CN110267255B - Network registration method and device, electronic equipment and computer readable storage medium - Google Patents

Abstract

The application provides a network registration method, a network registration device, electronic equipment and a computer readable storage medium, wherein when the electronic equipment is detected to be inserted into at least two SIM cards for user identity recognition, network information corresponding to a main card and an auxiliary card is respectively obtained; when a network registration instruction corresponding to the auxiliary card is detected, antenna receiving strategies corresponding to the main card and the auxiliary card are obtained according to network information updating, wherein the antenna receiving strategies comprise: controlling the secondary card to select a preset number of antennas from the antenna list as secondary card target antennas, wherein the secondary card target antennas comprise at least one antenna in a preset grouping, and the antennas in the preset grouping are high-transmission-performance antennas selected after the antennas in the antenna list are sorted from high to low according to transmission performance; and controlling the auxiliary card to receive the auxiliary card network injection signal by using the auxiliary card target antenna and register the network. The auxiliary card receives the auxiliary card registration network access signal sent by the base station by at least one antenna with excellent transmission performance, so that the probability of network failure of auxiliary card registration is reduced.

Description

Network registration method and device, electronic equipment and computer readable storage medium

Technical Field

The present application relates to the field of mobile network registration, and in particular, to a method and an apparatus for registering a network, an electronic device, and a computer-readable storage medium.

Background

With the development of mobile communication technology, electronic equipment communication technology appears, electronic equipment can simultaneously support multiple network standards, and when most of electronic equipment registers a network, for example, when the electronic equipment is started or enters a network signal area from a network signal free area, full-mode full-frequency-band network searching is performed according to the network standards supported by the electronic equipment and a default network priority order until an available network is searched for registration.

However, the secondary card has a high probability of failing to access the network because the secondary card cannot receive the registration network signal of the base station due to low antenna transmission efficiency.

Disclosure of Invention

The embodiment of the application provides a network registration method, a network registration device, electronic equipment and a computer readable storage medium, which can reduce the probability of network registration failure of an auxiliary card.

A network registration method is applied to electronic equipment, the electronic equipment supports a plurality of network standards, and the method comprises the following steps:

when the electronic equipment is detected to be inserted into at least two SIM cards for user identification, the at least two SIM cards comprise a main card and an auxiliary card, and network information corresponding to the main card and the auxiliary card is respectively obtained;

when a network registration instruction corresponding to the auxiliary card is detected, updating and obtaining antenna receiving strategies corresponding to the main card and the auxiliary card according to the network information, wherein the antenna receiving strategies comprise: controlling the secondary card to select a preset number of antennas from an antenna list as secondary card target antennas, wherein the secondary card target antennas comprise at least one antenna in a preset grouping, and the antennas in the preset grouping are high-transmission-performance antennas selected after the antennas in the antenna list are sorted from high to low according to transmission performance;

and controlling the auxiliary card to receive an auxiliary card network injection signal by using the auxiliary card target antenna and registering the network.

A registered network device is applied to an electronic device, the electronic device supports a plurality of network standards, and the registered network device comprises:

the system comprises an information acquisition module, a data acquisition module and a data transmission module, wherein the information acquisition module is used for acquiring network information corresponding to at least two SIM cards including a main card and an auxiliary card when the electronic equipment is detected to be inserted into the at least two SIM cards;

an update policy module, configured to update, when a network registration instruction corresponding to the secondary card is detected, to obtain an antenna receiving policy corresponding to the primary card and the secondary card according to the network information, where the antenna receiving policy includes: controlling the secondary card to select a preset number of antennas from an antenna list as secondary card target antennas, wherein the secondary card target antennas comprise at least one antenna in a preset grouping, and the antennas in the preset grouping are high-transmission-performance antennas selected after the antennas in the antenna list are sorted from high to low according to transmission performance;

and the network registration module is used for controlling the auxiliary card to utilize the auxiliary card network injection signal received by the target antenna and registering the network.

An electronic device comprising a memory and a processor, the memory having stored therein a computer program that, when executed by the processor, causes the processor to perform the steps of the method of registering a network as described above.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method as set forth above.

The method is applied to electronic equipment, and comprises the steps of when the electronic equipment is detected to be inserted with at least two SIM cards for identifying user identities, respectively acquiring network information corresponding to the main card and the auxiliary card, wherein the at least two SIM cards comprise the main card and the auxiliary card; when a network registration instruction corresponding to the auxiliary card is detected, updating and obtaining antenna receiving strategies corresponding to the main card and the auxiliary card according to the network information, wherein the antenna receiving strategies comprise: controlling the secondary card to select a preset number of antennas from an antenna list as secondary card target antennas, wherein the secondary card target antennas comprise at least one antenna in a preset grouping, and the antennas in the preset grouping are high-transmission-performance antennas selected after the antennas in the antenna list are sorted from high to low according to transmission performance; and controlling the auxiliary card to receive an auxiliary card network injection signal by using the auxiliary card target antenna and registering the network. And the auxiliary card receives the auxiliary card registration network access signal sent by the base station by using at least one antenna with excellent transmission performance through updating the receiving strategy, so that the probability of network failure of the auxiliary card registration is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a diagram of an application environment for a method of registering a network in one embodiment;

FIG. 2 is a flow diagram of a method of registering a network in one embodiment;

FIG. 3 is a flowchart illustrating steps performed in one embodiment to control the secondary card to select two antennas other than the primary card target antenna from the antenna list as the secondary card target antenna;

FIG. 4 is a flow diagram of a method of registering a network in yet another embodiment;

FIG. 5 is a block diagram of the structure of a registered network device of one embodiment;

fig. 6 is a schematic diagram of an internal structure of an electronic device in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that, as used herein, the terms "first," "second," and the like may be used herein to describe various elements, but these elements are not limited by these terms. These terms are only used to distinguish one element from another. For example, a first packet antenna may be referred to as a second packet antenna, and similarly, a second packet antenna may be referred to as a first packet antenna, without departing from the scope of the present application. Both the first packet antenna and the second packet antenna are packet antennas, but they are not the same packet antenna.

Fig. 1 is a diagram illustrating an application environment of a method for registering a network in one embodiment. As shown in fig. 1, the application environment includes an electronic device 110 and a base station 120, where the electronic device 110 obtains network information corresponding to a primary card and a secondary card respectively by detecting that the electronic device is inserted with at least two SIM cards for user identification, where the at least two SIM cards include the primary card and the secondary card. When a network registration instruction corresponding to the auxiliary card is detected, antenna receiving strategies corresponding to the main card and the auxiliary card are obtained according to network information updating, wherein the antenna receiving strategies comprise: and controlling the secondary card to select a preset number of antennas from the antenna list as secondary card target antennas, wherein the secondary card target antennas comprise at least one antenna in a preset grouping, and the antennas in the preset grouping are high-transmission-performance antennas selected after the antennas in the antenna list are sorted from high to low according to transmission performance. And controlling the auxiliary card to receive the auxiliary card network injection signal by using the auxiliary card target antenna and register the network. The electronic device 110 may be any terminal device including a mobile phone, a tablet computer, a PDA (Personal Digital Assistant), a POS (Point of Sales), a vehicle-mounted computer, a wearable device, and the like.

Fig. 2 is a flow diagram of a method of registering a network in one embodiment. The network registration method provided in this embodiment is described by taking the electronic device operating in fig. 1 as an example. As shown in fig. 2, the method of registering a network includes steps 202 to 206.

Step 202, when it is detected that the electronic device is inserted into at least two user identity identification SIM cards, the at least two SIM cards include a main card and an auxiliary card, and network information corresponding to the main card and the auxiliary card is respectively obtained.

The network system of the mobile phone in China mainly comprises four types of GSM, CDMA, 3G and 4G, and is subjected to digital mobile phones (2G) such as a first generation analog system mobile phone (1G), a second generation GSM, TDMA and the like, a 2.5 generation mobile communication technology CDMA, a third generation mobile communication technology 3G, a fourth generation mobile communication technology 4G and a fifth generation mobile communication technology 5G. The network information at least includes network systems of the main card and the auxiliary card, and the network information may further include: public Land Mobile Network (PLMN) selection and cell search.

Specifically, when the electronic device detects that two Subscriber Identity Modules (SIMs) are inserted into the card slots, network information of the two SIM cards is obtained. The card with higher priority is regarded as the main card, and the card with lower priority is regarded as the auxiliary card, for example, the priority corresponding to the card slot 1 is higher than that of the card slot 2, and the priority corresponding to the card slot 2 is higher than that of the card slot 3. When SIM cards are inserted into card slot 1 and card slot 2, the SIM card inserted into card slot 1 is regarded as a primary card, and the SIM card inserted into card slot 2 is regarded as a secondary card. When SIM cards are inserted into card slot 2 and card slot 3, the SIM card inserted into card slot 2 is regarded as a primary card, and the SIM card inserted into card slot 3 is regarded as a secondary card. And the electronic equipment respectively acquires the network information of the main card and the auxiliary card.

Step 204, when a network registration instruction corresponding to the secondary card is detected, updating according to the network information to obtain antenna receiving strategies corresponding to the primary card and the secondary card, wherein the antenna receiving strategies comprise: and controlling the secondary card to select a preset number of antennas from the antenna list as secondary card target antennas, wherein the secondary card target antennas comprise at least one antenna in a preset grouping, and the antennas in the preset grouping are high-transmission-performance antennas selected after the antennas in the antenna list are sorted from high to low according to transmission performance.

Wherein, the antenna receiving strategy comprises: and controlling the auxiliary card to select a preset number of antennas from the antenna list as auxiliary card target antennas, and controlling the main card to use the rest antennas except the auxiliary card target antennas in the antenna list as main card target antennas. In addition, the secondary card target antenna has a plurality of antennas, and at least one of the antennas is a predetermined group. The preset grouped antennas are high-transmission-performance antennas which are selected after the antennas in the antenna list are sorted from high to low according to the transmission performance.

Specifically, when the base station sends a downlink network injection signal, the corresponding terminal receives the network injection signal and registers for network access. And if the terminal receives a network registration generating instruction corresponding to the network injection signal. And when a network registration instruction corresponding to the auxiliary card is detected, updating according to the network information of the main card and the auxiliary card to obtain antenna receiving strategies corresponding to the main card and the auxiliary card. The updated antenna reception strategy includes setting a primary card target antenna and a secondary card target antenna. Setting the sub-card target antenna refers to selecting a preset number of antennas from the antenna list as the sub-card target antenna. The secondary card target antenna has a plurality of antennas, and at least one of the antennas is a predetermined group. The preset grouped antennas are high-transmission-performance antennas which are selected after the antennas in the antenna list are sorted from high to low according to the transmission performance. Setting the main card target antenna refers to taking the remaining antennas in the antenna list except the sub card target antenna as the main card target antenna.

And step 206, controlling the auxiliary card to receive the auxiliary card network injection signal by using the auxiliary card target antenna and registering the network.

The process of registering to access the network is to search the network and register, i.e. network selection operation. The network selection operation of the electronic device can be divided into two processes of PLMN selection and cell search. In the PLMN selection process, the UE maintains PLMN lists, which sort PLMNs according to priority, and then searches from high priority down, with the priority: RPLMN, HPLMN, UPLMN, OPLMN, VPLMN. And selects a corresponding Radio Access Technology (RAT) according to the priority.

Specifically, the main card receives data issued by the base station by using the main card target antenna, and uploads uplink data to the base station by using the main card target antenna, so that the main card and the base station establish communication. And the auxiliary card receives an auxiliary card registration network signal issued by the base station, and then receives an auxiliary card network injection signal by using an auxiliary card target antenna and registers the network.

The method for registering the network access is applied to the electronic equipment, the electronic equipment supports a plurality of network systems, and when the electronic equipment is detected to be inserted into at least two SIM cards for identifying the user identities, the at least two SIM cards comprise a main card and an auxiliary card, and network information corresponding to the main card and the auxiliary card is respectively obtained. When a network registration instruction corresponding to the auxiliary card is detected, antenna receiving strategies corresponding to the main card and the auxiliary card are obtained according to network information updating, wherein the antenna receiving strategies comprise: and controlling the secondary card to select a preset number of antennas from the antenna list as secondary card target antennas, wherein the secondary card target antennas comprise at least one antenna in a preset grouping, and the antennas in the preset grouping are high-transmission-performance antennas selected after the antennas in the antenna list are sorted from high to low according to transmission performance. And controlling the auxiliary card to receive the auxiliary card network injection signal by using the auxiliary card target antenna and register the network. And the auxiliary card receives the auxiliary card registration network access signal sent by the base station by using at least one antenna with excellent transmission performance through updating the receiving strategy, so that the probability of network failure of the auxiliary card registration is reduced.

In one embodiment, the antenna list includes six antennas, four high transmission performance antennas are selected from a high-to-low direction according to transmission performance to form a first grouped antenna, the other two antennas form a second grouped antenna, and antenna receiving strategies corresponding to the main card and the auxiliary card are updated according to network information, including: when the network information corresponding to the master card includes: the main card and the base station establish 5G independent networking, and the network information corresponding to the auxiliary card comprises: and when the auxiliary card supports the 4G network, controlling the main card to select four antennas from the antenna list as main card target antennas to receive 5G network signals, wherein at least one antenna in the main card target antennas belongs to the second group antenna, and controlling the auxiliary card to select two antennas except the main card target antennas from the antenna list as auxiliary card target antennas.

The antenna list comprises six antennas, four high-transmission-performance antennas are selected from high to low directions according to transmission performance to form a first grouped antenna, and other two antennas form a second grouped antenna. That is, the six antennas in the antenna list are sorted from high to low according to the transmission performance, the first four are first grouped antennas, and the last two are second grouped antennas.

Specifically, network information corresponding to a main card and an auxiliary card is obtained, and when it is detected that the network standard of the main card is a 5G independent networking and the network standard of the auxiliary card is a 4G network, an antenna receiving strategy is updated, wherein the antenna receiving strategy comprises the following steps: and controlling the main card to select four antennas from the antenna list as main card target antennas to receive the 5G network signals, wherein at least one antenna in the main card target antennas belongs to the second group of antennas, and controlling the auxiliary card to select two antennas except the main card target antennas from the antenna list as auxiliary card target antennas. That is, the primary card target antenna includes at least one or two second packet antennas, and the secondary card target antenna includes one or two first packet antennas.

In one embodiment, the first packet antenna comprises: the method comprises the following steps that a first main set antenna, a first diversity antenna, a second main set antenna and a second diversity antenna are controlled, and a main card selects four antennas from an antenna list as main card target antennas to receive 5G network signals, and comprises the following steps: and controlling the main card to select the first main set antenna, the first diversity antenna and the two second grouping antennas as main card target antennas to receive the 5G network signals.

The first main set antenna is an antenna used for the first main set to receive a corresponding channel, and the first diversity antenna is an antenna used for the first diversity to receive a corresponding channel. The second main set antenna is an antenna used for the second main set to receive a corresponding channel, and the second diversity antenna is an antenna used for the second diversity to receive a corresponding channel. The first main set antenna, the first diversity antenna, the second main set antenna and the second diversity antenna have better transmission performance than the first group antenna.

Specifically, the master card is controlled to select four antennas from the antenna list as master card target antennas to receive the 5G network signals, that is, the master card is controlled to select a first master set antenna, a first diversity antenna and two second diversity antennas as master card target antennas to receive the 5G network signals. The transmission performance of the second packet antenna is lower than that of the first packet antenna. And correspondingly taking the other two unused antennas with excellent transmission performance in the first grouped antennas as secondary card target antennas to receive secondary card network injection signals issued by the base station.

In one embodiment, the second packet antenna comprises: the first MIMO antenna and the second MIMO antenna are used for controlling the main card to select the first main set antenna, the first diversity antenna and the two second grouping antennas as main card target antennas to receive 5G network signals, and the method comprises the following steps: and controlling the main card to select the first main set antenna, the first diversity antenna, the first MIMO antenna and the second MIMO antenna as main card target antennas to receive the 5G network signals.

Wherein, the antenna list includes: a first main set antenna, a first diversity antenna, a second main set antenna, a second diversity antenna, a first MIMO antenna, and a second MIMO antenna. The first main set antenna, the first diversity antenna, the second main set antenna, and the second diversity antenna are first packet antennas, and the first MIMO antenna and the second MIMO antenna are second packet antennas. The first MIMO antenna refers to an antenna corresponding to a first Multiple-Input Multiple-Output (MIMO) channel, and the second MIMO antenna refers to an antenna corresponding to a second MIMO channel.

Specifically, the master card is controlled to select a first master set antenna, a first diversity antenna, a first MIMO antenna and a second MIMO antenna as master card target antennas to receive 5G network signals. And the corresponding control auxiliary card selects the second main set antenna and the second diversity antenna to receive the auxiliary card network injection signal issued by the base station and registers the network.

In one embodiment, the first packet antenna comprises: the method comprises the following steps that a first main set antenna, a second main set antenna, a first diversity antenna and a second diversity antenna are controlled, a main card selects four antennas from an antenna list to serve as main card target antennas to receive 5G network signals, and the method comprises the following steps: and controlling the main card to select any one of the first main set antenna, the first diversity antenna, the second diversity antenna and the second grouping antenna as a main card target antenna to receive the 5G network signal.

Specifically, the first packet antenna includes: a first main set antenna, a second main set antenna, a first diversity antenna, and a second diversity antenna. And selecting three antennas from the first grouped antennas as target antennas of the main card, selecting a first main set antenna, a first diversity antenna and a second diversity antenna, and selecting any one antenna from the second grouped antennas. And the master card receives the 5G network signal using the master card target antenna.

Fig. 3 is a flowchart illustrating steps performed in an embodiment to control the secondary card to select two antennas other than the primary card target antenna from the antenna list as the secondary card target antenna. In one embodiment, the second packet antenna comprises: the first MIMO antenna and the second MIMO antenna, as shown in fig. 3, controlling the secondary card to select two antennas other than the primary card target antenna from the antenna list as secondary card target antennas, includes: step 302 and step 304.

And step 302, when the main card selects a first MIMO antenna in the second grouping antenna as a target antenna of the main card to receive the 5G network signal, controlling the secondary card to select the second main set antenna and the second MIMO antenna to receive the secondary card network injection signal from the base station.

Specifically, three antennas are selected from the first grouped antennas as main card target antennas, the first main set antenna, the first diversity antenna and the second diversity antenna are selected, and any one antenna is selected from the second grouped antennas. And the master card receives the 5G network signal using the master card target antenna. When the primary card selects the first primary set antenna, the first diversity antenna, the second diversity antenna and the first MIMO antenna, the secondary card correspondingly selects the second primary set antenna and the second MIMO antenna to receive the secondary card network injection signal from the base station.

And step 304, when the main card selects a second MIMO antenna in the second grouping antenna as a main card target antenna to receive the 5G network signal, controlling the secondary card to select the second main set antenna and the first MIMO antenna as a secondary card target antenna to receive a secondary card network injection signal from the base station.

Specifically, three antennas are selected from the first grouped antennas as main card target antennas, the first main set antenna, the first diversity antenna and the second diversity antenna are selected, and any one antenna is selected from the second grouped antennas. And the master card receives the 5G network signal using the master card target antenna. When the primary card selects the first primary set antenna, the first diversity antenna, the second diversity antenna and the second MIMO antenna, the secondary card correspondingly selects the second primary set antenna and the first MIMO antenna to receive the secondary card network injection signal from the base station.

Fig. 4 is a flow chart of a method of registering a network in yet another embodiment. As shown in fig. 4, the method further comprises: step 402 and step 404.

And step 402, controlling the main card to send the 5G network signal to the base station by using the first main set antenna and the first diversity antenna.

Specifically, when it is detected that the network standard of the master card is 5G independent networking, the master card needs two antennas to transmit uplink data, and a first master set antenna and a first diversity antenna can be used to transmit a 5G network signal to the base station.

And step 404, controlling the secondary card to send the 4G network signal to the base station by using the second main set antenna and the second diversity antenna.

Specifically, when it is detected that the network format of the secondary card is a 4G network, the secondary card needs two antennas to transmit uplink data, and a second master set antenna and a second diversity antenna may be used to send a 4G network signal to the base station.

It should be understood that although the various steps in the flow charts of fig. 2-4 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2-4 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternating with other steps or at least some of the sub-steps or stages of other steps.

FIG. 5 is a block diagram of a registered network device according to one embodiment. As shown in fig. 5, the apparatus includes:

the obtaining information module 502 is configured to, when it is detected that the electronic device is inserted with at least two SIM cards for user identification, obtain network information corresponding to the at least two SIM cards, where the at least two SIM cards include a main card and an auxiliary card.

Specifically, when the electronic device detects that two Subscriber Identity Modules (SIMs) are inserted into the card slots, the obtaining information Module 502 is used to obtain network information of the two cards. The card with higher priority is regarded as the main card, and the card with lower priority is regarded as the auxiliary card, for example, the priority corresponding to the card slot 1 is higher than that of the card slot 2, and the priority corresponding to the card slot 2 is higher than that of the card slot 3. When SIM cards are inserted into card slot 1 and card slot 2, the SIM card inserted into card slot 1 is regarded as a primary card, and the SIM card inserted into card slot 2 is regarded as a secondary card. When SIM cards are inserted into card slot 2 and card slot 3, the SIM card inserted into card slot 2 is regarded as a primary card, and the SIM card inserted into card slot 3 is regarded as a secondary card. And the electronic equipment respectively acquires the network information of the main card and the auxiliary card.

An update policy module 504, configured to update, when a network registration instruction corresponding to the secondary card is detected, to obtain antenna receiving policies corresponding to the primary card and the secondary card according to the network information, where the antenna receiving policies include: and controlling the secondary card to select a preset number of antennas from the antenna list as secondary card target antennas, wherein the secondary card target antennas comprise at least one antenna in a preset grouping, and the antennas in the preset grouping are high-transmission-performance antennas selected after the antennas in the antenna list are sorted from high to low according to transmission performance.

Specifically, when the base station sends a downlink network injection signal, the corresponding terminal receives the network injection signal and registers for network access. And if the terminal receives a network card registration generating instruction corresponding to the network injection signal. When a network registration instruction corresponding to the secondary card is detected, the update policy module 504 updates the network information of the primary card and the secondary card to obtain an antenna receiving policy corresponding to the primary card and the secondary card. The updated antenna reception strategy includes setting a primary card target antenna and a secondary card target antenna. Setting the sub-card target antenna refers to selecting a preset number of antennas from the antenna list as the sub-card target antenna. The secondary card target antenna has a plurality of antennas, and at least one of the antennas is a predetermined group. The preset grouped antennas are high-transmission-performance antennas which are selected after the antennas in the antenna list are sorted from high to low according to the transmission performance. Setting the main card target antenna refers to taking the remaining antennas in the antenna list except the sub card target antenna as the main card target antenna.

And a network registration module 506, configured to control the secondary card to use the secondary card network injection signal received by the target antenna and perform network registration.

Specifically, the main card receives data issued by the base station by using the main card target antenna, and uploads uplink data to the base station by using the main card target antenna, so that the main card and the base station establish communication. The registration network module 506 controls the secondary card to receive the secondary card registration network signal issued by the base station, and then uses the secondary card target antenna to receive the secondary card network injection signal and register the network.

When the information obtaining module 502 is used by the above-mentioned registered network device to detect that the electronic device is inserted into at least two user identification SIM cards, the at least two SIM cards include a main card and an auxiliary card, and network information corresponding to the main card and the auxiliary card is obtained respectively. When a network registration instruction corresponding to the secondary card is detected by using the update policy module 504, antenna receiving policies corresponding to the primary card and the secondary card are obtained according to network information update, where the antenna receiving policies include: and controlling the secondary card to select a preset number of antennas from the antenna list as secondary card target antennas, wherein the secondary card target antennas comprise at least one antenna in a preset grouping, and the antennas in the preset grouping are high-transmission-performance antennas selected after the antennas in the antenna list are sorted from high to low according to transmission performance. And the registration network module 506 controls the secondary card to receive the secondary card network injection signal by using the secondary card target antenna and register the network. And the auxiliary card receives the auxiliary card registration network access signal sent by the base station by using at least one antenna with excellent transmission performance through updating the receiving strategy, so that the probability of network failure of the auxiliary card registration is reduced.

The division of the modules in the registered network device is only used for illustration, and in other embodiments, the registered network device may be divided into different modules as needed to complete all or part of the functions of the registered network device.

For specific limitations of the registered network device, reference may be made to the above limitations of the registered network method, which are not described herein again. The various modules in the registered network devices described above may be implemented in whole or in part by software, hardware, and combinations thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

Fig. 6 is a schematic diagram of an internal structure of an electronic device in one embodiment. As shown in fig. 6, the electronic device includes a processor, a memory, and a network interface connected by a system bus. Wherein, the processor is used for providing calculation and control capability and supporting the operation of the whole electronic equipment. The memory is used for storing data, programs and the like, and the memory stores at least one computer program which can be executed by the processor to realize the wireless network communication method suitable for the electronic device provided by the embodiment of the application. The memory may include a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The computer program is executable by a processor for implementing a method for registering a network provided in the following embodiments. The internal memory provides a cached execution environment for the operating system computer programs in the non-volatile storage medium. The network interface may be an ethernet card or a wireless network card, etc. for communicating with an external electronic device. The electronic device may be a mobile phone, a tablet computer, or a personal digital assistant or a wearable device, etc.

The implementation of each module in the registered network device provided in the embodiments of the present application may be in the form of a computer program. The computer program may be run on a terminal or a server. The program modules constituted by the computer program may be stored on the memory of the terminal or the server. Which when executed by a processor, performs the steps of the method described in the embodiments of the present application.

The embodiment of the application also provides a computer readable storage medium. One or more non-transitory computer-readable storage media containing computer-executable instructions that, when executed by one or more processors, cause the processors to perform the steps of the method of registering a network.

A computer program product containing instructions which, when run on a computer, cause the computer to perform a method of registering a network.

Any reference to memory, storage, database, or other medium used herein may include non-volatile and/or volatile memory. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM), which acts as external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms, such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), double data rate SDRAM (DDR SDRAM), Enhanced SDRAM (ESDRAM), synchronous Link (Synchlink) DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and bus dynamic RAM (RDRAM).

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A network registration method is applied to electronic equipment, and the electronic equipment supports a plurality of network standards, and is characterized by comprising the following steps:

when the electronic equipment is detected to be inserted into at least two SIM cards for user identification, the at least two SIM cards comprise a main card and an auxiliary card, and network information corresponding to the main card and the auxiliary card is respectively obtained; wherein the priority of the primary card is higher than the priority of the secondary card;

when a network registration instruction corresponding to the auxiliary card is detected, updating and obtaining antenna receiving strategies corresponding to the main card and the auxiliary card according to the network information, wherein the antenna receiving strategies comprise: controlling the secondary card to select a preset number of antennas from an antenna list as secondary card target antennas, wherein the secondary card target antennas comprise at least one antenna in a preset grouping, and the antennas in the preset grouping are high-transmission-performance antennas selected after the antennas in the antenna list are sorted from high to low according to transmission performance;

and controlling the auxiliary card to receive an auxiliary card network injection signal by using the auxiliary card target antenna and registering the network.

2. The method according to claim 1, wherein the antenna list includes six antennas, four high transmission performance antennas are selected from high to low directions according to transmission performance to form a first group antenna, the other two antennas form a second group antenna, and the updating of the antenna reception strategies corresponding to the primary card and the secondary card according to the network information includes:

when the network information corresponding to the main card comprises: the main card and the base station establish 5G independent networking, and the network information corresponding to the auxiliary card comprises: when the secondary card supports a 4G network,

controlling the master card to select four antennas from the antenna list as master card target antennas for receiving 5G network signals, wherein at least one antenna of the master card target antennas belongs to the second group antenna,

and controlling the secondary card to select two antennas except the main card target antenna from the antenna list as the secondary card target antenna.

3. The method of claim 2, wherein the first packet antenna comprises: the controlling the master card to select four antennas from the antenna list as master card target antennas to receive 5G network signals includes:

controlling the master card to select the first master set antenna, the first diversity antenna, and the two second diversity antennas as the master card target antennas to receive 5G network signals.

4. The method of claim 3, wherein the second packet antenna comprises: a first MIMO antenna and a second MIMO antenna, the controlling the master card to select the first master set antenna, the first diversity antenna and two of the second packet antennas as the master card target antennas to receive 5G network signals, comprising:

controlling the master card to select the first master set antenna, the first diversity antenna, the first MIMO antenna, and the second MIMO antenna as the master card target antenna to receive 5G network signals.

5. The method of claim 2, wherein the first packet antenna comprises: the controlling the master card to select four antennas from the antenna list as master card target antennas to receive 5G network signals includes:

controlling the main card to select any one of the first main set antenna, the first diversity antenna, the second diversity antenna and the second packet antenna as the main card target antenna to receive 5G network signals.

6. The method of claim 5, wherein the second packet antenna comprises: a first MIMO antenna and a second MIMO antenna, said controlling said secondary card to select two antennas other than said primary card target antenna from said antenna list as said secondary card target antenna, comprising:

when the main card selects the first MIMO antenna in the second grouping antenna as the main card target antenna to receive 5G network signals, controlling the secondary card to select the second main set antenna and the second MIMO antenna to receive the secondary card network injection signals from a base station;

when the main card selects the second MIMO antenna in the second grouping antenna as the main card target antenna to receive 5G network signals, the auxiliary card is controlled to select the second main set antenna and the first MIMO antenna as the auxiliary card target antenna to receive the auxiliary card network injection signals from a base station.

7. The method according to any one of claims 3 to 6, further comprising:

controlling the main card to send a 5G network signal to the base station by using the first main set antenna and the first diversity antenna;

and controlling the secondary card to send 4G network signals to the base station by using the second main set antenna and the second diversity antenna.

8. A registered network device is applied to an electronic device, and the electronic device supports a plurality of network standards, and is characterized by comprising:

the system comprises an information acquisition module, a data acquisition module and a data transmission module, wherein the information acquisition module is used for acquiring network information corresponding to at least two SIM cards including a main card and an auxiliary card when the electronic equipment is detected to be inserted into the at least two SIM cards; wherein the priority of the primary card is higher than the priority of the secondary card;

an update policy module, configured to update, when a network registration instruction corresponding to the secondary card is detected, to obtain an antenna receiving policy corresponding to the primary card and the secondary card according to the network information, where the antenna receiving policy includes: controlling the secondary card to select a preset number of antennas from an antenna list as secondary card target antennas, wherein the secondary card target antennas comprise at least one antenna in a preset grouping, and the antennas in the preset grouping are high-transmission-performance antennas selected after the antennas in the antenna list are sorted from high to low according to transmission performance;

and the network registration module is used for controlling the auxiliary card to utilize the auxiliary card network injection signal received by the target antenna and registering the network.

9. An electronic device comprising a memory and a processor, the memory having stored therein a computer program that, when executed by the processor, causes the processor to perform the steps of the method of registering a network as claimed in any one of claims 1 to 7.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 7.

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