WO2021184420A1 - Paging management method and related product - Google Patents

Abstract

Disclosed are a paging management method and a related product. The method comprises: when a terminal detects that a paging occasion conflict exists between a first network and a second network, sending an indication message to a base station of the second network, wherein the indication message is used for indicating that the paging occasion conflict exists between the first network and the second network, and the first network and the second network are not the same network; and the terminal receiving paging configuration information from the second network, wherein the paging configuration information is paging configuration information after the second network is adjusted. In the embodiments of the present application, by increasing the perceptibility of a network for a multi-card terminal, network resources are better configured and used, such that a serious event of a network paging conflict of the multi-card terminal is avoided, the communication quality of a user is guaranteed, and the perceptibility of the user is improved.

Description

A paging management method and related products

This application claims the priority of a Chinese patent application filed with the State Intellectual Property Office of China, the application number is 202010191656.1, and the application name is "a paging management method and related products" on March 18, 2020, the entire content of which is incorporated by reference In this application.

Technical field

This application relates to the field of communication technology, and in particular to a paging management method and related products.

Background technique

A smart phone is a general term for the type of mobile phone that has an independent operating system and operating space. Users can install software programs provided by third-party service providers such as games and navigation by themselves, and can realize wireless network access through mobile communication networks. With the continuous development of technology in the field of smart phones, more and more mobile phones support dual-card dual-standby functions, and even multi-card functions. This allows the user to use only one mobile phone without changing the subscriber identification module (SIM), and can maintain the communication connection of two or more numbers at the same time, so as to better implement communication management and distinguish personal life , Business work and other communication activities.

However, most multi-card terminals (such as dual-card dual-standby mobile phones) face the problem of paging message conflicts caused by simultaneous paging messages sent by different networks, and lack effective countermeasures.

Summary of the invention

The embodiment of the application discloses a paging management method and related products. In this method, by increasing the network's awareness of multi-card terminals, better configuration and use of network resources, thereby avoiding serious events of network paging conflicts of multi-card terminals, ensuring user communication quality, and improving user awareness.

In the first aspect, an embodiment of the present application provides a paging management method, which includes:

When the terminal detects that there is a paging occasion conflict between the first network and the second network, it sends an indication message to the base station of the second network, where the indication message is used to indicate the first network and the second network. The paging occasion conflict exists between the two networks, and the first network and the second network are not the same network;

The terminal receives paging configuration information from the second network, where the paging configuration information is paging configuration information adjusted by the second network.

In this implementation manner, the terminal detects a paging occasion conflict between the two networks, selects one of the networks as the network to be adjusted, and then sends an indication message to the current serving base station of the network to be adjusted to indicate the relationship between the two networks The paging occasion conflicts with each other, where the sent indication message may also include the paging configuration information of another network, and the indication message may pass Radio Resource Control (RRC) signaling and Media Access Control (Medium Access). Control, MAC) signaling, physical layer signaling, etc. are sent to the base station. The terminal here refers to a multi-card terminal that supports single receipt and single transmission. The network side adjusts the paging configuration information of the network to be adjusted according to the reported instruction message and the paging configuration information of another network, and sends the updated paging configuration information to the terminal. The network side can adopt various methods to adjust the terminal. After adjusting the paging configuration information of the network to be adjusted, there is no paging timing conflict between the second network and the first network after adjusting the paging configuration information, thereby avoiding paging conflict problems, ensuring the user's communication quality, and improving user perception.

In an optional implementation manner, the terminal detecting that there is a paging occasion conflict between the first network and the second network includes:

When the transmission time corresponding to the paging occasion of the first network overlaps with the transmission time corresponding to the paging occasion of the second network, the terminal determines that the first network and the second network exist. The paging timing conflicts.

In this implementation, if the transmission time corresponding to the paging occasion of the first network overlaps with the transmission time corresponding to the paging occasion of the second network, even if the transmission time corresponding to only one paging occasion overlaps, the terminal will determine the first The above-mentioned paging occasion conflict between the first network and the second network may cause communication failure.

In an optional implementation manner, the terminal detecting that there is a paging occasion conflict between the first network and the second network includes:

In the case that the time interval between the first time point and the second time point is less than the time threshold, it is determined that the first network and the second network have the paging occasion conflict; the first time point is all The time point when the first network applies for the paging frame resource, and the second time point is the time point when the second network applies for the paging frame resource.

In this implementation, if the time interval between the time when the first network applies for paging frame resources and the time when the second network applies for paging frame resources is less than the time threshold, the terminal will also determine that the first network and the second network exist The above paging timing conflict may result in communication failure. The above time threshold can be a numerical standard preset by the terminal according to the busy/idle status of the communication, or a numerical standard artificially set according to its own actual communication needs. The smaller the value, the more precise the time interval between paging timing conflicts.

In an optional implementation manner, the indication message includes paging configuration information of the first network, and the paging configuration information of the first network is used by the base station to adjust the paging configuration of the second network information.

In this implementation, the instruction message also includes the paging configuration information of the first network, so that the base station can adjust the paging configuration information of the second network according to the paging configuration information of the first network, so that the adjusted paging After the information is configured, there is no paging timing conflict between the second network and the first network, thereby avoiding the problem of paging conflict and ensuring the communication quality of the user.

In an optional implementation manner, the indication message is sent to the base station in at least one of the following ways: radio resource management layer RRC signaling, medium access control layer control unit MAC CE signaling, and physical layer signaling.

In an optional implementation manner, the paging configuration information of the first network includes at least one of the following: a network type of the first network, a paging parameter list of the first network, and the first network The paging cycle time difference with the second network.

In an optional implementation manner, the paging configuration information includes the identification of the terminal, and/or the paging cycle of the terminal, and/or the paging occasion offset configured for the terminal , And/or, calculate the newly added offset sequence of the paging occasion subframe position number, and/or, configure the paging repetition pattern for the terminal.

In an optional implementation manner, the sending an instruction message to the base station of the second network includes:

It is determined that the second network is the network to be adjusted, and the instruction message is sent to the base station of the network to be adjusted.

In an optional implementation manner, the determining that the second network is the network to be adjusted includes at least one of the following:

In a case where the two working networks of the terminal are Long Term Evolution LTE and the new air interface NR respectively, determining that the new air interface NR is the network to be adjusted;

In the case that the two working networks of the terminal are both long-term evolution LTE or new air interface NR networks of the same type, determine any one of them as the network to be adjusted;

In the case that one of the working networks of the terminal is Long Term Evolution LTE or New Air Interface NR, and the other working network is a network type other than Long Term Evolution LTE and New Air Interface NR, it is determined that Long Term Evolution LTE or New Air Interface NR is appropriate. Describe the network to be adjusted;

In the case that the two working networks of the terminal are of network types other than Long Term Evolution LTE and New Air Interface NR, it is determined that any one of the networks is the network to be adjusted. In the embodiment of the present application, in view of the possible paging message conflict problem of multi-card terminals, the terminal avoids it by coordinating and changing the network paging configuration information, and at the same time, it also increases the terminal's perception of the type of service triggered by the paging message, thereby The network can better process services with different priorities through reasonable scheduling, resource reservation and other methods, and improve communication efficiency.

In the second aspect, the embodiments of the present application provide another paging management method, which includes:

The base station receives an indication message sent by the terminal, where the indication message is used to indicate that there is a paging occasion conflict between the first network and the second network, and the first network and the second network are not For the same network;

Adjusting the paging configuration information of the second network by the base station;

The base station sends the adjusted paging configuration information to the terminal. In an optional implementation manner, the indication message includes paging configuration information of the first network, and the paging configuration information of the first network is used by the base station to adjust the paging configuration of the second network information.

In an optional implementation manner, the indication message is sent to the base station in at least one of the following ways: radio resource management layer RRC signaling, medium access control layer control unit MAC CE signaling, and physical layer signaling.

In an optional implementation manner, the paging configuration information of the first network includes at least one of the following: a network type of the first network, a paging parameter list of the first network, and The paging cycle time difference with the second network.

In an optional implementation manner, the paging configuration information includes at least one of the following: an identifier of the terminal, a paging cycle of the terminal, a paging occasion offset configured for the terminal, and calculating paging The newly added offset sequence of the paging occasion subframe position number is the paging repetition pattern configured by the terminal.

In the third aspect, the embodiments of the present application provide another paging management method, which includes:

The terminal receives the paging message sent by the base station;

The terminal determines according to the paging message that the working network of the terminal is the first network or the second network, and the first network and the second network are not the same network.

In an optional implementation manner, the paging message includes service type information.

In an optional implementation manner, the determining, by the terminal, according to the paging message, that the working network of the terminal is the first network or the second network includes:

The terminal determines whether the working network of the terminal is the first network or the second network according to the priority of the service type information.

In an optional implementation manner, determining, by the terminal, according to the priority of the service type information, that the working network of the terminal is the first network or the second network includes:

If the priority of the service type information is greater than the priority of the current service of the terminal, determining that the working network of the terminal is the working network corresponding to the paging message; and/or,

If the priority of the service type information is less than or equal to the priority of the current service of the terminal, it is determined that the working network of the terminal is the working network corresponding to the current service.

In an optional implementation manner, the service type information includes voice service type indication information, and/or data service type indication information.

In an optional implementation manner, the data service type indication information includes service quality level indication information corresponding to the service.

In an optional implementation manner, the service type information comes from the service type indication information included in the paging message sent by the core network.

In an optional implementation manner, the method further includes:

In a case where the terminal is a multi-card terminal, the paging message sent by the base station received by the terminal includes the service type information.

In the fourth aspect, the embodiments of the present application also provide another paging management method, which includes:

The base station sends a paging message to the terminal, where the paging message includes service type information.

In an optional implementation manner, the method further includes:

If the priority of the service type information is greater than the priority of the current service of the terminal, the service type information is used by the terminal to determine that the working network of the terminal is the working network corresponding to the paging message; and/ or,

If the priority of the service type information is less than or equal to the priority of the current service of the terminal, the service type information is used by the terminal to determine that the working network of the terminal is the working network corresponding to the current service.

In an optional implementation manner, the service type information includes voice service type indication information, and/or data service type indication information.

In an optional implementation manner, the data service type indication information includes service quality level indication information corresponding to the service.

In an optional implementation manner, the service type information comes from the service type indication information included in the paging message sent by the core network.

In an optional implementation manner, the method further includes:

In a case where the terminal is a multi-card terminal, the paging message sent by the base station to the terminal includes the service type information.

In the fifth aspect, the embodiments of the present application also provide another paging management method, which includes:

The terminal sends multi-card terminal paging configuration information to the base station of the second network. The multi-card terminal paging configuration information includes the paging configuration information of the first network and the paging configuration information of the second network. The network and the second network are not the same network;

The base station of the second network determines that there is a paging occasion conflict between the first network and the second network according to the paging configuration information of the first network and the paging configuration information of the second network In this case, the terminal receives the target multi-card terminal paging configuration information sent from the base station of the second network, and the target multi-card terminal paging configuration information includes the second network adjusted by the base station of the second network. 2. Paging configuration information of the network.

In an optional implementation manner, the paging configuration information of the second network includes at least one of the following: a network type of the second network, a paging parameter list of the second network, and the first network The paging cycle start time difference between and the second network, the terminal is a multi-card terminal and uses an indication of a radio frequency system; the paging configuration information of the first network includes at least one of the following: A network type of a network, and a paging parameter list of the first network.

In an optional implementation manner, the multi-card terminal paging configuration information is sent to the base station of the second network by at least one of the following methods: radio resource management layer RRC signaling, media access control layer control unit MAC CE signaling, physical layer signaling.

In an optional implementation manner, the sending of the multi-card terminal paging configuration information by the terminal to the base station of the second network includes:

Determining that the second network is the network to be adjusted, and sending the multi-card terminal paging configuration information to the base station of the network to be adjusted;

In an optional implementation manner, the determining that the second network is the network to be adjusted includes at least one of the following:

In a case where the two working networks of the terminal are Long Term Evolution LTE and the new air interface NR respectively, determining that the new air interface NR is the network to be adjusted;

In the case that the two working networks of the terminal are both long-term evolution LTE or new air interface NR networks of the same type, determine any one of them as the network to be adjusted;

In the case that one of the working networks of the terminal is Long Term Evolution LTE or New Air Interface NR, and the other working network is a network type other than Long Term Evolution LTE and New Air Interface NR, it is determined that Long Term Evolution LTE or New Air Interface NR is appropriate. Describe the network to be adjusted;

In the case that the two working networks of the terminal are of network types other than Long Term Evolution LTE and New Air Interface NR, it is determined that any one of the networks is the network to be adjusted.

In the sixth aspect, the embodiments of the present application also provide another paging management method, which includes:

The base station receives the multi-card terminal paging configuration information sent by the terminal. The multi-card terminal paging configuration information includes the paging configuration information of the first network and the paging configuration information of the second network. The two networks are not the same network, and the base station is a base station of the second network;

In the case that the base station determines that there is a paging occasion conflict between the first network and the second network according to the paging configuration information of the first network and the paging configuration information of the second network, Adjusting the paging configuration information of the second network by the base station;

The base station sends target multi-card terminal paging configuration information to the terminal, where the target multi-card terminal paging configuration information includes paging configuration information of the second network adjusted by the base station.

In an optional implementation manner, the paging configuration information of the second network includes at least one of the following: a network type of the second network, a paging parameter list of the second network, and the first network The paging cycle start time difference between and the second network, the terminal is a multi-card terminal and uses an indication of a radio frequency system; the paging configuration information of the first network includes at least one of the following: A network type of a network, and a paging parameter list of the first network.

In an optional implementation manner, the multi-card terminal paging configuration information is sent to the base station in at least one of the following ways: radio resource management layer RRC signaling, media access control layer control unit MAC CE signaling, Physical layer signaling.

In a seventh aspect, an embodiment of the present application provides a paging management device, which includes:

The sending unit is configured to send an indication message to the base station of the second network when the terminal detects that there is a paging occasion conflict between the first network and the second network, where the indication message is used to indicate the first network The paging occasion conflict exists between the network and the second network, and the first network and the second network are not the same network;

The receiving unit is configured to receive paging configuration information from the second network, where the paging configuration information is paging configuration information adjusted by the second network.

In an optional implementation manner, the device further includes:

The detecting unit is configured to determine the first network and the second network when the transmission time corresponding to the paging occasion of the first network overlaps with the transmission time corresponding to the paging occasion of the second network There is a conflict in the paging occasion.

In an optional implementation manner, the detection unit is further configured to determine the first network and the second network when the time interval between the first time point and the second time point is less than a time threshold. The network has the paging occasion conflict; the first time point is the time point when the first network applies for paging frame resources, and the second time point is the time point when the second network applies for paging frame resources .

In an optional implementation manner, the indication message includes paging configuration information of the first network, and the paging configuration information of the first network is used by the base station to adjust the paging configuration of the second network information.

In an optional implementation manner, the indication message is sent to the base station in at least one of the following ways: radio resource management layer RRC signaling, medium access control layer control unit MAC CE signaling, and physical layer signaling.

In an optional implementation manner, the paging configuration information of the first network includes at least one of the following: a network type of the first network, a paging parameter list of the first network, and The paging cycle time difference with the second network.

In an optional implementation manner, the paging configuration information includes at least one of the following: an identifier of the terminal, a paging cycle of the terminal, a paging occasion offset configured for the terminal, and calculating paging The newly added offset sequence of the paging occasion subframe position number is the paging repetition pattern configured by the terminal.

In an optional implementation manner, the sending unit is specifically configured to send the indication message to the base station of NR when the two working networks of the terminal are Long Term Evolution LTE and New Air Interface NR respectively; When the two working networks of the terminal are both LTE or NR networks of the same type, the indication message is sent to the base station of either network; one working network of the terminal is LTE or NR, and the other When the two working networks are network types other than LTE and NR, send the indication message to the base station of LTE or NR; when the two working networks of the terminal are network types other than LTE and NR To send the instruction message to the base station of any one of the networks.

In an eighth aspect, an embodiment of the present application provides a paging management device, which includes:

The receiving unit is configured to receive an indication message sent by the terminal, where the indication message is used to indicate that there is a paging occasion conflict between the first network and the second network, and the first network and the The second network is not the same network;

An adjustment unit, configured to adjust paging configuration information of the second network;

The sending unit is configured to send the adjusted paging configuration information to the terminal.

In an optional implementation manner, the indication message includes paging configuration information of the first network, and the paging configuration information of the first network is used by the base station to adjust the paging configuration of the second network information.

In an optional implementation manner, the indication message is sent to the base station in at least one of the following ways: radio resource management layer RRC signaling, medium access control layer control unit MAC CE signaling, and physical layer signaling.

In an optional implementation manner, the paging configuration information of the first network includes at least one of the following: a network type of the first network, a paging parameter list of the first network, and The paging cycle time difference with the second network.

In an optional implementation manner, the paging configuration information includes at least one of the following: an identifier of the terminal, a paging cycle of the terminal, a paging occasion offset configured for the terminal, and calculating paging The newly added offset sequence of the paging occasion subframe position number is a paging repetition pattern configured by the terminal.

In a ninth aspect, an embodiment of the present application provides a paging management device, which includes:

The receiving unit is used to receive the paging message sent by the base station;

The determining unit is configured to determine, according to the paging message, that the working network of the terminal is the first network or the second network, and the first network and the second network are not the same network.

In an optional implementation manner, the paging message includes service type information.

In an optional implementation manner, the determining unit is specifically configured to determine whether the working network of the terminal is the first network or the second network according to the priority of the service type information.

In an optional implementation manner, the determining unit is specifically configured to determine that the working network of the terminal is the paging message if the priority of the service type information is greater than the priority of the current service of the terminal Corresponding work network; and/or,

If the priority of the service type information is not greater than the priority of the current service of the terminal, it is determined that the working network of the terminal is the working network corresponding to the current service.

In an optional implementation manner, the service type information includes at least one of the following: voice service type indication information, and data service type indication information.

In an optional implementation manner, the data service type indication information includes service quality level indication information corresponding to the service.

In an optional implementation manner, the service type information comes from the service type indication information included in the paging message sent by the core network.

In an optional implementation manner, the receiving unit is specifically configured to receive the service type information included in the paging message sent by the base station when the terminal is a multi-card terminal.

In a tenth aspect, an embodiment of the present application provides a paging management device, which includes:

The sending unit is configured to send a paging message to the terminal, where the paging message is used by the terminal to determine whether the working network of the terminal is the first network or the second network, and the first network and the second network are not It is the same network.

In an optional implementation manner, the paging message includes service type information.

In an optional implementation manner, if the priority of the service type information is greater than the priority of the current service of the terminal, the service type information is used by the terminal to determine that the working network of the terminal is the search engine. Call the work network corresponding to the message; and/or,

If the priority of the service type information is not greater than the priority of the current service of the terminal, the service type information is used by the terminal to determine that the working network of the terminal is the working network corresponding to the current service.

In an optional implementation manner, the service type information includes at least one of the following: voice service type indication information, and data service type indication information.

In an optional implementation manner, the data service type indication information includes service quality level indication information corresponding to the service.

In an optional implementation manner, the service type information comes from the service type indication information included in the paging message sent by the core network.

In an optional implementation manner, the sending unit is specifically configured to include the service type information in the paging message sent to the terminal when the terminal is a multi-card terminal.

In an eleventh aspect, an embodiment of the present application provides a paging management device, which includes:

The sending unit is configured to send multi-card terminal paging configuration information to the base station of the second network, where the multi-card terminal paging configuration information includes the paging configuration information of the first network and the paging configuration information of the second network, The first network and the second network are not the same network;

The receiving unit is configured to determine, at the base station of the second network, that there is a connection between the first network and the second network according to the paging configuration information of the first network and the paging configuration information of the second network In the case of conflicting paging occasions, receive the target multi-card terminal paging configuration information sent from the base station of the second network, where the target multi-card terminal paging configuration information includes all adjusted values of the base station of the second network. The paging configuration information of the second network.

In an optional implementation manner, the paging configuration information of the second network includes at least one of the following: a network type of the second network, a paging parameter list of the second network, and the first network The paging cycle start time difference between the second network and the second network indicates that the terminal is a multi-card terminal and uses a set of radio frequency system instructions.

In an optional implementation manner, the multi-card terminal paging configuration information is sent to the base station of the second network in at least one of the following ways: radio resource management layer RRC signaling, media access control layer control unit MAC CE signaling, physical layer signaling.

In an optional implementation manner, the device further includes:

The determining unit is configured to determine that the second network is the network to be adjusted.

In an optional implementation manner, the determining unit is specifically configured to determine that the new air interface NR is the network to be adjusted when the two working networks of the terminal are the long-term evolution LTE and the new air interface NR respectively;

In the case that the two working networks of the terminal are both long-term evolution LTE or new air interface NR networks of the same type, determine any one of the networks as the network to be adjusted;

In the case that one of the working networks of the terminal is Long Term Evolution LTE or New Air Interface NR, and the other working network is a network type other than Long Term Evolution LTE and New Air Interface NR, it is determined that Long Term Evolution LTE or New Air Interface NR is appropriate. Describe the network to be adjusted;

In the case that the two working networks of the terminal are of network types other than Long Term Evolution LTE and New Air Interface NR, it is determined that any one of the networks is the network to be adjusted.

In a twelfth aspect, an embodiment of the present application provides a paging management device, which includes:

The receiving unit is configured to receive multi-card terminal paging configuration information sent by the terminal, where the multi-card terminal paging configuration information includes paging configuration information of the first network and paging configuration information of the second network. The first network It is not the same network as the second network, and the base station is a base station of the second network;

The adjustment unit is configured to determine, by the base station, that there is a paging occasion conflict between the first network and the second network according to the paging configuration information of the first network and the paging configuration information of the second network In the case of, the base station adjusts the paging configuration information of the second network;

The sending unit is configured to send, by the base station, target multi-card terminal paging configuration information to the terminal, the target multi-card terminal paging configuration information includes paging configuration information of the second network adjusted by the base station.

In an optional implementation manner, the paging configuration information of the second network includes at least one of the following: the network type of the second network, the paging parameter list of the second network, and the first network The paging cycle start time difference between the second network and the second network indicates that the terminal is a multi-card terminal and uses a set of radio frequency system instructions.

In an optional implementation manner, the multi-card terminal paging configuration information is sent to the base station in at least one of the following ways: radio resource management layer RRC signaling, media access control layer control unit MAC CE signaling, Physical layer signaling.

In a thirteenth aspect, an embodiment of the present application provides a paging management device, including a processor and a memory; the processor is configured to support the paging management device to perform the foregoing first aspect and the foregoing first aspect. The corresponding function in the selected implementation method. The memory stores programs (instructions) and data necessary for the paging management device. Optionally, the paging management device may further include an input/output interface for supporting communication between the paging management device and other devices.

In a fourteenth aspect, an embodiment of the present application provides a computer-readable storage medium, the computer-readable storage medium stores one or more instructions, and the one or more instructions are suitable for being loaded by the processor and Perform methods as described in the foregoing first aspect and optional implementation manners in the foregoing first aspect.

In a fifteenth aspect, the embodiments of the present application provide a computer program product containing instructions, which when run on a computer, cause the computer to execute the above-mentioned first aspect and any of its optional implementation methods.

In a sixteenth aspect, an embodiment of the present application provides another paging management device, including a processor and a memory; the processor is configured to support the paging management device to perform the above-mentioned third aspect and the above-mentioned third aspect The corresponding function in the optional implementation method. The memory stores programs (instructions) and data necessary for the paging management device. Optionally, the paging management device may further include an input/output interface for supporting communication between the paging management device and other devices.

In the seventeenth aspect, the embodiments of the present application provide another computer-readable storage medium, the computer-readable storage medium stores one or more instructions, and the one or more instructions are suitable for being loaded by the processor And execute the method as the above-mentioned third aspect and the optional implementation manner in the above-mentioned third aspect.

In an eighteenth aspect, the embodiments of the present application provide a computer program product containing instructions that, when run on a computer, cause the computer to execute the third aspect and any of its optional implementation methods.

In a nineteenth aspect, the embodiments of the present application provide another paging management device, including a processor and a memory; the processor is configured to support the paging management device to perform the fifth aspect and the fifth aspect described above. The corresponding function in the optional implementation method. The memory stores programs (instructions) and data necessary for the paging management device. Optionally, the paging management device may further include an input/output interface for supporting communication between the paging management device and other devices.

In the twentieth aspect, the embodiments of the present application provide another computer-readable storage medium, the computer-readable storage medium stores one or more instructions, and the one or more instructions are suitable for being loaded by the processor And execute the method as the above-mentioned fifth aspect and the optional implementation manner in the above-mentioned fifth aspect.

In the twenty-first aspect, the embodiments of the present application provide a computer program product containing instructions that, when run on a computer, cause the computer to execute the fifth aspect and any of its optional implementation methods.

In this application, by increasing the network's awareness of multi-card terminals, better configuration and use of network resources, thereby avoiding serious incidents of network paging conflicts in multi-card terminals; at the same time, it also increases the Network paging triggers the perception of service types, ensuring that multi-card terminals can perform balanced processing based on service priorities among multiple working networks, better guarantee high-priority services, ensure user communication quality, and improve user perception.

Description of the drawings

In order to more clearly describe the technical solutions in the embodiments of the application or the background technology, the following will briefly introduce the drawings that need to be used in the embodiments of the application or the background technology. Obviously, the drawings in the following description are of the application. For some of the embodiments, for those of ordinary skill in the art, other drawings can be obtained based on these drawings without creative work.

Figure 1 is a schematic diagram of a paging mechanism;

2 is a schematic flowchart of a paging management method provided by an embodiment of this application;

Fig. 3a is a schematic flowchart of another paging management method provided by an embodiment of the application;

FIG. 3b is a schematic diagram of interaction of a paging management method provided by an embodiment of this application;

FIG. 3c is a schematic diagram of interaction of another paging management method provided by an embodiment of the application;

FIG. 4a is a schematic flowchart of another paging management method provided by an embodiment of this application;

4b is a schematic diagram of interaction of a paging management method provided by an embodiment of the application;

FIG. 5 is a schematic flowchart of another paging management method provided by an embodiment of the application;

FIG. 6 is a schematic structural diagram of a paging management apparatus provided by an embodiment of the application;

FIG. 7 is a schematic structural diagram of another paging management apparatus provided by an embodiment of this application;

FIG. 8 is a schematic structural diagram of another paging management apparatus provided by an embodiment of the application;

FIG. 9 is a schematic structural diagram of a terminal provided by an embodiment of this application;

FIG. 10 is a schematic structural diagram of a server provided by an embodiment of this application.

Detailed ways

In order to enable those skilled in the art to better understand the solutions of the embodiments of the present application, the technical solutions in the embodiments of the present application will be clearly described below in conjunction with the drawings in the embodiments of the present application. Obviously, the described embodiments are only These are a part of the embodiments of this application, but not all of the embodiments.

The terms "first", "second", and "third" in the specification embodiments and claims of this application and the above-mentioned drawings are used to distinguish similar objects, and are not necessarily used to describe a specific order or priority. class. The terms "including" and "having" in the embodiments of the specification and claims of this application and any variations thereof are intended to cover non-exclusive inclusions, for example, including a series of steps or units. The method, system, product, or device need not be limited to those clearly listed steps or units, but may include other steps or units that are not clearly listed or are inherent to these processes, methods, products, or devices.

The reference to "embodiments" herein means that a specific feature, structure, or characteristic described in conjunction with the embodiments may be included in at least one embodiment of the present application. The appearance of the phrase in various places in the specification does not necessarily refer to the same embodiment, nor is it an independent or alternative embodiment mutually exclusive with other embodiments. Those skilled in the art clearly and implicitly understand that the embodiments described herein can be combined with other embodiments.

In order to describe the solution of the present application more clearly, the following describes the embodiments of the present application with reference to the accompanying drawings in the embodiments of the present application.

Please refer to Figure 1, which is a schematic diagram of a paging mechanism. In the communication network, both the long-time evolution (LTE) system and the 5G new radio (NR) define a complete paging mechanism. Whether it is LTE or NR, the basic paging mechanism is similar. The frequency domain resources occupied by the paging message are specified by the physical downlink control channel (PDCCH) scrambled by the paging radio network temporary identifier (P-RNTI). In the time domain, the terminal (user equipment, UE) only listens to the PDDCH in specific subframes in its paging cycle to try to receive paging messages. These specific subframes are called paging occasions (POs). ), the radio frame in which these subframes are located is called a paging frame (PF). Therefore, the base station gNB needs to send the paging message from the air interface at the paging occasion, so that the UE may receive the paging message at the paging occasion. The relationship between paging occasions and paging cycles between different UEs is shown in Figure 1. In Figure 1, UE1 can only receive paging messages on the paging occasions corresponding to time 1, 3, and UE2 can only receive paging messages on the paging occasions corresponding to time 2 and 4. For different UEs, their paging occasions may overlap. For multi-card terminals, this overlap will cause continuous paging message collisions. This is very important for UEs in a single radio frequency (RF) system. Serious problems can easily cause communication failure.

The paging mechanisms of LTE and NR will be described in detail below. In LTE, the parameters PF and PO are used to identify the paging moment of the UE. PF indicates which system frame number the paging message should appear on, and PO indicates the possible subframe moment. A paging frame may include one or more paging subframes, and in each paging cycle, the UE only needs to monitor the paging subframe that belongs to it. Specifically, PF can be calculated according to the following formula:

SFN mod T=(T div N)*(UE_ID mod N)

Among them, SFN represents the system frame number (SFN) where the paging message appears, T represents the paging cycle, N represents the number of PF included in each paging cycle T, UE_ID represents the terminal identification number, and the mod function represents the pair After two numerical expressions are divided, the remainder is taken. The div function represents the division of two integers and returns the quotient.

The position of the paging subframe is jointly determined by the LTE system type, the parameters Ns and i_s. The parameter i_s represents the index of the paging subframe, which can be calculated according to the following formula:

i_s=floor(UE_ID/N)mod Ns

Among them, N represents the number of PFs included in each paging cycle T, Ns represents the number of paging subframes in each PF, UE_ID represents the terminal identification number, and the mod function represents the division of two numerical expressions and then takes The remainder, the floor function represents the largest integer that is not greater than the value passed in.

In addition, LTE standard types are also divided into frequency division duplex (FDD) and time division duplex (TDD). The specific corresponding relationships are shown in the following table:

Table I

Ns PO when i_s=0 PO when i_s = 1 PO when i_s=2 PO when i_s=3 1 9 N/A N/A N/A 2 4 9 N/A N/A 4 0 4 5 N/A

Table II

Ns PO when i_s=0 PO when i_s = 1 PO when i_s=2 PO when i_s=3 1 0 N/A N/A N/A 2 0 5 N/A N/A 4 0 1 5 6

Table 1 shows the correspondence when the LTE system type is FDD, and Table 2 shows the correspondence when the LTE system type is TDD.

Different from the specific paging subframe corresponding to the paging occasion in LTE, the paging occasion in NR is a collection of PDDCH monitoring occasions, which may include multiple subframes or orthogonal frequency division multiplexing (OFDM) symbols, and At this paging occasion, there may be a PDDCH that uses P-RNTI to scramble and indicate a paging message. The UE only needs to detect one paging occasion in each paging cycle, that is, corresponding to each UE, there is only one paging occasion in each paging cycle that can be used to send a paging message. Specifically, PF can be calculated according to the following formula:

(SFN+PF_offset) mod T = (T div N) * (UE_ID mod N)

Among them, SFN represents the system frame number where the paging message appears, PF_offset represents the offset of PF, T represents the paging cycle, N represents the number of PF included in each paging cycle T, UE_ID represents the terminal identification number, and the mod function represents After dividing two numeric expressions, the remainder is taken. The div function represents the division of two integers and returns the quotient.

The paging subframe is indicated by the parameter i_s, which characterizes the index of the paging subframe, which can be calculated according to the following formula:

i_s=floor(UE_ID/N)mod Ns

Among them, N represents the number of PFs included in each paging cycle T, Ns represents the number of paging subframes in each PF, UE_ID represents the terminal identification number, and the mod function represents the division of the two numerical expressions. The remainder, the floor function represents the largest integer that is not greater than the value passed in.

After calculating the SFN and i_s, the PDCCH monitoring paging occasion can be determined.

Please refer to FIG. 2. FIG. 2 is a schematic flowchart of a paging management method provided by an embodiment of the application.

201. The terminal sends a paging conflict indication message to a base station of a second network.

When the terminal detects that there is a paging occasion conflict between the first network and the second network, it sends an indication message to the base station of one of the networks, and the first network and the second network are not the same network. It should be noted that the "first" and "second" here are only used to distinguish similar network objects, not necessarily used to describe a specific order or priority, and it does not mean that it is limited to a specific network object. Therefore, in order to make the subsequent description more convenient and concise, it is temporarily regarded as sending an indication message to the base station of the second network, and the indication message is used to indicate that there is a paging occasion conflict between the first network and the second network. The indication message may also include the paging configuration information of another network, which in this embodiment is the paging configuration information of the first network. Specifically, the paging configuration information of the first network sent to the base station may include one item and/or multiple items of information. For example: the network type of the first network (LTE, NR, etc.); some or all of the paging parameters of the first network. For LTE networks, the parameters may include the paging cycle T and the number of PFs contained in each paging cycle T N , How many paging subframes Ns in each PF, etc. For NR networks, the parameters can include paging cycle T, PF offset PF_offset, the number of PFs contained in each paging cycle T, and each PF How many paging subframes Ns, etc. are there; the time difference of the paging cycle between the two working networks of the UE. The paging is periodic, so the minimum value is taken as a reference), the paging cycle start time point is calculated based on the start time point of the first subframe of the first physical frame of the paging cycle, when calculating the above paging cycle time difference, One network of the UE can be used as the reference network, and the minimum difference between the start time point of the paging cycle of the UE in another network and the start time point of the paging cycle of the reference network is calculated. The above-mentioned indication message can be sent to the base station by means of RRC signaling, MAC CE, physical layer signaling, etc. The terminal in this embodiment refers to a multi-card terminal that supports single receipt and single transmission.

202. The terminal receives paging configuration information from the base station.

The terminal receives the paging configuration information from the base station. The paging configuration information is the paging configuration information adjusted by the second network. After the paging configuration information is adjusted, the second network and the first network do not have paging configuration information. The timing conflicts. Among them, the adjustment of the paging configuration information of the second network is completed by the network side. The network side adjusts the paging configuration information of the second network according to the reported indication message and the paging configuration information of the first network. The updated paging configuration information is delivered to the terminal. Among them, the network side can adopt a variety of methods to adjust the paging configuration information of the second network of the terminal, which will not be described in detail in this implementation manner. After receiving the paging configuration information from the base station, the terminal can receive various services such as paging messages sent by the base station under the premise of no paging timing conflicts, so as to achieve the effect of efficiently processing services to ensure user communication quality.

Please refer to FIG. 3a, which is a schematic flowchart of another paging management method provided by an embodiment of the application.

301. The terminal detects that a paging occasion conflict occurs between the first network and the second network.

There are multiple methods for the terminal to detect whether there is a paging timing conflict between the first network and the second network. The detection method may depend on the specific implementation of the terminal. Card terminal. This embodiment is not limited to specific detection methods, nor does it enumerate all detection methods, but only describes two more effective detection methods. One of the detection methods is to detect whether the transmission time corresponding to the paging occasion of the first network overlaps with the transmission time corresponding to the paging occasion of the second network, even if the transmission time corresponding to only one paging occasion overlaps, the terminal will determine The first network and the second network have the above-mentioned paging occasion conflict, because this may cause communication failure. Another detection method is to detect the time interval between the time point when the first network applies for paging frame resources and the time point when the second network applies for paging frame resources. If it is detected that the time interval between the above two time points is less than a certain time threshold , The terminal will also determine that the first network and the second network have the above-mentioned paging occasion conflict, because this may also cause communication failure. The above-mentioned time threshold may be a numerical standard preset by the terminal according to the busy/idle status of the communication network. If the time interval between the above two time points is less than this numerical standard, it can be considered that there is a paging timing conflict between the two networks, or it can be a numerical standard artificially set according to their actual communication needs. The smaller the numerical value of the time threshold, The more precise the time interval of the time point when the paging timing conflict occurs.

302. The terminal determines that the second network is the network to be adjusted.

In the case of detecting that there is a paging timing conflict between the first network and the second network, the terminal determines that one of the networks is the network to be adjusted, and the paging configuration information of the network to be adjusted needs to be appropriately changed to avoid interference with the first network The paging timing conflicts. It should be noted that the "first" and "second" here are only used to distinguish similar network objects, not necessarily used to describe a specific order or priority, and it does not mean that it is limited to a specific network object. Therefore, in order to make the subsequent description more convenient and concise, it is temporarily regarded as the terminal determining that the second network is the network to be adjusted. Specifically, the terminal determines that the second network is the network to be adjusted and there are multiple possible situations, and the possible situations will be introduced one by one below. When the two working networks of the terminal are LTE and NR respectively, the NR network is determined to be the network to be adjusted. At this time, the terminal will default the NR network to the above-mentioned second network; the two working networks of the terminal are both LTE Or in the case of the same type of network of NR, determine any one of the networks as the network to be adjusted; in the case that one type of working network of the terminal is LTE or NR, and the other type of working network is a network type other than LTE and NR, It is determined that the LTE or NR network is the network to be adjusted. At this time, the terminal will default the LTE or NR network as the above-mentioned second network; when the two working networks of the terminal are both network types other than LTE and NR, determine which Any network is a network to be adjusted. Among them, the adjustment of the paging configuration information of the second network is completed by the network side.

303. The terminal sends an instruction message to the base station of the network to be adjusted.

The indication message may be sent to the base station of the network to be adjusted through RRC signaling, MAC CE, physical layer signaling, etc. The indication message is used to indicate that there is a paging occasion conflict between the first network and the second network. In order to facilitate the resolution of the paging occasion conflict, the indication message may also include the paging configuration information of another network, which in this embodiment is the paging configuration information of the first network. Specifically, the paging configuration information of the first network sent to the base station may include one item and/or multiple items of information. For details, refer to step 201. In this way, the base station can adjust the paging configuration information of the network to be adjusted (the second network) according to the instruction message and the paging configuration information of the first network, so that the second network and the first network after adjusting the paging configuration information do not exist The paging timing conflicts, so as to avoid the paging conflict problem and ensure the user's communication quality.

304. The base station adjusts the paging configuration information of the network to be adjusted according to the reported instruction message.

The base station adjusts the paging configuration information of the second network according to the reported indication message and the paging configuration information of the first network, so that the second network after the adjusted paging configuration information does not have a paging timing conflict with the first network, and The adjusted paging configuration information of the second network is sent to the terminal. There are multiple methods for adjusting the paging configuration information of the second network. This embodiment is not limited to specific adjustment methods, nor does it enumerate all the adjustment methods, but only describes several more effective adjustment methods. . One way to adjust the paging configuration information is to change the parameter UE_ID. Because the system frame number of the paging frame and the position of the paging subframe are calculated based on the UE_ID, this method is the most direct and effective way to adjust the paging configuration information. Methods. Another method for adjusting the paging configuration information is to change the paging cycle of the terminal. This method can effectively prevent the transmission time corresponding to the paging occasion of the first network from overlapping with the transmission time corresponding to the paging occasion of the second network. Reduce the probability of collision of paging timing. Another method of adjusting the paging configuration information is to configure a fixed offset for the UE, which is applied to the calculation formula of the paging subframe index number or the paging subframe position number, so that the UE can be paged. The timing is offset from the original position by a certain time interval. For example, the calculation method of paging subframes for LTE and NR can be modified as follows:

i_s=(floor(UE_ID/N)+UE_offset)mod Ns

Among them, the parameter i_s represents the index of the paging subframe, the paging subframe is indicated by the parameter i_s, N represents the number of PFs included in each paging cycle T, UE_offset represents the fixed offset configured by the UE, and Ns represents How many paging subframes are in each PF, UE_ID characterizes the terminal identification number, mod function characterizes the remainder after dividing two numerical expressions, and floor function characterizes the maximum integer not greater than the incoming value.

For another example, it is also possible to directly add an offset for the UE to the expression of the paging subframe in the LTE network, so that the position of the paging subframe of the UE can be staggered by a certain subframe interval. Calculated by the following formula:

POnew=(POold+UE_offset)mod Nn

Wherein, UE_offset represents the fixed offset configured by the UE, and Nn represents the number of subframes included in each physical frame, for example, 10.

Another method for adjusting the paging configuration information is to add a fixed offset sequence to the calculation formula of the paging frame and/or paging subframe. The offset sequence is commonly known by the base station and the terminal, so that the UE The paging timing can be staggered randomly from the original position for a certain time interval. Specifically, it can be expressed as the following formula:

POnew=(POold+Gn)mod Nn

Among them, Gn represents the offset sequence, which is a function of the current system frame number SFN, and its value is determined by SFN, and Nn represents the number of subframes included in each physical frame.

Another method of adjusting the paging configuration information is to configure a specific paging repetition pattern for the UE, that is, the base station will continue to page N consecutive pages after the UE’s original paging occasion. For the paging occasion, the above-mentioned N is an integer greater than 0, so as to avoid conflicts on the current paging occasion. This method changes the original paging mode in which paging messages are only sent on one paging occasion.

305. The terminal receives adjusted paging configuration information from the base station.

The terminal receives the paging configuration information from the base station. The paging configuration information is the paging configuration information adjusted by the second network. After the paging configuration information is adjusted, there is no paging between the second network and the first network. Timing conflicts. After receiving the paging configuration information from the base station, the terminal can receive various services such as paging messages sent by the base station under the premise of no paging timing conflicts, so as to achieve the effect of efficiently processing services to ensure user communication quality.

The flow of the paging management method provided in FIG. 3a can also be presented in the form of interaction between the terminal and the 5G base station gNB. For details, please refer to FIG. 3b. FIG. 3b is an interactive schematic diagram of a paging management method provided by an embodiment of the application. As shown in Figure 3b, the UE detects that a paging occasion conflict occurs between the first network and the second network, and determines that the second network is the network to be adjusted. The UE sends an indication message to the gNB. The card terminal’s network has a paging occasion conflict. The UE also sends the paging configuration information of the first network to the gNB. The gNB receives the indication message reported by the UE and adjusts the paging of the second network according to the paging configuration information of the first network. Configuration information, so that the second network after adjusting the paging configuration information does not have a paging occasion conflict with the first network, and the adjusted paging configuration information of the second network is sent to the UE. Since then, the UE and gNB are completed Interact to realize paging management. In the embodiment of this application, the detection of the paging occasion conflict is performed by the UE. A variant method can be made based on this. That is, the UE reports the paging configuration information of the two networks to the gNB, and the gNB detects whether A paging timing conflict will occur and relevant information will be actively adjusted to avoid possible paging timing conflicts. For details, please refer to FIG. 3c. FIG. 3c is an interactive schematic diagram of another paging management method provided by an embodiment of the application. As shown in Figure 3c, the UE reports the paging configuration information of the two networks to the gNB, and the gNB detects whether there is a paging timing conflict based on the reported paging configuration information of the two networks. If there is a paging timing conflict, it selects one of the networks to adjust Its paging configuration information ensures that the network after adjusting the paging configuration information does not have a paging message conflict with another network, and delivers the updated paging configuration information to the UE. The method of the above variant is only an example, and its specific implementation scope is not the focus of this embodiment, so it will not be further elaborated.

Please refer to FIG. 4a, which is a schematic flowchart of another paging management method provided by an embodiment of this application.

401. The terminal receives a paging message sent by a base station.

The terminal receives the paging message sent by the base station, which also contains the triggering cause of the paging message, that is, the service type information corresponding to the paging message. Among them, the business covers multiple types of business, which can be divided into two categories, high-priority business and low-priority business according to the priority of the business. The service type information can also be subdivided into LTE or NR network-based voice service type indication information, data service type indication information, etc. according to the service type.

Optionally, if the triggered service is a data service, the service type information may also include the quality of service (QoS) level indication information corresponding to the data service, such as the QoS Class Identifier in the 5G network , QCI) information; and the service type information can come from the base station's information judgment for the data service, for example, by analyzing the QCI indication information in the packet header of the downlink data sent by the core network to confirm that the data service is of high priority or low Priority data services.

Optionally, the service type information in the paging message may come from the service type indication information contained in the paging message sent by the core network.

Optionally, the base station may determine whether it is necessary to add the above-mentioned service type indication information in the paging message according to the type or capability of the user terminal, and the UE type or capability information comes from a report from the UE. For example, the UE may include an indication that the UE is a "multi-card terminal" in the UE capability report message, and the base station determines that the paging message for the UE carries the foregoing service type indication information.

402. The terminal judges whether the priority of the service type of the paging message is higher than the priority of the current service.

If the service type priority of the paging message is greater than the priority of the current service, step 403 is executed; if the service type priority of the paging message is not greater than the priority of the current service, step 404 is executed. The comparison method of the priority of the service type may depend on the strategy issued by the network side, and may also depend on the implementation of the UE, the implementation of which is not described in detail in this embodiment.

403. The terminal determines that the working network is the working network corresponding to the paging message.

In the case that the priority of the service type of the paging message is greater than the priority of the current service, the terminal determines that the working network is the working network corresponding to the paging message. For example, if the service type of the paging message is a voice service type based on the LTE or NR network, and its priority is greater than the priority of the current service, or another network does not currently have any service, the working network is switched to the corresponding paging message Work network.

404. The terminal determines that the working network is the working network corresponding to the current service.

In the case that the priority of the service type of the paging message is not greater than the priority of the current service, the terminal determines that the working network is the working network corresponding to the current service. For example, if the service type of the current service is a voice service type based on the LTE or NR network, and its priority is greater than the priority of the paging message service, the working network will be kept on the current working network.

The flow of the paging management method provided in Figure 4a can also be presented in the form of interaction between the terminal, the 5G base station gNB, and the 5G core network (CN). For details, please refer to Figure 4b. Figure 4b is an embodiment of the application. An interactive schematic diagram of a paging management method is provided. As shown in Figure 4b, the UE reports the UE capabilities to the gNB. The UE can also include the indication information that the UE is a "multi-card terminal" in the UE capability report message, and the CN transmits the paging message carrying the service type indication information to gNB, the above service type indication information indicates that the paging message is a voice service based on the LTE or NR network, and the gNB determines that the above service type indication is carried in the paging message for the UE according to the indication information that the UE is a "multi-card terminal" Information, and deliver the paging message carrying the service type indication information to the UE. The UE judges that the priority of the service type of the paging message is greater than the priority of the current service, so it determines that the working network is the working network corresponding to the paging message , And begin to perform the follow-up operations of the business.

Please refer to FIG. 5, which is a schematic flowchart of another paging management method provided by an embodiment of the application.

501. A base station receives paging configuration information sent by a terminal.

The base station receives the paging configuration information of the first network and the paging configuration information of the second network sent by the terminal, where the first network and the second network are not the same network. The paging configuration information of the first network and the paging configuration information of the second network may include one and/or multiple items of information, for example: the network type of the first network (LTE, NR, etc.); part of the first network Or all paging parameters. For LTE networks, the parameters can include paging cycle T, the number of PFs included in each paging cycle T, N, how many paging subframes Ns in each PF, etc. For NR networks, the parameters It can include the paging cycle T, the offset PF_offset of the PF, the number of PFs N contained in each paging cycle T, how many paging subframes Ns in each PF, etc.; the difference between the two working networks of the UE The time difference of the paging cycle, the time difference refers to the minimum difference between the start time points of the paging cycle of the UE on the two networks (because the paging is periodic, the minimum value is taken as a reference), and the start time point of the paging cycle is The start time point of the first subframe of the first physical frame of the paging cycle is calculated. When calculating the above paging cycle time difference, one of the UE’s networks can be used as a reference network to calculate the UE’s paging cycle in another network. The minimum difference between the start time point and the start time point of the paging cycle of the reference network.

502. The base station judges whether a paging occasion conflict will occur according to the foregoing paging configuration information.

The base station judges whether there will be a paging timing conflict based on the paging configuration information of the first network and the paging configuration information of the second network. The judgment method may depend on the specific implementation of the base station. This embodiment is not limited to a specific judgment method, nor does it enumerate all the judgment methods, but only describes two more effective judgment methods. One of the judgment methods is to judge whether the transmission time corresponding to the paging occasion of the first network overlaps with the transmission time corresponding to the paging occasion of the second network, even if the transmission time corresponding to only one paging occasion overlaps, the base station will determine The first network and the second network have the above-mentioned paging occasion conflict, because this may cause communication failure. Another judging method is to detect the time interval between the time point when the first network applies for paging frame resources and the time point when the second network applies for paging frame resources. If it is detected that the time interval between the above two time points is less than a certain time threshold , The base station will also determine that the first network and the second network have the above-mentioned paging occasion conflict, because this may also cause communication failure. The above-mentioned time threshold may be a numerical standard preset by the base station according to the busy/idle status of the communication network. If the time interval between the above two time points is less than this numerical standard, it can be considered that there is a paging timing conflict between the two networks, or it can be a numerical standard artificially set according to their actual communication needs. The smaller the numerical value of the time threshold, The more precise the time interval of the time point when the paging timing conflict occurs.

503. The base station does not adjust the foregoing paging configuration information.

In the case where the base station judges that no paging occasion conflict will occur according to the above paging configuration information, the base station does not adjust the above paging configuration information.

504. The base station adjusts paging configuration information of the second network.

The base station receives the paging configuration information of the first network and the paging configuration information of the second network sent by the terminal. According to the above paging configuration information, it is judged that there will be a paging occasion conflict, so the base station needs to adjust the paging configuration of either network Information to avoid the occurrence of paging occasion conflicts. In this embodiment, the paging configuration information of the second network is adjusted as an example for description. The base station can adopt a variety of methods to adjust the paging configuration information of the second network of the terminal. This embodiment is not limited to specific adjustment methods, and it does not enumerate all adjustment methods, but only describes several more effective adjustments. method. One way to adjust the paging configuration information is to change the parameter UE_ID. Because the system frame number of the paging frame and the position of the paging subframe are calculated based on the UE_ID, this method is the most direct and effective way to adjust the paging configuration information. Methods. Another method for adjusting the paging configuration information is to change the paging cycle of the terminal. This method can effectively prevent the transmission time corresponding to the paging occasion of the first network from overlapping with the transmission time corresponding to the paging occasion of the second network. Reduce the probability of collision of paging timing. Another method of adjusting the paging configuration information is to configure a fixed offset for the UE, which is applied to the calculation formula of the paging subframe index number or the paging subframe position number, so that the UE can be paged. The timing is offset from the original position by a certain time interval. It is also possible to directly add an offset for the UE to the expression of the paging subframe in the LTE network, so that the position of the paging subframe of the UE can be staggered by a certain subframe interval. Another method for adjusting the paging configuration information is to add a fixed offset sequence to the calculation formula of the paging frame and/or paging subframe. The offset sequence is commonly known by the base station and the terminal, so that the UE The paging timing can be staggered randomly from the original position for a certain time interval. Another method of adjusting the paging configuration information is to configure a specific paging repetition pattern for the UE, that is, the base station will continue to page N consecutive pages after the UE’s original paging occasion. For the paging occasion, the above-mentioned N is an integer greater than 0, so as to avoid conflicts on the current paging occasion. This method changes the original paging mode in which paging messages are only sent on one paging occasion.

505. The base station sends the adjusted paging configuration information to the terminal.

After adjusting the paging configuration information of the second network, the base station sends the adjusted paging configuration information to the terminal while ensuring that there is no paging timing conflict between the first network and the second network, so that the terminal can Under the premise that there is no paging timing conflict, various services such as paging messages sent by the base station are received, so as to achieve the effect of efficiently processing services to ensure the quality of user communication.

The foregoing describes the method of the embodiment of the present application in detail, and the device of the embodiment of the present application is provided below.

Please refer to FIG. 6, which is a schematic structural diagram of a paging management apparatus according to an embodiment of the application. The device includes: a sending unit 61 and a receiving unit 62. in:

The sending unit 61 is configured to send an indication message to the base station of the second network when the terminal detects that there is a paging occasion conflict between the first network and the second network, where the indication message is used to indicate that the first network and the second network are in conflict with each other. The aforementioned paging occasion conflict exists between the aforementioned second networks, and the aforementioned first network and the aforementioned second network are not the same network;

The receiving unit 62 is configured to receive paging configuration information from the base station, where the paging configuration information is paging configuration information adjusted by the second network.

Further, the receiving unit 62 is also configured to receive a paging message sent by the base station.

Further, the above-mentioned device further includes:

The determining unit 63 is configured to, after the receiving unit 62 receives the paging message sent by the base station, determine, according to the paging message, that the working network of the terminal is the first network or the second network.

Further, the above-mentioned device further includes:

The detecting unit 64 is configured to determine that the first network and the second network have the paging time when the transmission time corresponding to the paging occasion of the first network overlaps with the transmission time corresponding to the paging occasion of the second network. The timing conflicts.

Further, the detection unit 64 is further configured to determine that the paging timing conflict exists between the first network and the second network when the time interval between the first time point and the second time point is less than a time threshold; The first time point is a time point when the first network applies for a paging frame resource, and the second time point is a time point when the second network applies for a paging frame resource.

Further, the paging message includes service type information; the determining unit 63 is specifically configured to determine, according to the priority of the service type information, that the working network of the terminal is the first network or the second network.

Further, the determining unit 63 is specifically configured to determine that the working network of the terminal is the working network corresponding to the paging message if the priority of the service type information is greater than the priority of the current service of the terminal; and/or,

If the priority of the service type information is not greater than the priority of the current service of the terminal, it is determined that the working network of the terminal is the working network corresponding to the current service.

Further, the indication message includes the paging configuration information of the first network, and the paging configuration information of the first network is used by the base station to adjust the paging configuration information of the second network.

Further, the above-mentioned sending unit 61 is specifically configured to send the above-mentioned indication message to the base station of NR when the two working networks of the above-mentioned terminal are Long Term Evolution LTE and New Air Interface NR; In the case of a network of the same type as LTE or NR, send the above-mentioned indication message to the base station of any one of the networks; one working network of the above-mentioned terminal is LTE or NR, and the other working network is a network other than LTE and NR In the case of the type, the above-mentioned indication message is sent to the base station of LTE or NR; when the two working networks of the above-mentioned terminal are network types other than LTE and NR, the above-mentioned indication message is sent to the base station of either network.

Further, the above-mentioned indication message is sent to the above-mentioned base station in at least one of the following ways: radio resource management layer RRC signaling, medium access control layer control unit MAC CE signaling, and physical layer signaling.

Further, the paging configuration information of the first network includes at least one of the following: a network type of the first network, a paging parameter list of the first network, and paging between the first network and the second network Cycle time difference.

Further, the above-mentioned paging configuration information includes at least one of the following: the identifier of the above-mentioned terminal, the paging cycle of the above-mentioned terminal, the offset configured for the above-mentioned terminal, and calculating the newly added cheap sequence of the paging occasion subframe position number, which is The paging repeat mode configured by the above terminal.

Further, the service type information includes at least one of the following: voice service type indication information, data service type indication information; the data service type indication information includes service quality level indication information corresponding to the service.

Further, the service type information comes from the service type indication information contained in the paging message sent by the core network.

Further, the receiving unit 62 is further configured to receive the service type information included in the paging message sent by the base station when the terminal is a multi-card terminal.

Further, the sending unit 61 is further configured to send multi-card terminal paging configuration information to the base station of the second network, and the multi-card terminal paging configuration information includes the paging configuration information of the first network and the second network. Paging configuration information;

Further, the receiving unit 62 is further configured to determine, in the base station of the second network, the connection between the first network and the second network according to the paging configuration information of the first network and the paging configuration information of the second network. In the case of the foregoing paging occasion conflict, receiving the target multi-card terminal paging configuration information sent from the base station of the second network, the target multi-card terminal paging configuration information includes the paging configuration information of the first network and the route Paging configuration information of the second network adjusted by the base station of the second network.

Further, the paging configuration information of the second network includes at least one of the following: a network type of the second network, a paging parameter list of the second network, and paging between the first network and the second network The cycle start time difference, the above-mentioned terminal is a multi-card terminal and an indication that a set of radio frequency system is used.

Further, the foregoing multi-card terminal paging configuration information is sent to the base station of the foregoing second network by at least one of the following methods: radio resource management layer RRC signaling, media access control layer control unit MAC CE signaling, physical layer signaling . According to the embodiment of the present application, each step involved in the method executed by the terminal in FIG. 2 and FIG. 3a may be executed by each unit in the apparatus shown in FIG. 6. For example, 201 shown in FIG. 2 is executed by 61 shown in FIG. 6; for another example, 301 shown in FIG. 3a is executed by 64 shown in FIG.

According to the embodiments of the present application, the units in the device shown in FIG. 6 can be combined separately or all into one or several other units to form, or some of the units can be further divided into functionally more functional units. It is composed of multiple small units, which can achieve the same operation without affecting the realization of the technical effects of the embodiments of the present application. The above-mentioned units are divided based on logical functions. In practical applications, the function of one unit may also be realized by multiple units, or the functions of multiple units may be realized by one unit. In other embodiments of the present application, the terminal-based may also include other units. In practical applications, these functions may also be implemented with the assistance of other units, and may be implemented by multiple units in cooperation.

Please refer to FIG. 7. FIG. 7 is a schematic structural diagram of another paging management apparatus provided by an embodiment of the application. The device includes: a receiving unit 71, a judging unit 72, and a determining unit 72. in:

The receiving unit 71 is configured to receive a paging message sent by a base station;

The determining unit 73 is configured to determine whether the working network of the terminal is the first network or the second network according to the paging message, and the first network and the second network are not the same network.

Further, the above-mentioned paging message includes service type information.

Further, the aforementioned determining unit 73 is specifically configured to determine, according to the priority of the aforementioned service type information, that the working network of the aforementioned terminal is the aforementioned first network or the aforementioned second network.

Further, the determining unit 72 is configured to determine that the priority of the service type information is greater than the priority of the current service of the terminal, and the determining unit 73 determines that the working network of the terminal is the working network corresponding to the paging message; and/or ,

If the priority of the service type information is not greater than the priority of the current service of the terminal, the determining unit 73 determines that the working network of the terminal is the working network corresponding to the current service.

Further, the above-mentioned service type information includes at least one of the following: voice service type indication information, and data service type indication information.

Further, the foregoing data service type indication information includes service quality level indication information corresponding to the service.

Further, the service type information comes from the service type indication information contained in the paging message sent by the core network.

Further, when the terminal is a multi-card terminal, the paging message sent by the base station includes the service type information.

According to the embodiment of the present application, each step involved in the method executed by the terminal in FIG. 4a may be executed by each unit in the apparatus shown in FIG. 7. For example, 401 shown in FIG. 4a is executed by 71 shown in FIG. 7.

According to the embodiments of the present application, the units in the device shown in FIG. 7 can be combined separately or all into one or several other units to form, or some of the units can be further divided into functionally more functional units. It is composed of multiple small units, which can achieve the same operation without affecting the realization of the technical effects of the embodiments of the present application. The above-mentioned units are divided based on logical functions. In practical applications, the function of one unit may also be realized by multiple units, or the functions of multiple units may be realized by one unit. In other embodiments of the present application, the terminal-based may also include other units. In practical applications, these functions may also be implemented with the assistance of other units, and may be implemented by multiple units in cooperation.

Please refer to FIG. 8. FIG. 8 is a schematic structural diagram of another paging management apparatus provided by an embodiment of the application. The device includes: a receiving unit 81, a judging unit 82, an adjusting unit 83, and a sending unit 84. in:

The receiving unit 81 is configured to receive multi-card terminal paging configuration information sent by the terminal. The multi-card terminal paging configuration information includes paging configuration information of the first network and paging configuration information of the second network. The foregoing second network is not the same network, and the base station is a base station of the second network;

The determining unit 82 is configured to determine whether there is a paging timing conflict between the first network and the second network according to the paging configuration information of the first network and the paging configuration information of the second network;

The adjusting unit 83 is configured to adjust the paging configuration information of the above-mentioned second network;

The sending unit 84 is configured to send target multi-card terminal paging configuration information to the terminal, where the target multi-card terminal paging configuration information includes the paging configuration information of the second network adjusted by the base station.

Further, the paging configuration information of the second network includes at least one of the following: a network type of the second network, a paging parameter list of the second network, and paging between the first network and the second network The cycle start time difference, the above-mentioned terminal is a multi-card terminal and an indication that a set of radio frequency system is used.

Further, the foregoing multi-card terminal paging configuration information is sent to the foregoing base station through at least one of the following: radio resource management layer RRC signaling, media access control layer control unit MAC CE signaling, and physical layer signaling.

According to the embodiment of the present application, each step involved in the method executed by the base station in FIG. 5 may be executed by each unit in the apparatus shown in FIG. 8. For example, 501 shown in FIG. 5 is executed by 81 shown in FIG. 8.

According to the embodiments of the present application, the units in the device shown in FIG. 8 can be combined separately or all into one or several other units to form, or some of the units can be further divided into functionally more functional units. It is composed of multiple small units, which can achieve the same operation without affecting the realization of the technical effects of the embodiments of the present application. The above-mentioned units are divided based on logical functions. In practical applications, the function of one unit may also be realized by multiple units, or the functions of multiple units may be realized by one unit. In other embodiments of the present application, the base station may also include other units. In practical applications, these functions may also be implemented with the assistance of other units, and may be implemented by multiple units in cooperation.

Based on the description of the foregoing method embodiment and device embodiment, an embodiment of the present application also provides a schematic structural diagram of a terminal. As shown in FIG. 9, the terminal 900 corresponds to the terminal in the foregoing embodiment. The terminal 900 may include: at least one processor 901, such as a CPU, at least one network interface 904, a user interface 903, a memory 905, and at least one communication bus. 902. Among them, the communication bus 902 is used to implement connection and communication between these components. The user interface 903 may include a display and an input device, and the optional user interface 903 may also include a standard wired interface and a wireless interface. The network interface 904 may optionally include a standard wired interface and a wireless interface (such as a WI-FI interface). The memory 905 may be a high-speed RAM memory or a non-volatile memory (non-volatile memory), such as at least one magnetic disk memory. Optionally, the memory 905 may also be at least one storage device located far away from the aforementioned processor 901. As shown in FIG. 9, the memory 905 as a computer storage medium may include an operating system, a network communication module, a user interface module, and a device control application program.

In the terminal 900 shown in FIG. 9, the network interface 904 is mainly used to connect to other terminal devices; and the user interface 903 is mainly used to provide an input interface for the user; and the processor 901 can be used to call the device control stored in the memory 905 Application program to realize: when the terminal detects that there is a paging occasion conflict between the first network and the second network, it sends an indication message to the base station of the second network, and the indication message is used to indicate the first network The paging occasion conflict exists between a network and the second network, and the first network and the second network are not the same network; the terminal receives paging configuration information from the second network, The paging configuration information is paging configuration information adjusted by the second network. It should be understood that the terminal 900 may perform operations performed by the terminal in the foregoing embodiments, for example, operations performed by the terminal in FIG. 2.

Further, please refer to FIG. 10, which is a schematic structural diagram of a server provided by an embodiment of the application. As shown in FIG. 10, the server 1000 may have relatively large differences due to different configurations or performance, and may include one or more central processing units (CPU) 1022 (for example, one or more processors) and The memory 1032, one or more storage media 1030 for storing application programs 1042 or data 1044 (for example, one or one storage device with a large amount of storage). Among them, the memory 1032 and the storage medium 1030 may be short-term storage or permanent storage. The program stored in the storage medium 1030 may include one or more modules (not shown in the figure), and each module may include a series of command operations on the server. Furthermore, the central processing unit 1022 may be configured to communicate with the storage medium 1030, and execute a series of instruction operations in the storage medium 1030 on the server 1000, so that the base station receives the instruction message sent by the terminal, and the instruction message is used to instruct There is a paging occasion conflict between the first network and the second network, and the first network and the second network are not the same network; the base station adjusts the paging configuration information of the second network; the base station will The adjusted paging configuration information is sent to the terminal. The server 900 may be a server provided by this application.

The server 1000 may also include one or more power supplies 1026, one or more wired or wireless network interfaces 1050, one or more input and output interfaces 1058, and/or one or more operating systems 1041, such as Windows Server, Mac OS X, Unix, Linux, FreeBSD, etc.

In addition, it should be pointed out here that: the embodiment of the present application also provides a computer-readable storage medium, and the computer-readable storage medium stores the aforementioned computer program executed by the terminal, and the computer program Including program instructions. When the processor executes the program instructions, it can execute the description of the paging management method in the previous embodiment corresponding to FIG. 2 or FIG. 3a or FIG. 4a. Therefore, it will not be repeated here. In addition, the description of the beneficial effects of using the same method will not be repeated. For technical details that are not disclosed in the embodiment of the computer-readable storage medium involved in this application, please refer to the description of the method embodiment of this application.

A person of ordinary skill in the art can understand that all or part of the processes in the above-mentioned embodiment methods can be implemented by instructing relevant hardware through a computer program. The program can be stored in a computer readable storage medium. During execution, it may include the procedures of the above-mentioned method embodiments. Wherein, the storage medium may be a magnetic disk, an optical disc, a read-only memory (ROM) or a random access memory (RAM), etc.

The above-disclosed are only the embodiments provided by this application, which of course cannot be used to limit the scope of rights of this application. Therefore, equivalent changes made according to the claims of this application still fall within the scope of this application.

Claims (45)

A paging management method, characterized in that it comprises: When the terminal detects that there is a paging occasion conflict between the first network and the second network, it sends an indication message to the base station of the second network, where the indication message is used to indicate the first network and the second network. The paging occasion conflict exists between the two networks, and the first network and the second network are not the same network; The terminal receives paging configuration information from the second network, where the paging configuration information is paging configuration information adjusted by the second network. The method according to claim 1, wherein the terminal detecting that there is a paging occasion conflict between the first network and the second network comprises: When the transmission time corresponding to the paging occasion of the first network overlaps with the transmission time corresponding to the paging occasion of the second network, the terminal determines that the first network and the second network exist. The paging timing conflicts. The method according to claim 1, wherein the terminal detecting that there is a paging occasion conflict between the first network and the second network comprises: In the case that the time interval between the first time point and the second time point is less than the time threshold, it is determined that the first network and the second network have the paging occasion conflict; the first time point is all The time point when the first network applies for the paging frame resource, and the second time point is the time point when the second network applies for the paging frame resource. The method according to claim 1, wherein the indication message includes paging configuration information of the first network, and the paging configuration information of the first network is used by the base station to adjust the second network Paging configuration information. The method according to claim 1, wherein the indication message is sent to the base station in at least one of the following ways: radio resource management layer RRC signaling, media access control layer control unit MAC CE signaling, physical Layer signaling. The method according to claim 4, wherein the paging configuration information of the first network includes at least one of the following: a network type of the first network, a paging parameter list of the first network, and The paging cycle time difference between the first network and the second network. The method according to claim 1, wherein the paging configuration information includes the identification of the terminal, and/or the paging cycle of the terminal, and/or the paging configured for the terminal The timing offset, and/or the newly added offset sequence for calculating the subframe position number of the paging occasion, and/or the paging repetition pattern configured for the terminal. The method according to any one of claims 1 to 7, wherein the sending an instruction message to a base station of the second network comprises: It is determined that the second network is the network to be adjusted, and the instruction message is sent to the base station of the network to be adjusted. The method according to claim 8, wherein the determining that the second network is the network to be adjusted comprises at least one of the following: In a case where the two working networks of the terminal are Long Term Evolution LTE and the new air interface NR respectively, determining that the new air interface NR is the network to be adjusted; In the case that the two working networks of the terminal are both long-term evolution LTE or new air interface NR networks of the same type, determine any one of the networks as the network to be adjusted; In the case that one of the working networks of the terminal is Long Term Evolution LTE or New Air Interface NR, and the other working network is a network type other than Long Term Evolution LTE and New Air Interface NR, it is determined that Long Term Evolution LTE or New Air Interface NR is appropriate. Describe the network to be adjusted; In the case that the two working networks of the terminal are of network types other than Long Term Evolution LTE and New Air Interface NR, it is determined that any one of the networks is the network to be adjusted. A paging management method, characterized in that it comprises: The terminal receives the paging message sent by the base station; The terminal determines according to the paging message that the working network of the terminal is the first network or the second network, and the first network and the second network are not the same network. The method according to claim 10, wherein the paging message includes service type information. The method according to claim 11, wherein the terminal determining whether the working network of the terminal is the first network or the second network according to the paging message comprises: The terminal determines whether the working network of the terminal is the first network or the second network according to the priority of the service type information. The method according to claim 12, wherein the terminal determining whether the working network of the terminal is the first network or the second network according to the priority of the service type information comprises: If the priority of the service type information is greater than the priority of the current service of the terminal, determining that the working network of the terminal is the working network corresponding to the paging message; and/or, If the priority of the service type information is less than or equal to the priority of the current service of the terminal, it is determined that the working network of the terminal is the working network corresponding to the current service. The method according to claim 11, wherein the service type information includes voice service type indication information, and/or data service type indication information. The method according to claim 14, wherein the data service type indication information includes service quality level indication information corresponding to the service. The method according to claim 11, wherein the service type information comes from the service type indication information contained in the paging message sent by the core network. The method according to any one of claims 10 to 16, wherein the method further comprises: The terminal reports capability information to the base station, and the capability information includes information indicating that the terminal is a multi-card terminal. A paging management method, characterized in that it comprises: The terminal sends multi-card terminal paging configuration information to the base station of the second network. The multi-card terminal paging configuration information includes the paging configuration information of the first network and the paging configuration information of the second network. The network and the second network are not the same network; The base station of the second network determines that there is a paging occasion conflict between the first network and the second network according to the paging configuration information of the first network and the paging configuration information of the second network In this case, the terminal receives the target multi-card terminal paging configuration information sent from the base station of the second network, and the target multi-card terminal paging configuration information includes the second network adjusted by the base station of the second network. 2. Paging configuration information of the network. The method according to claim 18, wherein the paging configuration information of the second network comprises at least one of the following: a network type of the second network, a paging parameter list of the second network, and The paging cycle start time difference between the first network and the second network, the terminal is a multi-card terminal and an indication of using a set of radio frequency systems; the paging configuration information of the first network includes at least one of the following : The network type of the first network, and the paging parameter list of the first network. The method according to claim 18, wherein the multi-card terminal paging configuration information is sent to the base station of the second network in at least one of the following ways: radio resource management layer RRC signaling, media access control Layer control unit MAC CE signaling, physical layer signaling. The method according to claim 18, wherein the sending of the multi-card terminal paging configuration information by the terminal to the base station of the second network comprises: It is determined that the second network is the network to be adjusted, and the multi-card terminal paging configuration information is sent to the base station of the network to be adjusted. The method according to claim 21, wherein the determining that the second network is the network to be adjusted comprises at least one of the following: In a case where the two working networks of the terminal are Long Term Evolution LTE and the new air interface NR respectively, determining that the new air interface NR is the network to be adjusted; In the case that the two working networks of the terminal are both long-term evolution LTE or new air interface NR networks of the same type, determine any one of the networks as the network to be adjusted; In the case that one of the working networks of the terminal is Long Term Evolution LTE or New Air Interface NR, and the other working network is a network type other than Long Term Evolution LTE and New Air Interface NR, it is determined that Long Term Evolution LTE or New Air Interface NR is appropriate. Describe the network to be adjusted; In the case that the two working networks of the terminal are of network types other than Long Term Evolution LTE and New Air Interface NR, it is determined that any one of the networks is the network to be adjusted. A paging management method, characterized in that it comprises: The base station receives an indication message sent by the terminal, where the indication message is used to indicate that there is a paging occasion conflict between the first network and the second network, and the first network and the second network are not the same network; Adjusting the paging configuration information of the second network by the base station; The base station sends the adjusted paging configuration information to the terminal. The method according to claim 23, wherein the indication message includes paging configuration information of the first network, and the paging configuration information of the first network is used by the base station to adjust the second network Paging configuration information. The method according to claim 23, wherein the indication message is sent to the base station in at least one of the following ways: radio resource management layer RRC signaling, media access control layer control unit MAC CE signaling, physical Layer signaling. The method according to claim 24, wherein the paging configuration information of the first network comprises at least one of the following: a network type of the first network, a paging parameter list of the first network, and The paging cycle time difference between the first network and the second network. The method according to claim 23, wherein the adjusted paging configuration information includes at least one of the following: an identifier of the terminal, a paging cycle of the terminal, and a paging configured for the terminal The timing offset calculates the newly added offset sequence of the subframe position number of the paging occasion, and is the paging repetition pattern configured by the terminal. A paging management method, characterized in that it comprises: The base station sends a paging message to the terminal, where the paging message includes service type information. The method according to claim 28, wherein the method further comprises: If the priority of the service type information is greater than the priority of the current service of the terminal, the service type information is used by the terminal to determine that the working network of the terminal is the working network corresponding to the paging message; and/ or, If the priority of the service type information is less than or equal to the priority of the current service of the terminal, the service type information is used by the terminal to determine that the working network of the terminal is the working network corresponding to the current service. The method according to claim 28, wherein the service type information includes voice service type indication information, and/or data service type indication information. The method according to claim 30, wherein the data service type indication information includes service quality level indication information corresponding to the service. The method according to claim 28, wherein the service type information comes from the service type information contained in the paging message sent by the core network. The method according to claim 28, wherein the method further comprises: In a case where the terminal is a multi-card terminal, the paging message sent by the base station to the terminal includes the service type information. The method according to claim 33, wherein the case where the terminal is a multi-card terminal comprises: The base station determines that the terminal is a multi-card terminal according to the capability information reported by the terminal. A paging management method, characterized in that it comprises: The base station receives the multi-card terminal paging configuration information sent by the terminal. The multi-card terminal paging configuration information includes the paging configuration information of the first network and the paging configuration information of the second network. The two networks are not the same network, and the base station is a base station of the second network; In the case that the base station determines that there is a paging occasion conflict between the first network and the second network according to the paging configuration information of the first network and the paging configuration information of the second network, Adjusting the paging configuration information of the second network by the base station; The base station sends target multi-card terminal paging configuration information to the terminal, where the target multi-card terminal paging configuration information includes paging configuration information of the second network adjusted by the base station. The method according to claim 35, wherein the paging configuration information of the second network comprises at least one of the following: a network type of the second network, a paging parameter list of the second network, and The paging cycle start time difference between the first network and the second network, the terminal is a multi-card terminal and an indication of using a set of radio frequency systems; the paging configuration information of the first network includes at least one of the following : The network type of the first network, and the paging parameter list of the first network. The method according to claim 35, wherein the multi-card terminal paging configuration information is sent to the base station in at least one of the following ways: radio resource management layer RRC signaling, media access control layer control unit MAC CE signaling, physical layer signaling. A paging management device is characterized in that it comprises: The sending unit is configured to send an indication message to the base station of the second network when the terminal detects that there is a paging occasion conflict between the first network and the second network, where the indication message is used to indicate the first network The paging occasion conflict exists between the network and the second network, and the first network and the second network are not the same network; The receiving unit is configured to receive paging configuration information from the second network, where the paging configuration information is paging configuration information adjusted by the second network. A paging management device is characterized in that it comprises: A receiving unit, configured to receive an indication message sent by a terminal, where the indication message is used to indicate that there is a paging occasion conflict between the first network and the second network, and the first network and the second network are not the same network; An adjustment unit, configured to adjust paging configuration information of the second network; The sending unit is configured to send the adjusted paging configuration information to the terminal. A paging management device is characterized in that it comprises: The receiving unit is used to receive the paging message sent by the base station; The determining unit is configured to determine, according to the paging message, that the working network of the terminal is the first network or the second network, and the first network and the second network are not the same network. A paging management device is characterized in that it comprises: The sending unit is configured to send a paging message to the terminal, where the paging message is used by the terminal to determine whether the working network of the terminal is the first network or the second network, and the first network and the second network are not It is the same network. A paging management device is characterized in that it comprises: The sending unit is configured to send multi-card terminal paging configuration information to the base station of the second network, where the multi-card terminal paging configuration information includes the paging configuration information of the first network and the paging configuration information of the second network, The first network and the second network are not the same network; The receiving unit is configured to determine, at the base station of the second network, that there is a connection between the first network and the second network according to the paging configuration information of the first network and the paging configuration information of the second network In the case of a paging occasion conflict, the terminal receives the target multi-card terminal paging configuration information sent from the base station of the second network, and the target multi-card terminal paging configuration information includes the base station adjustment of the second network Paging configuration information of the second network after that. A paging management device is characterized in that it comprises: The receiving unit is configured to receive multi-card terminal paging configuration information sent by the terminal, where the multi-card terminal paging configuration information includes paging configuration information of the first network and paging configuration information of the second network. The first network It is not the same network as the second network, and the base station is a base station of the second network; The adjusting unit is configured to determine, by the base station, according to the paging configuration information of the first network and the paging configuration information of the second network, that there is a paging occasion conflict between the first network and the second network In the case of adjusting the paging configuration information of the second network; The sending unit is configured to send target multi-card terminal paging configuration information to the terminal, where the target multi-card terminal paging configuration information includes paging configuration information of the second network adjusted by the base station. An electronic device, comprising: a processor and a memory, wherein the memory stores program instructions, and when the program instructions are executed by the processor, the processor executes any of claims 1 to 37. The method described in one item. A computer-readable storage medium, wherein the computer-readable storage medium stores one or more instructions, and the one or more instructions are suitable for being loaded and executed by the processor as claimed in claims 1 to 37 Any of the methods.

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