in that: network side provides position correlation letter for the user equipment Breath guarantees the user equipment correctly from first running time-frequency resource to ensure the accuracy of the location dependent information The first running time-frequency resource subset is determined in set.

According to the one aspect of the application, the above method be characterized in that include:

Receive the second information；

Wherein, second information indicates K first kind list, when the first running time-frequency resource set includes K candidate Frequency subset of resources, the first running time-frequency resource subset be in described K candidate running time-frequency resource subset one of, the K first Class list respectively corresponds described K candidate running time-frequency resource subset；The location dependent information and first row of the user equipment Table is related, the first list be in the K first kind list one of；The location dependent information of the user equipment It is used to determine the first list from the K first kind list, when the first list is used for from the K candidate The first running time-frequency resource subset is determined in frequency subset of resources.

As one embodiment, the above method is advantageous in that: network side is by the cell under one or more base station NTN It is grouped, different cell groups corresponds to the different first kind lists, and then helps user equipment from first time-frequency The first running time-frequency resource subset is determined in resource collection.

According to the one aspect of the application, the above method is characterized in that, described in the first running time-frequency resource set correspondence All running time-frequency resources for being used for transmission paging information of the sender of first wireless signal.

As one embodiment, the above method is advantageous in that: being existed by all user equipmenies that a base station NTN services Search paging relevant information in the first running time-frequency resource set.

According to the one aspect of the application, the above method be characterized in that include:

Receive third information；

Wherein, the third information is used for determining the first running time-frequency resource set and the second running time-frequency resource subset In at least described first running time-frequency resource set.

As one embodiment, the above method is advantageous in that: the base station NTN is the user serviced by the third information Device configuration is used for transmission the running time-frequency resource of paging relevant information, transmits the running time-frequency resource configuration for paging relevant information to improve Flexibility.

According to the one aspect of the application, the above method is characterized in that, the first running time-frequency resource set includes K time Select running time-frequency resource subset, the first running time-frequency resource subset be in described K candidate running time-frequency resource subset one of；Described first Running time-frequency resource set is related with first antenna port, and the location dependent information of the user equipment is used for from the K The first running time-frequency resource subset is determined in candidate running time-frequency resource subset.

As one embodiment, the above method is advantageous in that: the first running time-frequency resource set and first antenna port It is related, when a base station NTN includes mutiple antennas port, realized in the first running time-frequency resource set simultaneously by spatial reuse The paging relevant information for the user equipment being located under the covering of different antennae port is sent, to save for paging relevant information transmission Running time-frequency resource expense.

As one embodiment, another of the above method is advantageous in that: for user equipment, when user equipment is adopted Parameter is received when searching synchronous or broadcast singal on first antenna port with given space, and user equipment will be using described Given space receives parameter and searches for paging relevant information on first antenna port, and then it is related to reduce user equipment reception paging The complexity of information.

This application discloses a kind of methods in network equipment that be used to wirelessly communicate, characterized by comprising:

The first running time-frequency resource subset is determined from the first running time-frequency resource set；

The first wireless signal is sent in the first running time-frequency resource subset, or sends first in the second running time-frequency resource subset Wireless signal；

Wherein, the first running time-frequency resource set includes the first running time-frequency resource subset, first wireless signal Recipient includes first terminal, and the location dependent information of the first terminal is used for from the first running time-frequency resource set really The fixed first running time-frequency resource subset, first wireless signal include paging relevant information.

As one embodiment, the network equipment is MME corresponding to the first terminal.

As one embodiment, the network equipment is a base station, and the base station is that the service of the first terminal is small The maintenance base station in area.

As one embodiment, the network equipment is the base station NTN.

As one embodiment, the network equipment is a ground network base station.

As a sub- embodiment of the embodiment, the first terminal while and the ground network base station and one The connection of the base station NTN.

According to the one aspect of the application, the above method be characterized in that include:

Determine the second running time-frequency resource subset；

Wherein, the second running time-frequency resource subset is unrelated with the location dependent information of the first terminal.

According to the one aspect of the application, the above method be characterized in that include:

Send the first information；

Wherein, the first information is used for determining the location dependent information of the first terminal.

According to the one aspect of the application, the above method be characterized in that include:

Send the second information；

Wherein, second information indicates K first kind list, when the first running time-frequency resource set includes K candidate Frequency subset of resources, the first running time-frequency resource subset be in described K candidate running time-frequency resource subset one of, the K first Class list respectively corresponds described K candidate running time-frequency resource subset；The location dependent information and first row of the first terminal Table is related, the first list be in the K first kind list one of；The location dependent information of the first terminal It is used to determine the first list from the K first kind list, when the first list is used for from the K candidate The first running time-frequency resource subset is determined in frequency subset of resources.

According to the one aspect of the application, the above method is characterized in that, described in the first running time-frequency resource set correspondence All running time-frequency resources for being used for transmission paging information of the network equipment.

According to the one aspect of the application, the above method be characterized in that include:

Send third information；

Wherein, the third information is used for determining the first running time-frequency resource set and the second running time-frequency resource subset In at least described first running time-frequency resource set.

According to the one aspect of the application, the above method is characterized in that, the first running time-frequency resource set includes K time Select running time-frequency resource subset, the first running time-frequency resource subset be in described K candidate running time-frequency resource subset one of；Described first Running time-frequency resource set is related with first antenna port, and the location dependent information of the first terminal is used for from the K The first running time-frequency resource subset is determined in candidate running time-frequency resource subset.

This application discloses a kind of user equipmenies that be used to wirelessly communicate, characterized by comprising:

First receiver module determines the first running time-frequency resource subset from the first running time-frequency resource set；

Second receiver module, in sub- the first wireless signal of Centralizing inspection of the first running time-frequency resource；

Wherein, described in the location dependent information of the user equipment be used to determine from the first running time-frequency resource set First running time-frequency resource subset, first wireless signal include paging relevant information.

As one embodiment, the above-mentioned user equipment that be used to wirelessly communicate is characterized in that, first receiver Module also determines the second running time-frequency resource subset, and second receiver module is also the described in the sub- Centralizing inspection of the second running time-frequency resource One wireless signal；The second running time-frequency resource subset is unrelated with the location dependent information of the user equipment.

As one embodiment, the above-mentioned user equipment that be used to wirelessly communicate is characterized in that, first receiver Module also receives the first information；The first information is used for determining the location dependent information of the user equipment.

As one embodiment, the above-mentioned user equipment that be used to wirelessly communicate is characterized in that, first receiver Module also receives the second information；Second information indicates K first kind list, and the first running time-frequency resource set includes K Candidate running time-frequency resource subset, the first running time-frequency resource subset be in described K candidate running time-frequency resource subset one of, the K A first kind list respectively corresponds described K candidate running time-frequency resource subset；The location dependent information of the user equipment with First list is related, the first list be in the K first kind list one of；The position phase of the user equipment It closes information and be used to determine that the first list, the first list are used for from the K from the K first kind list The first running time-frequency resource subset is determined in candidate running time-frequency resource subset.

As one embodiment, the above-mentioned user equipment that be used to wirelessly communicate is characterized in that, the first time-frequency money All running time-frequency resources for being used for transmission paging information of the sender of corresponding first wireless signal of source set.

As one embodiment, the above-mentioned user equipment that be used to wirelessly communicate is characterized in that, first receiver Module also receives third information；The third information is used for determining the first running time-frequency resource set and second time-frequency money At least described first running time-frequency resource set in the subset of source.

As one embodiment, the above-mentioned user equipment that be used to wirelessly communicate is characterized in that, the first time-frequency money Source set includes K candidate running time-frequency resource subset, and the first running time-frequency resource subset is in described K candidate running time-frequency resource subset One of；The first running time-frequency resource set is related with first antenna port, the location dependent information of the user equipment It is used to determine the first running time-frequency resource subset from described K candidate running time-frequency resource subset.

This application discloses a kind of network equipments that be used to wirelessly communicate, characterized by comprising:

First transmitter module determines the first running time-frequency resource subset from the first running time-frequency resource set；

Second transmitter module sends the first wireless signal in the first running time-frequency resource subset, or provides in the second time-frequency The first wireless signal is sent in the subset of source；

Wherein, the first running time-frequency resource set includes the first running time-frequency resource subset, first wireless signal Recipient includes first terminal, and the location dependent information of the first terminal is used for from the first running time-frequency resource set really The fixed first running time-frequency resource subset, first wireless signal include paging relevant information.

As one embodiment, the above-mentioned network equipment that be used to wirelessly communicate is characterized in that, first transmitter Module also determines the second running time-frequency resource subset；Second running time-frequency resource subset letter related to the position of the first terminal It ceases unrelated.

As one embodiment, the above-mentioned network equipment that be used to wirelessly communicate is characterized in that, first transmitter Module also sends the first information；The first information is used for determining the location dependent information of the first terminal.

As one embodiment, the above-mentioned network equipment that be used to wirelessly communicate is characterized in that, first transmitter Module also sends the second information；Second information indicates K first kind list, and the first running time-frequency resource set includes K Candidate running time-frequency resource subset, the first running time-frequency resource subset be in described K candidate running time-frequency resource subset one of, the K A first kind list respectively corresponds described K candidate running time-frequency resource subset；The location dependent information of the first terminal with First list is related, the first list be in the K first kind list one of；The position phase of the first terminal It closes information and be used to determine that the first list, the first list are used for from the K from the K first kind list The first running time-frequency resource subset is determined in candidate running time-frequency resource subset.

As one embodiment, the above-mentioned network equipment that be used to wirelessly communicate is characterized in that, the first time-frequency money All running time-frequency resources for being used for transmission paging information of the corresponding network equipment of source set.

As one embodiment, the above-mentioned network equipment that be used to wirelessly communicate is characterized in that, first transmitter Module also sends third information；The third information is used for determining the first running time-frequency resource set and second time-frequency money At least described first running time-frequency resource set in the subset of source.

As one embodiment, the above-mentioned user equipment that be used to wirelessly communicate is characterized in that, the first time-frequency money Source set includes K candidate running time-frequency resource subset, and the first running time-frequency resource subset is in described K candidate running time-frequency resource subset One of；The first running time-frequency resource set is related with first antenna port, the location dependent information of the first terminal It is used to determine the first running time-frequency resource subset from described K candidate running time-frequency resource subset.

It is compared as one embodiment with traditional scheme, the application has following advantage:

- is by establishing connection for the location dependent information of the user equipment and the first running time-frequency resource subset. The corresponding all running time-frequency resources for being used for transmission paging information in a base station NTN of the first running time-frequency resource set, and user equipment Paging information only is received on portion of time frequency resources relevant to oneself location, avoids the base station NTN because of service user Caused by number is excessive the problem of paging collision.

User equipment described in-is not needed to monitor on the running time-frequency resource of all transmission paging informations of a base station NTN and be sought Information is exhaled, the power consumption of user equipment is reduced.

First running time-frequency resource set described in-is divided into K candidate running time-frequency resource subset, the first running time-frequency resource subset Be in described K candidate running time-frequency resource subset one of, the position of the first running time-frequency resource subset and received user equipment It is information-related；By the above-mentioned means, by being used to send the running time-frequency resource of paging information according to user equipment in a base station NTN Geographical location is grouped；And then paging efficiency is improved, while being also conducive to the tracking to user equipment.

Second running time-frequency resource subset described in-is the rollback scheme for the first running time-frequency resource subset, to guarantee to work as institute It states when user equipment does not obtain the location dependent information correctly and still is able to receive paging information.

Detailed description of the invention

By reading referring to the detailed description of non-limiting embodiments in the following drawings, other spies of the application Sign, objects and advantages will become more apparent:

Fig. 1 shows the flow chart of first wireless signal of one embodiment according to the application；

Fig. 2 shows the schematic diagrames according to the network architecture of one embodiment of the application；

Fig. 3 shows the reality of the radio protocol architecture of the user plane and control plane according to one embodiment of the application Apply the schematic diagram of example；

Fig. 4 shows the schematic diagram of enode and UE according to one embodiment of the application；

Fig. 5 shows the flow chart of the first information of one embodiment according to the application；

Fig. 6 is shown according to the first running time-frequency resource set of one embodiment of the application and the first running time-frequency resource The schematic diagram of the relationship of collection；

Fig. 7 shows the first running time-frequency resource set and the first running time-frequency resource of another embodiment according to the application The schematic diagram of the relationship of subset；

Fig. 8 shows a user equipment, the network equipment letter related to the position of the user equipment according to the application The schematic diagram of breath；

Fig. 9 shows the structural block diagram for the processing unit in user equipment of one embodiment according to the application；

Figure 10 shows the structural block diagram for the processing unit in the network equipment of one embodiment according to the application.

Figure 11 shows the first antenna port according to one embodiment of the application and the pass of the first running time-frequency resource set The schematic diagram of system.

Specific embodiment

It is described in further detail below in conjunction with technical solution of the attached drawing to the application, it should be noted that do not rushing In the case where prominent, the feature in embodiments herein and embodiment can be arbitrarily combined with each other.

Embodiment 1

Embodiment 1 illustrates the flow chart of the first wireless signal, as shown in Fig. 1.

In embodiment 1, when the user equipment in the application determines first first from the first running time-frequency resource set Frequency subset of resources, then in sub- the first wireless signal of Centralizing inspection of the first running time-frequency resource；The position correlation of the user equipment is believed Breath is used for from the first running time-frequency resource set the determining first running time-frequency resource subset, and first wireless signal includes Page relevant information.

As a sub- embodiment, the first running time-frequency resource set includes K candidate running time-frequency resource subset, and described first Running time-frequency resource subset be in described K candidate running time-frequency resource subset one of, the K is greater than 1 positive integer.

As a sub- embodiment, the first running time-frequency resource set includes Q1 RE, the first running time-frequency resource subset Including Q2 RE, the Q2 RE is the subset of the Q1 RE；The RE frequency domain occupy a subcarrier, the RE when Domain occupies a multicarrier symbol.

As a sub- embodiment, the location dependent information of the user equipment with the longitude of the user equipment, The latitude of the user equipment } at least one of it is related.

As a sub- embodiment, the location dependent information of the user equipment is related with the mark of target BS.

As an accompanying Examples of the sub- embodiment, the mark of the target BS is a TAC (Tracking Area Code, Tracking Area Code).

As an accompanying Examples of the sub- embodiment, the mark of the target BS is a TAI (Tracking Area Identity, tracing area mark).

As an accompanying Examples of the sub- embodiment, the mark of the target BS is a LAC (Location Area Code, location area code).

As an accompanying Examples of the sub- embodiment, the mark of the target BS is a LAI (Location Area Identity, location area).

As an accompanying Examples of the sub- embodiment, the mark of the target BS is a CGI (Cell Global Identity, cellular global identity).

As an accompanying Examples of the sub- embodiment, the mark of the target BS is an eNB ID (base station mark Know).

As an accompanying Examples of the sub- embodiment, the mark of the target BS is a PCI (Physical Cell Identity, Physical Cell Identifier).

As an accompanying Examples of the sub- embodiment, the target BS is to provide service for the user equipment Ground base station.

As an accompanying Examples of the sub- embodiment, the user equipment simultaneously with the target BS and described the The sender of one wireless signal keeps connection.

As an example of the accompanying Examples, the sender of first wireless signal is the base station NTN.

As an accompanying Examples of the sub- embodiment, the target BS sends first wireless signal.

As a sub- embodiment, first wireless signal includes a DCI (Downlink Control Information, Downlink Control Information), the DCI be used to configure the paging relevant information.

As a sub- embodiment, first wireless signal includes a PDSCH (Physical Downlink SharedChannel, physical layer descending share channel), the PDSCH be used to transmit the paging relevant information.

As a sub- embodiment, first wireless signal includes a DL-SCH (Downlink Shared Channel, DSCH Downlink Shared Channel), the DL-SCH be used to transmit the paging relevant information.

As a sub- embodiment, the user identifier of the user equipment is related with the first running time-frequency resource subset.

As an accompanying Examples of the sub- embodiment, the user identifier is { S-TMSI (SAE Temporary Mobile Subscriber Identity, SAE temporary mobile subscriber identity), IMSI at least one of；Wherein SAE (System Architecture Evolution) is System Architecture Evolution.

As an accompanying Examples of the sub- embodiment, the paging relevant information passes in object time unit set Defeated, the object time unit set belongs to the occupied time-domain resource of the first running time-frequency resource subset, the user identifier It is used to determine the object time unit set from the occupied time-domain resource of the first running time-frequency resource subset.

As an example of the accompanying Examples, the object time unit set is when time domain occupies positive integer Gap.

As a sub- embodiment, the base station NTN in the application be located at GEO satellite, LEO satellite, HEO satellite, Airborne Platform } in one of on base station.

As a sub- embodiment, the sender of first wireless signal voluntarily determines the first running time-frequency resource set The position of occupied running time-frequency resource.

Embodiment 2

Embodiment 2 illustrates the schematic diagram of the network architecture, as shown in Fig. 2.

Embodiment 2 illustrates the schematic diagram of a network architecture according to the application, as shown in Fig. 2.Fig. 2 is to illustrate NR 5G, LTE (Long-Term Evolution, long term evolution) and LTE-A (Long-Term Evolution Advanced, Enhance long term evolution) System Network Architecture 200 figure.NR 5G or LTE network framework 200 can be described as EPS (Evolved Packet System, evolved packet system) 200 some other suitable terms.EPS 200 may include one or more UE (User Equipment, user equipment) 201, NG-RAN (Next-Generation enters network) 202, EPC (Evolved Packet Core, evolution block core)/5G-CN (5G-Core Network, 5G core net) 210, HSS (Home Subscriber Server, home signature user server) 220 and Internet service 230.EPS can with other access of internet interlock, but for letter It is single not show these entity/interfaces.As shown, EPS provides packet-switched services, however those skilled in the art will be easy Understand, each conception of species presented through the application, which extends to, provides the network or other cellular networks of circuit switched service.NG- RAN includes NR node (gNB) 203 and other NR nodes (gNB) 204.GNB203 provides user and control plane towards UE201 Agreement terminates.GNB203 is connected to other gNB204 via Xn interface (for example, backhaul).GNB203 and gNB204 are alternatively referred to as base It stands, base transceiver station, radio base station, radio transceiver, transceiver function, set of basic (BSS), extended service set Close (ESS), TRP (transmitting and receiving point) or some other suitable term.GNB203 is provided for UE201 and is connect to EPC/5G-CN210 Access point.The example of UE201 includes cellular phone, smart phone, session initiation protocol (SIP) phone, laptop computer, a Personal digital assistant (PDA), satelline radio, non-ground network base station communication, satellite mobile communication, global positioning system, more matchmakers Body device, video-unit, digital audio-frequency player (for example, MP3 player), camera, game console, unmanned plane, aircraft, Narrowband Physical Network equipment, machine type communication device, land craft, automobile, wearable device or any other like function It can device.UE201 can also be known as mobile station, subscriber stations, mobile unit, subscriber unit, wireless by those skilled in the art Unit, remote unit, mobile device, wireless device, wireless communication device, remote-control device, mobile subscriber stations, access terminal, shifting Dynamic terminal, wireless terminal, remote terminal, hand-held set, user agent, mobile client, client or some other suitable term. GNB203 is connected to EPC/5G-CN210 by S1/NG interface.EPC/5G-CN210 includes MME/AMF/UPF 211, other MME (Mobi lity Management Entity, mobility management entity)/AMF (Authentication Management Field, authentication management field)/UPF (User Plane Function, user-plane function) 214, S-GW (Service Gateway, gateway) 212 and P-GW (Packet Date Network Gateway, grouped data network gateway) 213.MME/AMF/UPF211 is the control node for handling the signaling between UE201 and EPC/5G-CN210.Generally, MME/ AMF/UPF211 provides carrying and connection management.All User IP (Internet Protocal, Internet Protocol) packets are to pass through S-GW212 transmission, S-GW212 are itself coupled to P-GW213.P-GW213 provides the distribution of UE IP address and other functions.P- GW213 is connected to Internet service 230.Internet service 230 includes that operator corresponds to the Internet protocol service, specifically may include Internet, Intranet, IMS (IP Multimedia Subsystem, IP multimedia subsystem) and PS streaming service (PSS).

As a sub- embodiment, the UE201 corresponds to the user equipment in the application.

As a sub- embodiment, the gNB203 corresponds to the network equipment in the application.

As a sub- embodiment, the UE201 supports non-ground network wireless communication.

As a sub- embodiment, the UE201 directly passes through inserting of satellite NR 5G network.

As a sub- embodiment, the first information in the application is generated by MME, and is sent by the gNB203 To the UE201.

As an accompanying Examples of the sub- embodiment, the first information is transparent to the gNB203 (Transparent)。

As a sub- embodiment, second information in the application is generated by MME, and is sent by the gNB203 To the UE201.

As an accompanying Examples of the sub- embodiment, second information is transparent to the gNB203.

Embodiment 3

Embodiment 3 shows the embodiment of the radio protocol architecture of the user plane and control plane according to the application Schematic diagram, as shown in Fig. 3.

Attached drawing 3 is schematic diagram of the explanation for the embodiment of user plane and the radio protocol architecture for controlling plane, Fig. 3 The radio protocol architecture for being used for user equipment (UE) and base station equipment (gNB or eNB): layer 1, layer 2 and layer is shown with three layers 3.1 (L1 layers) of layer are lowermost layers and implement various PHY (physical layer) signal processing functions.L1 layers are referred to as PHY301 herein. 2 (L2 layers) 305 of layer are responsible for passing through link of the PHY301 between UE and gNB on PHY301.In user plane, L2 Layer 305 includes MAC (Medium Access Control, media access control) sublayer 302, RLC (Radio Link Control, radio link layer control protocol) sublayer 303 and PDCP (Packet Data Convergence Protocol, point Group data convergence protocol) sublayer 304, these sublayers terminate at the gNB on network side.Although it is not shown, but UE can have Several upper layers on L2 layer 305, including terminating at the network layer (for example, IP layers) at the P-GW on network side and terminating at Application layer at the other end (for example, distal end UE, server etc.) of connection.PDCP sublayer 304 provides different radio carrying Multiplexing between logic channel.PDCP sublayer 304 provides the header compressed for upper layer data packet also to reduce nothing Line electricity emits expense, provides safety by encrypted packet, and the handover to UE provided between gNB is supported. Rlc sublayer 303 provide upper layer data packet Segmentation and Reassembly dress, lost data packets re-emit and the rearrangement of data packet Sequence is to compensate the received out-of-order as caused by HARQ.Media access control sublayer 302 provides the multiplexing between logical AND transport channel.MAC Sublayer 302 is also responsible for the various radio resources (for example, resource block) distributed in a cell between UE.Media access control sublayer 302 is also It is responsible for HARQ operation.In the control plane, for the radio protocol architecture of UE and gNB for physical layer 301 and L2 layer 305 Say it is substantially the same, but not for controlling the header compressed function of plane.Control plane further includes the RRC in layer 3 (L3 layers) (Radio Resource Control, radio resource control) sublayer 306.RRC sublayer 306 is responsible for obtaining radio resource (that is, radio bearer) and lower layer is configured using the RRC signaling between gNB and UE.

The user equipment of the radio protocol architecture suitable for the application as a sub- embodiment, in attached drawing 3.

The network equipment of the radio protocol architecture suitable for the application as a sub- embodiment, in attached drawing 3.

As a sub- embodiment, the first information in the application is created on the RRC sublayer 306.

As a sub- embodiment, second information in the application is created on the RRC sublayer 306.

As a sub- embodiment, at least one of { first information, affiliated second information } in the application is NAS (Non-access Stratum, Non-Access Stratum) information.

Embodiment 4

Embodiment 4 shows the schematic diagram of a given base station equipment and user equipment according to the application, such as 4 institute of attached drawing Show.The network equipment in the application corresponds to the given base station equipment, and Fig. 4 is to communicate within the access network with UE450 The block diagram of gNB410.

Base station equipment (410) includes controller/processor 440, and memory 430 receives processor 412, transmited processor 415, paging processor 471, emitter/receiver 416 and antenna 420.

User equipment (450) includes controller/processor 490, memory 480, data source 467, transmited processor 455, Receive processor 452, paging processor 441, emitter/receiver 456 and antenna 460.

In downlink transfer, related processing includes: with base station equipment (410)

Controller/processor 440, upper layer packet reach, and controller/processor 440 provides Header compression, encryption, packet segmentation Connect and reorder and logical and transport channel between multiplexing demultiplexing, it is flat for user plane and control to implement The L2 layer protocol in face；It may include data or control information, such as DL-SCH (Downlink Shared in the packet of upper layer Channel, DSCH Downlink Shared Channel)；

Controller/processor 440, associated with the memory 430 of storage program code and data, memory 430 can be with For computer-readable media；

Controller/processor 440, including scheduling unit, with transmission demand, scheduling unit is for dispatching and transmission demand pair The interface-free resources answered；

Paging processor 471 determines at least one of { first information, second information }, determines the first running time-frequency resource collection It closes and the second running time-frequency resource subset；And send the result to controller/processor 440；

Transmited processor 415 receives the output bit flow of controller/processor 440, implements to be used for L1 layers (i.e. physical layer) Various signals transmitting processing function include coding, interweave, scrambling, modulation, power control/distribution and physical layer control signaling (including PBCH, PDCCH, PHICH, PCFICH, reference signal) generation etc.；

Transmitter 416, the baseband signal for providing transmited processor 415 are converted into radiofrequency signal and via antennas 420 launch；Each transmitter 416 carries out sampling processing to respective input symbol stream and obtains respective sampled signal stream. Each transmitter 416 is further processed (such as digital-to-analogue conversion, amplify, filtering, up-conversion etc.) to respective sample streams and obtains To downlink signal.

In downlink transfer, related processing may include: with user equipment (450)

Receiver 456 is supplied to reception processing for that will be converted into baseband signal by the received radiofrequency signal of antenna 460 Device 452；

Receive processor 452, implement for L1 layer (that is, physical layer) various signals receive processing function include decode, Deinterleaving, descrambling, the extraction of demodulation physical layer control signaling etc.；

Paging processor 441, the first running time-frequency resource subset of determination from the first running time-frequency resource set, and when determination second Frequency subset of resources；And send the result to controller/processor 490.

Controller/processor 490 receives the bit stream that processor 452 exports, and provides packet header decompression, decryption, packet Segmentation connection and reorder and logical and transport channel between multiplexing demultiplexing, to implement for user plane and control The L2 layer protocol of plane processed；

Controller/processor 490 is associated with the memory 480 of storage program code and data.Memory 480 can be Computer-readable media.

As a sub- embodiment, the UE450 device includes: at least one processor and at least one processor, At least one processor includes computer program code；At least one processor and the computer program code quilt Be configured to be used together at least one described processor, the UE450 device at least: from the first running time-frequency resource set determine First running time-frequency resource subset, and in sub- the first wireless signal of Centralizing inspection of the first running time-frequency resource；The position of the UE450 is related Information be used to determine the first running time-frequency resource subset, the first wireless signal packet from the first running time-frequency resource set Include paging relevant information.

As a sub- embodiment, the UE450 includes: a kind of memory for storing computer-readable instruction program, institute It states the generation when being executed by least one processor of computer-readable instruction program to act, the movement includes: from the first time-frequency The first running time-frequency resource subset is determined in resource collection, and in sub- the first wireless signal of Centralizing inspection of the first running time-frequency resource；It is described The location dependent information of UE450 be used to determine the first running time-frequency resource subset, institute from the first running time-frequency resource set Stating the first wireless signal includes paging relevant information.

As a sub- embodiment, the gNB410 device includes: at least one processor and at least one processor, At least one processor includes computer program code；At least one processor and the computer program code quilt It is configured to be used together at least one described processor.The gNB410 device is at least: from the first running time-frequency resource set really Fixed first running time-frequency resource subset；And the first wireless signal is sent in the first running time-frequency resource subset, or provide in the second time-frequency The first wireless signal is sent in the subset of source；The first running time-frequency resource set includes the first running time-frequency resource subset, and described The recipient of one wireless signal includes the UE450, and the location dependent information of the UE450 be used to provide from first time-frequency The first running time-frequency resource subset is determined in the set of source, first wireless signal includes paging relevant information.

As a sub- embodiment, the gNB410 includes: a kind of memory for storing computer-readable instruction program, institute It states the generation when being executed by least one processor of computer-readable instruction program to act, the movement includes: from the first time-frequency The first running time-frequency resource subset is determined in resource collection；And the first wireless signal is sent in the first running time-frequency resource subset, or The first wireless signal is sent in the second running time-frequency resource subset；The first running time-frequency resource set includes first running time-frequency resource Subset, the recipient of first wireless signal include the UE450, and the location dependent information of the UE450 is used for from institute It states and determines the first running time-frequency resource subset in the first running time-frequency resource set, first wireless signal includes the related letter of paging Breath.

As a sub- embodiment, UE450 corresponds to the user equipment in the application.

As a sub- embodiment, gNB410 corresponds to the network equipment in the application.

As a sub- embodiment, receiver 456, receive in processor 452 and controller/processor 490 at least before The two be used to receive at least one of described { first information, second information } in the application.

As a sub- embodiment, receiver 456, receive in processor 452 and controller/processor 490 at least before The two is used in sub- the first wireless signal of Centralizing inspection of the first running time-frequency resource.

As a sub- embodiment, receiver 456, receive in processor 452 and controller/processor 490 at least before The two is used in sub- the first wireless signal of Centralizing inspection of the second running time-frequency resource.

As a sub- embodiment, at least one of paging processor 441 and controller/processor 490 be used for from The first running time-frequency resource subset is determined in first running time-frequency resource set.

As a sub- embodiment, at least one of paging processor 441 and controller/processor 490 are used for really Fixed second running time-frequency resource subset.

As a sub- embodiment, in transmitter 416, transmited processor 415 and controller/processor 440 at least before The two be used to send at least one of described { first information, second information } in the application.

As a sub- embodiment, in transmitter 416, transmited processor 415 and controller/processor 440 at least before The two be used to send the first wireless signal in the first running time-frequency resource subset.

As a sub- embodiment, in transmitter 416, transmited processor 415 and controller/processor 440 at least before The two be used to send the first wireless signal in the second running time-frequency resource subset.

As a sub- embodiment, at least one of paging processor 471 and controller/processor 440 be used to match Set in { the first running time-frequency resource set, the first running time-frequency resource subset } at least the former.

As a sub- embodiment, at least one of paging processor 471 and controller/processor 440 are used for really Fixed second running time-frequency resource subset.

As a sub- embodiment, at least one of paging processor 471 and controller/processor 440 are used for really At least one of fixed { first information, second information }.

Embodiment 5

Embodiment 5 illustrates the flow chart of a first information, as shown in Fig. 5.In figure 5, base station N1 is user The maintenance base station of the serving cell of equipment U2, the step of F0, F1 and F2 are identified in figure are optional；The base station N1 corresponds to this Shen Please in the network equipment.

ForBase station N1, third information is sent in step slo；The first information is sent in step s 11；In step S12 Send the second information；The first running time-frequency resource subset is determined from the first running time-frequency resource set in step s 13；In step S14 Determine the second running time-frequency resource subset；The first wireless signal is sent in the first running time-frequency resource subset in step S15, or The first wireless signal is sent in two running time-frequency resource subsets.

ForUser equipment U2, third information is received in step S20；The first information is received in the step s 21；In step S22 receives the second information；The first running time-frequency resource subset is determined from the first running time-frequency resource set in step S23；In step S24 Middle the second running time-frequency resource of determination subset；In step s 25 in sub- the first wireless signal of Centralizing inspection of the first running time-frequency resource；In step The first wireless signal described in the sub- Centralizing inspection of the second running time-frequency resource in S26.

In embodiment 5, the location dependent information of the user equipment U2 is used for from the first running time-frequency resource set Middle determination the first running time-frequency resource subset, first wireless signal include paging relevant information；Second running time-frequency resource Subset is unrelated with the location dependent information of the user equipment U2；The first information is used for determining the user equipment The location dependent information of U2；Second information indicates K first kind list, and the first running time-frequency resource set includes K A candidate's running time-frequency resource subset, the first running time-frequency resource subset be in the K candidate running time-frequency resource subset one of, it is described K first kind list respectively corresponds described K candidate running time-frequency resource subset；The location dependent information of the user equipment U2 It is related with first list, the first list be in the K first kind list one of；Institute's rheme of the user equipment U2 It sets relevant information and be used to determine that the first list, the first list are used for from institute from the K first kind list It states in K candidate running time-frequency resource subset and determines the first running time-frequency resource subset；Described in the first running time-frequency resource set is corresponding Base station N1 all running time-frequency resources for being used for transmission paging information；The third information is used for determining first running time-frequency resource At least described first running time-frequency resource set in set and the second running time-frequency resource subset.

As a sub- embodiment, the second running time-frequency resource subset belongs to the first running time-frequency resource set.

As a sub- embodiment, when the occupied time-domain resource of the second running time-frequency resource subset is with the K candidate The occupied time-domain resource of frequency subset of resources is orthogonal.

As a sub- embodiment, when the occupied frequency domain resource of the second running time-frequency resource subset is with the K candidate The occupied frequency domain resource of frequency subset of resources is orthogonal.

As a sub- embodiment, first wireless signal includes all pagings correlation that the user equipment U2 needs Information, the user equipment U2 do not monitor the paging phase in first time window in the first running time-frequency resource subset Close information, the user equipment U2 first wireless signal described in the sub- Centralizing inspection of the second running time-frequency resource.

As an accompanying Examples of the sub- embodiment, the first time window includes the continuous millisecond of positive integer.

As an accompanying Examples of the sub- embodiment, the duration of the first time window is fixed, or The duration of the first time window is configured by high-level signaling.

As a sub- embodiment, { IMSI, the S-TMSI } of the second running time-frequency resource subset and the user equipment U2 In one of it is related.

As a sub- embodiment, the second running time-frequency resource subset and the DRX configuration information of the user equipment U2 have It closes.

As a sub- embodiment, the location dependent information is { longitude, the user equipment of the user equipment U2 At least one of the latitude of U2 }.

As a sub- embodiment, the first information is sent by the base station N1.

As a sub- embodiment, the first information is sent by the target BS in the application.

As a sub- embodiment, the first information include the target BS in the application TAC, TAI, At least one of CGI, PCID }.

As a sub- embodiment, the first kind list includes M mark, and the M is positive integer.

As an accompanying Examples of the sub- embodiment, it is described mark be in { TAI, TAC, CGI, PCI } one of.

As an accompanying Examples of the sub- embodiment, the M is equal to 1.

As a sub- embodiment, base station corresponding to the first kind list is the base station NTN.

As a sub- embodiment, the corresponding MME of the user equipment U2 by the base station N1 will described in { described first Information, second information } at least one of be sent to the user equipment U2.

As an accompanying Examples of the sub- embodiment, the first information is transparent for the base station N1.

As an accompanying Examples of the sub- embodiment, second information is transparent for the base station N1.

As a sub- embodiment, the first running time-frequency resource set corresponds to that the base station N1 is all to be used for transmission The running time-frequency resource of paging information refers to: only relevant information is paged in transmission to the base station N1 in the first running time-frequency resource set, And the base station N1 will not transmit paging relevant information in the running time-frequency resource except the first running time-frequency resource set.

As a sub- embodiment, the first running time-frequency resource set corresponds to that the base station N1 is all to be used for transmission The running time-frequency resource of paging information refers to: only being supervised in the first running time-frequency resource set by the base station N1 all terminals serviced The paging relevant information from the base station N1 is listened, and all terminals will not supervise except the first running time-frequency resource set Listen the paging relevant information from the base station N1.

As a sub- embodiment, the first running time-frequency resource set includes K candidate running time-frequency resource subset, and described first Running time-frequency resource subset be in described K candidate running time-frequency resource subset one of；The first running time-frequency resource set and first antenna Port is related, and the location dependent information of the user equipment U2 is used for from described K candidate running time-frequency resource subset really The fixed first running time-frequency resource subset.

As an accompanying Examples of the sub- embodiment, the base station N1 includes M1 first kind antenna port, described First antenna port is a first kind antenna port in the M1 first kind antenna port, and the M1 is positive integer.

As an example of the accompanying Examples, the M1 first kind antenna port corresponds to the first time-frequency money Source set.

As an example of the accompanying Examples, when the M1 first kind antenna port respectively corresponds the M1 first kind Frequency resource collection, the first running time-frequency resource set be in the M1 first kind running time-frequency resource set with the first antenna end The corresponding first kind running time-frequency resource set of mouth.

As an accompanying Examples of the sub- embodiment, the first running time-frequency resource set and first antenna port In relation to referring to: belonging to described first by the occupied running time-frequency resource of paging relevant information that the first antenna port is sent Running time-frequency resource set.

As an accompanying Examples of the sub- embodiment, the first running time-frequency resource set and first antenna port Related to refer to: the user equipment U2 receives parameter by given space and receives given synchronization on the first antenna port Signal or given broadcast singal, the user equipment U2 receive parameter group by the given space and provide in first time-frequency Source collection closes the paging relevant information that detection is directed to the user equipment U2.

As an accompanying Examples of the sub- embodiment, the corresponding base station N1 in the first antenna port is sent SSB (Synchronization Signal Block, synchronization signal block) or corresponding one of the first antenna port CSI-RS (Channel State Information Reference Signal, channel state information reference signals).

As a sub- embodiment, the third information is used for determining the first running time-frequency resource set and described At least described first running time-frequency resource set in second running time-frequency resource subset refers to: the third information is used to indicate that described The position of the one occupied running time-frequency resource of time-frequency resource collection.

As a sub- embodiment, the third information is used for determining the first running time-frequency resource set and described At least described first running time-frequency resource set in second running time-frequency resource subset refers to: the third information is used to indicate that the K The position of any one occupied running time-frequency resource of candidate running time-frequency resource set in a candidate's running time-frequency resource set.

As a sub- embodiment, the third information is used for determining the first running time-frequency resource set and described At least described first running time-frequency resource set in second running time-frequency resource subset refers to: the third information is used to indicate that described The position of the two occupied running time-frequency resources of running time-frequency resource subset.

As a sub- embodiment, the third information is used for determining the first running time-frequency resource set and described At least described first running time-frequency resource set in second running time-frequency resource subset refers to: the third information is used to indicate that described The position of the occupied running time-frequency resource of two running time-frequency resource subsets and the occupied running time-frequency resource of the second running time-frequency resource subset.

Embodiment 6

Embodiment 6 shows the signal of the relationship of the first running time-frequency resource set and the first running time-frequency resource subset Figure；As shown in Fig. 6.In figure 6, the first running time-frequency resource set includes K candidate running time-frequency resource subset, is respectively corresponded Candidate running time-frequency resource subset #1 to candidate running time-frequency resource subset #K；The first running time-frequency resource subset is described K candidate time-frequency One of in subset of resources；Described K candidate running time-frequency resource subset is orthogonal on frequency domain；User mark in the application Knowledge be used to determine object time unit set, the user from time-domain resource corresponding to the first running time-frequency resource subset Equipment monitors the first wireless signal described herein in the object time unit set；Solid wire frame pair shown in figure Answer the object time unit set.

As a sub- embodiment, the K candidate running time-frequency resource subset respectively with the K first kind in the application List corresponds.

As a sub- embodiment, the first running time-frequency resource subset occupies K1 the second class time windows in time domain, described K1 the second class time windows are discrete in time domain.

As an accompanying Examples of the sub- embodiment, the second class time window occupies continuous K2 time slot, institute State the DRX cycle that continuous K2 time slot is equal to the user equipment in the duration of time domain.

As an example of the accompanying Examples, the user equipment is only on K3 time slot in the K2 time slot First wireless signal is monitored, the user identifier be used to determine the K3 time slot from the K2 time slot.

As a special case of the example, the K3 is equal to 1.

As a special case of the example, the K3 is equal to, and the K3 time slot corresponds to the user at described K2 A PO in gap.

Embodiment 7

Embodiment 7 shows the signal of the relationship of the first running time-frequency resource set and the first running time-frequency resource subset Figure；As shown in Fig. 7.In fig. 7, the first running time-frequency resource set includes K candidate running time-frequency resource subset, is respectively corresponded Candidate running time-frequency resource subset #1 to candidate running time-frequency resource subset #K；The first running time-frequency resource subset is described K candidate time-frequency One of in subset of resources；Described K candidate running time-frequency resource subset is orthogonal in the time domain；User mark in the application Knowledge be used to determine object time unit set, the user from time-domain resource corresponding to the first running time-frequency resource subset Equipment monitors the first wireless signal described herein in the object time unit set；Solid wire frame pair shown in figure Answer the object time unit set.

As a sub- embodiment, the K candidate running time-frequency resource subset respectively with the K first kind in the application List corresponds.

As a sub- embodiment, the first running time-frequency resource subset occupies K1 the second class time windows in time domain, described K1 the second class time windows are discrete in time domain.

As an accompanying Examples of the sub- embodiment, the second class time window occupies continuous K2 time slot, institute State the DRX cycle that continuous K2 time slot is equal to the user equipment in the duration of time domain.

As an example of the accompanying Examples, the user equipment is only on K3 time slot in the K2 time slot First wireless signal is monitored, the user identifier be used to determine the K3 time slot from the K2 time slot.

As a special case of the example, the K3 is equal to 1.

As a special case of the example, the K3 is equal to, and the K3 time slot corresponds to the user at described K2 A PO in gap.

Embodiment 8

Embodiment 8 illustrates the signal of the location dependent information of a user equipment, the network equipment and the user equipment Figure, as shown in Fig. 8.In attached drawing 8, the network equipment is a NTN equipment, and the overlay area of the NTN equipment is divided At K candidate region；The location dependent information of the user equipment be used to confirm the user from the K candidate region Equipment is located at target area shown in figure, the target area be in the K candidate region one of.

As a sub- embodiment, the K candidate region is sub with described K candidate running time-frequency resource in the application respectively Collection corresponds, and the target area is corresponding with the first running time-frequency resource subset.

As a sub- embodiment, the K candidate region respectively with the K first kind list in the application one by one Corresponding, the target area is corresponding with the first list.

As a sub- embodiment, the corresponding TA (Tracking Area, trace interval) in the candidate region.

As a sub- embodiment, the corresponding TAC or TAI in the candidate region.

As a sub- embodiment, the candidate region corresponds to the overlay area of positive integer ground base station.

Embodiment 9

Embodiment 9 illustrates the structural block diagram of the processing unit in a UE, as shown in Fig. 9.In attached drawing 9, UE processing Device 900 is mainly made of the first receiver module 901 and the second receiver module 902.

First receiver module 901 determines the first running time-frequency resource subset from the first running time-frequency resource set；

Second receiver module 902, in sub- the first wireless signal of Centralizing inspection of the first running time-frequency resource；

In embodiment 9, the location dependent information of the UE is used for from the first running time-frequency resource set described in determination First running time-frequency resource subset, first wireless signal include paging relevant information.

As a sub- embodiment, the also determining second running time-frequency resource subset of first receiver module 901, described second Also the first wireless signal described in the sub- Centralizing inspection of the second running time-frequency resource of receiver module 902；The second running time-frequency resource subset It is unrelated with the location dependent information of the UE.

As a sub- embodiment, first receiver module 901 also receives the first information；The first information by with In the location dependent information for determining the UE.

As a sub- embodiment, first receiver module 901 also receives the second information；The second information instruction K first kind list, the first running time-frequency resource set include K candidate running time-frequency resource subset, the first running time-frequency resource Collection be in described K candidate running time-frequency resource subset one of, the K first kind list respectively corresponds the K candidate time-frequency Subset of resources；The location dependent information of the UE is related with first list, and the first list is the K first kind column One of in table；The location dependent information of the UE be used to determine the first row from the K first kind list Table, the first list be used to determine the first running time-frequency resource subset from described K candidate running time-frequency resource subset.

As a sub- embodiment, the sender that the first running time-frequency resource set corresponds to first wireless signal is all The running time-frequency resource for being used for transmission paging information.

As a sub- embodiment, first receiver module 901 also receives third information；The third information by with In determining at least described first running time-frequency resource set in the first running time-frequency resource set and the second running time-frequency resource subset.

As a sub- embodiment, the first running time-frequency resource set includes K candidate running time-frequency resource subset, and described first Running time-frequency resource subset be in described K candidate running time-frequency resource subset one of；The first running time-frequency resource set and first antenna Port is related, and the location dependent information of the user equipment be used to determine from described K candidate running time-frequency resource subset The first running time-frequency resource subset.

As a sub- embodiment, first receiver module 901 includes { receiver, reception processing in embodiment 4 Device 452, paging processor 441, controller/processor 490 } at least former three.

As a sub- embodiment, second receiver module 902 includes { receiver 456, reception in embodiment 4 Processor 452, controller/processor 490 } at least the above two.

Embodiment 10

Embodiment 10 illustrates the structural block diagram of the processing unit in a network equipment, as shown in Fig. 10.Attached drawing 10 In, network device processing device 1000 is mainly made of the first transmitter module 1001 and the second transmitter module 1002.

First transmitter module 1001 determines the first running time-frequency resource subset from the first running time-frequency resource set；

Second transmitter module 1002 sends the first wireless signal in the first running time-frequency resource subset, or at second The first wireless signal is sent in frequency subset of resources；

In embodiment 10, the first running time-frequency resource set includes the first running time-frequency resource subset, and described first is wireless The recipient of signal includes first terminal, and the location dependent information of the first terminal is used for from the first running time-frequency resource collection The first running time-frequency resource subset is determined in conjunction, first wireless signal includes paging relevant information.

As a sub- embodiment, first transmitter module 1001 also determines the second running time-frequency resource subset；Described Two running time-frequency resource subsets are unrelated with the location dependent information of the first terminal.

As a sub- embodiment, first transmitter module 1001 also sends the first information；The first information quilt For determining the location dependent information of the first terminal.

As a sub- embodiment, first transmitter module 1001 also sends the second information；Second information refers to Show K first kind list, the first running time-frequency resource set includes K candidate running time-frequency resource subset, first running time-frequency resource Subset be in described K candidate running time-frequency resource subset one of, when the K first kind list respectively corresponds the K candidate Frequency subset of resources；The location dependent information of the first terminal is related with first list, and the first list is the K One of in first kind list；The location dependent information of the first terminal is used for from the K first kind list The first list is determined, when the first list be used to determine described first from described K candidate running time-frequency resource subset Frequency subset of resources.

As a sub- embodiment, the first running time-frequency resource set corresponds to all being used for transmission of the network equipment and seeks Exhale the running time-frequency resource of information.

As a sub- embodiment, first transmitter module also sends third information；The third information is used for Determine at least described first running time-frequency resource set in the first running time-frequency resource set and the second running time-frequency resource subset.

As a sub- embodiment, the first running time-frequency resource set includes K candidate running time-frequency resource subset, and described first Running time-frequency resource subset be in described K candidate running time-frequency resource subset one of；The first running time-frequency resource set and first antenna Port is related, and the location dependent information of the first terminal be used to determine from described K candidate running time-frequency resource subset The first running time-frequency resource subset.

As a sub- embodiment, first transmitter module 1001 includes { transmitter 416, transmitting in embodiment 4 Processor 415, paging processor 471, controller/processor 440 } at least former three.

As a sub- embodiment, second transmitter module 1002 includes { transmitter 416, transmitting in embodiment 4 Processor 415, controller/processor 440 } at least the former two.

As a sub- embodiment, first transmitter module 1001 obtains the first information from MME, and will be described The first information is sent to the first terminal.

As an accompanying Examples of the sub- embodiment, the first information is transparent for the network equipment 1000 's.

As an accompanying Examples of the sub- embodiment, the network equipment 1000 is that the service of the first terminal is small The maintenance base station in area.

As a sub- embodiment, first transmitter module 1001 obtains second information from MME, and will be described Second information is sent to the first terminal.

As an accompanying Examples of the sub- embodiment, second information is transparent for the network equipment 1000 's.

As an accompanying Examples of the sub- embodiment, the network equipment 1000 is that the service of the first terminal is small The maintenance base station in area.

Embodiment 11

Embodiment 11 illustrates the schematic diagram of the relationship of a first antenna port and the first running time-frequency resource set, such as attached drawing Shown in 11.In attached drawing 11, the network equipment is a NTN equipment, and the NTN equipment includes M1 first kind antenna end Mouthful, the first antenna port is a first kind antenna port in the M1 first kind antenna port；The M1 the A kind of antenna port is covered each by M1 service area；The covering area of the first antenna port is the M1 service area In the first area, first area is divided into the K candidate region in embodiment 8 again；The M1 and the K are Positive integer.

As a sub- embodiment, the user equipment receives parameter on the first antenna port by given space Given SSB or given broadcast singal are received, the user equipment receives parameter described first by the given space Detection paging relevant information in running time-frequency resource set.

As a sub- embodiment, it is any one in the M1 first kind antenna port for giving first kind antenna port A first kind antenna port gives first kind antenna port and covers given service area, and the base station passes through described given first Class antenna port sends the paging for all terminals in the given service area in the first running time-frequency resource set Relevant information.

As a sub- embodiment, the paging relevant information of the terminal device in the M1 service area is described It is transmitted in one time-frequency resource collection.

As a sub- embodiment, the user equipment is according to the first antenna port from the M1 coverage Determine the first area.

As a sub- embodiment, the user equipment is according to the location dependent information from the K candidate region Determine the target area, then the index according to the target area in the K candidate region is from first time-frequency The first running time-frequency resource subset is determined in resource collection.

Those of ordinary skill in the art will appreciate that all or part of the steps in the above method can be referred to by program Related hardware is enabled to complete, described program can store in computer readable storage medium, such as read-only memory, hard disk or light Disk etc..Optionally, one or more integrated circuit can be used also to realize in all or part of the steps of above-described embodiment.Phase It answers, each modular unit in above-described embodiment, can be realized using example, in hardware, it can also be by the form of software function module It realizes, the application is not limited to the combination of the software and hardware of any particular form.UE, terminal and UE in the application include but not It is limited to unmanned plane, the communication module on unmanned plane, telecontrolled aircraft, aircraft, baby plane, mobile phone, tablet computer, notebook, Vehicular communication equipment, wireless sensor, card of surfing Internet, internet-of-things terminal, RFID terminal, NB-IOT terminal, MTC (Machine Type Communication, machine type communication) terminal, eMTC (enhanced MTC, the MTC of enhancing) terminal, data card, Card of surfing Internet, vehicular communication equipment, inexpensive mobile phone, the equipment such as inexpensive tablet computer.Base station in the application includes but unlimited In macrocell base stations, microcell base station, Home eNodeB, relay base station, gNB (NR node B), TRP (Transmitter Receiver Point transmits and receives node), satellite base station, the wireless telecom equipments such as aerial platform base station.

The above, the only preferred embodiment of the application, are not intended to limit the protection scope of the application.It is all Within spirit herein and principle, any modification made, equivalent replacement, improve etc., it should be included in the protection of the application Within the scope of.

Claims (16)

1. a kind of method in user equipment that be used to wirelessly communicate, characterized by comprising:

The first running time-frequency resource subset is determined from the first running time-frequency resource set；

In sub- the first wireless signal of Centralizing inspection of the first running time-frequency resource；

Wherein, the location dependent information of the user equipment be used to determine described first from the first running time-frequency resource set Running time-frequency resource subset, first wireless signal include paging relevant information.

2. according to the method described in claim 1, it is characterised by comprising:

Determine the second running time-frequency resource subset；

The first wireless signal described in the sub- Centralizing inspection of the second running time-frequency resource；

Wherein, the second running time-frequency resource subset is unrelated with the location dependent information of the user equipment.

3. method described in any claim according to claim 1 or in 2, characterized by comprising:

Receive the first information；

Wherein, the first information is used for determining the location dependent information of the user equipment.

4. according to claim 1 to method described in any claim in 3, characterized by comprising:

Receive the second information；

Wherein, second information indicates K first kind list, and the first running time-frequency resource set includes K candidate time-frequency money Source subset, the first running time-frequency resource subset be in described K candidate running time-frequency resource subset one of, the K first kind arranges Table respectively corresponds described K candidate running time-frequency resource subset；The location dependent information and the first list of the user equipment have Close, the first list be in the K first kind list one of；The location dependent information of the user equipment by with In the first list determining from the K first kind list, the first list is used for from described K candidate time-frequency money The first running time-frequency resource subset is determined in the subset of source.

5. according to claim 1 to method described in any claim in 4, which is characterized in that the first running time-frequency resource collection Close all running time-frequency resources for being used for transmission paging information of the sender of corresponding first wireless signal.

6. the method according to claim 1, characterized by comprising:

Receive third information；

Wherein, the third information is used for determining in the first running time-frequency resource set and the second running time-frequency resource subset At least described first running time-frequency resource set.

7. according to claim 1 to method described in any claim in 6, which is characterized in that the first running time-frequency resource collection Closing includes K candidate running time-frequency resource subset, and the first running time-frequency resource subset is it in described K candidate running time-frequency resource subset One；The first running time-frequency resource set is related with first antenna port, the location dependent information of the user equipment by with In the determining first running time-frequency resource subset from described K candidate running time-frequency resource subset.

8. a kind of method in network equipment that be used to wirelessly communicate, characterized by comprising:

The first running time-frequency resource subset is determined from the first running time-frequency resource set；

The first wireless signal is sent in the first running time-frequency resource subset, or sends first wirelessly in the second running time-frequency resource subset Signal；

Wherein, the first running time-frequency resource set includes the first running time-frequency resource subset, the reception of first wireless signal Person includes first terminal, and the location dependent information of the first terminal be used to determine institute from the first running time-frequency resource set The first running time-frequency resource subset is stated, first wireless signal includes paging relevant information.

9. according to the method described in claim 8, it is characterised by comprising:

Determine the second running time-frequency resource subset；

Wherein, the second running time-frequency resource subset is unrelated with the location dependent information of the first terminal.

10. the method according to any claim in claim 8 or 9, characterized by comprising:

Send the first information；

Wherein, the first information is used for determining the location dependent information of the first terminal.

11. the method according to any claim in claim 8 to 10, characterized by comprising:

Send the second information；

Wherein, second information indicates K first kind list, and the first running time-frequency resource set includes K candidate time-frequency money Source subset, the first running time-frequency resource subset be in described K candidate running time-frequency resource subset one of, the K first kind arranges Table respectively corresponds described K candidate running time-frequency resource subset；The location dependent information and the first list of the first terminal have Close, the first list be in the K first kind list one of；The location dependent information of the first terminal by with In the first list determining from the K first kind list, the first list is used for from described K candidate time-frequency money The first running time-frequency resource subset is determined in the subset of source.

12. the method according to any claim in claim 8 to 11, which is characterized in that first running time-frequency resource All running time-frequency resources for being used for transmission paging information of the corresponding network equipment of set.

13. the method according to any claim in claim 8 to 12, characterized by comprising:

Send third information；

Wherein, the third information is used for determining in the first running time-frequency resource set and the second running time-frequency resource subset At least described first running time-frequency resource set.

14. the method according to any claim in claim 8 to 13, which is characterized in that first running time-frequency resource Set includes K candidate running time-frequency resource subset, and the first running time-frequency resource subset is in described K candidate running time-frequency resource subset One of；The first running time-frequency resource set is related with first antenna port, the location dependent information quilt of the first terminal For determining the first running time-frequency resource subset from described K candidate running time-frequency resource subset.

15. a kind of user equipment that be used to wirelessly communicate, characterized by comprising:

First receiver module determines the first running time-frequency resource subset from the first running time-frequency resource set；

Second receiver module, in sub- the first wireless signal of Centralizing inspection of the first running time-frequency resource；

Wherein, the location dependent information of the user equipment be used to determine described first from the first running time-frequency resource set Running time-frequency resource subset, first wireless signal include paging relevant information.

16. a kind of network equipment that be used to wirelessly communicate, characterized by comprising:

First transmitter module determines the first running time-frequency resource subset from the first running time-frequency resource set；

Second transmitter module sends the first wireless signal in the first running time-frequency resource subset, or in the second running time-frequency resource It concentrates and sends the first wireless signal；

Wherein, the first running time-frequency resource set includes the first running time-frequency resource subset, the reception of first wireless signal Person includes first terminal, and the location dependent information of the first terminal be used to determine institute from the first running time-frequency resource set The first running time-frequency resource subset is stated, first wireless signal includes paging relevant information.