CN115835371B

CN115835371B - Test method, system, electronic equipment and medium for simulating network multi-card access

Info

Publication number: CN115835371B
Application number: CN202211571228.7A
Authority: CN
Inventors: 叶阳; 陈茜
Original assignee: China United Network Communications Group Co Ltd
Current assignee: China United Network Communications Group Co Ltd
Priority date: 2022-12-08
Filing date: 2022-12-08
Publication date: 2024-09-17
Anticipated expiration: 2042-12-08
Also published as: CN115835371A

Abstract

The disclosure provides a test method, a test system, an electronic device and a computer readable storage medium for simulating network multi-card access, so as to solve the technical problem that a multi-card terminal is too long in a search access process of a cell, wherein the method comprises the following steps: acquiring a cell list of a network; respectively distributing corresponding accessible cells for a plurality of intelligent cards in the terminal; after the terminal initiates network searching, the intelligent card in the control terminal initiates a registration request only to the accessible cell corresponding to the intelligent card in the searched cells. According to the method and the device, each intelligent card in the terminal can initiate registration only for the corresponding cell, the situation that one cell receives two registration requests simultaneously is prevented, the directional quick network searching process of the multi-card terminal in the testing process is realized, waiting time is shortened, and testing efficiency is improved.

Description

Test method, system, electronic equipment and medium for simulating network multi-card access

Technical Field

The disclosure relates to the field of communication technologies, and in particular, to a test method for simulating network multi-card access, a test system for simulating network multi-card access, an electronic device, and a computer readable storage medium.

Background

Currently, dual-card mobile phones have become a major mainstream in the mobile phone industry, and are aimed at the requirements of testing the functions and performance of the dual-card mobile phones. Through the development of communication technology and the upgrade of network capability of operators, the mobile phone has been developed into a state where multiple capabilities such as 3G, 4G, 5G and the like coexist. The radio frequency channels of the mobile phone are designed and analyzed, and a great part of the radio frequency channels adopted by the double-card mobile phone between different mobile phone cards are the same, so that the searching speed is very slow in the initial network searching process after the mobile phone is started, and the searching speed is about 30 seconds. This time is not affected by occasional disposable perception for an average user, since the on-off operation is not frequently performed. However, for the mobile phone test industry, especially the instrument test industry, the mobile phone test industry is limited by instrument hardware composition, and only one terminal can be accessed on the same test cell which is simulated in the current stage of the comprehensive tester. If two registration requests are received at the same time, only one request is processed and the other request is ignored, so that the search access of the cell is always performed at the terminal side, and finally, after the waiting time is overtime, the connection of the other cell is tried. The overall search time is long, and when hundreds or thousands of use cases are executed, the accumulated test time is greatly amplified. The working efficiency is seriously affected.

Disclosure of Invention

In order to at least solve the technical problem that the multi-card terminal in the prior art has too long time in the search access process of the cell, the present disclosure provides a test method for simulating network multi-card access, a test system for simulating network multi-card access, an electronic device and a storage medium, which can realize the directional rapid network search flow of the multi-card terminal in the test process, reduce the waiting time and improve the test efficiency.

In a first aspect, the present disclosure provides a method for testing analog network multi-card access, the method comprising:

Acquiring a cell list of a network;

Respectively distributing corresponding accessible cells for a plurality of intelligent cards in the terminal;

after the terminal initiates network searching, the intelligent card in the control terminal initiates a registration request only to the accessible cell corresponding to the intelligent card in the searched cells.

Further, the allocating corresponding accessible cells to the plurality of smart cards in the terminal includes:

setting a cell ID verification module in the smart card;

configuring the cell ID in the cell list into a black-and-white list of a cell ID checking module;

The black-and-white list comprises a cell ID, a smart card identifier and an access attribute of the smart card, wherein the access attribute comprises a black list or a white list, if the access attribute is the black list, the smart card is forbidden to access, and if the access attribute is the white list, the smart card is allowed to access.

Further, the corresponding smart card identifier includes:

a mobile phone number of the smart card or a card slot identification of the terminal;

And if the corresponding intelligent card identifier is the card slot identifier of the terminal, binding the intelligent card with the card slot of the terminal.

Further, the method further comprises:

When corresponding accessible cells are respectively allocated to a plurality of intelligent cards in the terminal, if the number of the cells is larger than that of the intelligent cards in the terminal, a plurality of accessible cells are allocated to one of the intelligent cards.

Further, the smart card in the control terminal only initiates a registration request to an accessible cell corresponding to the smart card in the searched cells, which includes:

The searched cell information is fed back to a cell ID check module in the intelligent card by an AT instruction;

Checking whether the access attribute of the smart card is a white list or not for the cell ID corresponding to the cell information through a cell ID checking module;

If yes, sending a control instruction to the radio frequency front end of the mobile phone through the AT instruction, and controlling the protocol stack of the mobile phone to initiate the network residence flow of the smart card to the cell corresponding to the cell information.

In a second aspect, the present disclosure provides a test system for simulating network multi-card access, the system comprising:

An acquisition module configured to acquire a cell list of a network;

The distribution module is used for respectively distributing corresponding accessible cells for a plurality of intelligent cards in the terminal;

And the access module is used for controlling the intelligent card in the terminal to initiate a registration request only to an accessible cell corresponding to the intelligent card in the searched cells after the terminal initiates network searching.

Further, the allocation module includes:

a setting unit configured to set a cell ID verification module in the smart card;

A configuration unit configured to configure the cell IDs in the cell list into a black-and-white list of the cell ID verification module;

Further, the access module includes:

A feedback unit configured to feed back the searched cell information to a cell ID verification module in the smart card in an AT instruction;

the verification unit is used for verifying whether the access attribute of the smart card is a white list or not for the cell ID corresponding to the cell information through the cell ID verification module;

And the access unit is arranged to send a control instruction to the radio frequency front end of the mobile phone through the AT instruction if the check unit is checked to be yes, and control the protocol stack of the mobile phone to initiate the network residence flow of the smart card to the cell corresponding to the cell information.

In a third aspect, the present disclosure provides an electronic device, including a memory and a processor, where the memory stores a computer program, and when the processor runs the computer program stored in the memory, the processor executes the test method for simulating network multi-card access according to any one of the first aspects.

In a fourth aspect, the present disclosure provides a computer readable storage medium having a computer program stored thereon, which when executed by a processor implements the method for testing for analog network multi-card access according to any one of the first aspects.

The beneficial effects are that:

According to the test method, the test system, the electronic equipment and the computer readable storage medium for simulating network multi-card access, which are provided by the disclosure, corresponding accessible cells are respectively distributed to a plurality of intelligent cards in a terminal by acquiring each cell of a test network, so that the cells to be accessed corresponding to each intelligent card are determined; after the terminal initiates network searching, the intelligent card in the control terminal initiates a registration request only to the accessible cell corresponding to the intelligent card in the searched cells. Each intelligent card in the terminal only initiates registration to the corresponding cell, so that the situation that one cell receives two registration requests simultaneously is prevented, the directional quick network searching process of the multi-card terminal in the testing process is realized, the waiting time is reduced, and the testing efficiency is improved.

Drawings

Fig. 1 is a flow chart of a test method for simulating network multi-card access according to a first embodiment of the disclosure;

Fig. 2 is a schematic structural diagram of a special SIM card according to a first embodiment of the present disclosure;

Fig. 3 is a schematic diagram of a test system for simulating network multi-card access according to a second embodiment of the disclosure;

fig. 4 is a schematic diagram of an electronic device according to a third embodiment of the disclosure.

Detailed Description

In order that those skilled in the art will better understand the technical solutions of the present disclosure, the present disclosure will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments and figures described herein are merely illustrative of the invention, and are not limiting of the invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present disclosure and the above-described figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order; moreover, embodiments of the present disclosure and features of embodiments may be arbitrarily combined with each other without conflict.

Wherein the terminology used in the embodiments of the disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

In the following description, suffixes such as "module", "component", or "unit" for representing elements are used only for facilitating the description of the present disclosure, and are not of specific significance per se. Thus, "module," "component," or "unit" may be used in combination.

The following describes the technical solutions of the present disclosure and how the technical solutions of the present disclosure solve the above technical problems existing in the prior art in detail with specific embodiments. The following embodiments may be combined with each other, and the same or similar concepts or processes may not be described in detail in some embodiments.

In the current process of testing the multi-card mobile phone through the comprehensive tester instrument, a certain cell tested by the comprehensive tester can receive two more registration requests, so that other terminals can search for another cell after waiting for a long time without reaction except for one request which can be processed by the cell, and the single test time is greatly prolonged.

Taking the example that the double cards are all communication cards, the traditional testing process of the double-card mobile phone by using the comprehensive tester instrument is as follows:

1. the comprehensive tester initiates the test of a cell 1 and a cell 2 of which the PLMN is 46001, and the cell 1 and the cell 2 are communicated NR same-frequency cells;

2. the mobile phone initiates network searching to the cell 1 and the cell 2, and initiates a registration process to the cell 1 or the cell 2 at random;

3. two registration requests are received on a certain cell of the comprehensive tester, but only one request is processed, and the other request is ignored. Either cell phone card 1 or card 2 may register with the requesting cell and another Zhang Kachang waits for no reaction to search for another cell.

4. The other cell of the comprehensive tester receives the registration request, and the second card of the mobile phone is successfully registered.

The registration process is rerun for the next test, and the time of the whole searching process is generally more than 30 seconds, so that the testing efficiency is seriously affected.

To solve the problem, a first embodiment of the present disclosure provides a test method for simulating network multi-card access, as shown in fig. 1, the method includes steps S101 to S103:

step S101: acquiring a cell list of a network;

In the mobile phone test using the comprehensive tester instrument, a model network is used, at this time, the Cell ID of the network Cell is obtained, and the Cell to be tested is formed into a Cell list.

Step S102: respectively distributing corresponding accessible cells for a plurality of intelligent cards in the terminal;

After the cell category is obtained, corresponding accessible cells are respectively allocated to a plurality of intelligent cards in the terminal, and when the corresponding accessible intelligent cards are allocated, only one corresponding accessible intelligent card in one cell needs to be ensured.

During distribution, the accessible cells and the card slots of the terminal are corresponding, namely the card slots of the terminal are used for binding instead of the smart card, so that only one card slot of one cell is ensured to register and apply, and the following aims are achieved: the smart card in the card slot 1 finally searches the cell 1, the smart card in the card slot 2 finally searches the cell 2 … and the smart card in the card slot N searches the cell N;

In the embodiment of the disclosure, the smart card can be also upgraded and improved, and the smart card can be SIM, USIM, eSIM cards and the like; taking the SIM as an example, the structure of the special SIM card after upgrading is shown in fig. 2, and a Cell ID verification module (namely a Cell ID verification module) and a radio frequency interaction module are added outside a traditional SIM card module, wherein the SIM card module comprises all functions of the traditional SIM card, and the Cell ID verification module stores a black-and-white list of forbidden Cell IDs and performs Cell ID verification; the radio frequency interaction module interacts with the front end of the baseband of the mobile phone through a universal AT instruction, and controls the network search of a radio frequency channel; the respective allocation of corresponding accessible cells for a plurality of smart cards in a terminal may be achieved by:

setting a cell ID verification module in the smart card;

The known network Cell ID parameters are configured on a Cell ID verification module black and white list, which may be as shown in table 1 below.

Table 1: black and white list of cell ID checking module

Configuration ID	Network Cell ID	SIM card	Black and white list
				1	Cell ID1	Card 1	White list
2	Cell ID2	Card 2	White list
				3	Cell ID1	Card 2	Blacklist
4	Cell ID2	Card 1	Blacklist

Through the black-and-white list, card 1 will only allow access to the cell with ID 1, and prohibit access to the cell with ID 2; card 2 only allows access to the cell with ID 2 and prohibits access to the cell with ID 1.

Further, the corresponding smart card identifier includes:

The smart card can be identified by a mobile phone number, and can be also bound with a card slot of the terminal, so that the smart card is determined by the card slot identification; when the smart card is identified as the card slot identification of the terminal, the black and white list in the smart card can be as shown in the following table 2

Table 1: black and white list of cell ID checking module

Configuration ID	Network Cell ID	SIM card slot	Black and white list
				1	Cell ID1	Clamping groove 1	White list
2	Cell ID2	Clamping groove 2	White list
				3	Cell ID1	Clamping groove 2	Blacklist
4	Cell ID2	Clamping groove 1	Blacklist

Step S103: after the terminal initiates network searching, the intelligent card in the control terminal initiates a registration request only to the accessible cell corresponding to the intelligent card in the searched cells.

After the terminal initiates network searching, for the searched cells, the intelligent card in the terminal is controlled to initiate a registration request only to the accessible cell corresponding to the intelligent card in the searched cells, such as the cell 1 with the ID of 1 and the cell 2 with the ID of 2; according to the smart card corresponding to the cell, for example, the accessible cell of the smart card 1 is the cell 1, the cell 2 is not the accessible cell of the smart card 1, the accessible cell of the smart card 2 is the cell 2, the cell 1 is not the accessible cell of the smart card 2, then the smart card 1 is controlled to initiate a registration request to the cell 1, the smart card 2 is controlled to initiate a registration request to the cell 2, after the cell 1 is searched, the card 2 does not initiate a registration request, and after the cell 2 is searched, the card 1 does not initiate a registration request. By distributing independent intelligent cards to each cell, the situation that one cell receives two registration requests simultaneously can be prevented, the directional quick network searching process of the multi-card terminal in the testing process is realized, the waiting time is reduced, and the testing efficiency is improved.

The terminal initiates network searching, searches cell 1 with ID1 and cell 2 with ID 2, and the radio frequency front end feeds back the searched cell information to a cell ID check module of the device through the radio frequency interaction unit by AT instructions.

Through the district ID check-up module that sets up in the smart card carries out the check-up to the district, only the accessible district of smart card, just initiate the residence network flow of district through the radio frequency front end of terminal to guarantee that a district only has a terminal to register the application, prevent that a district from receiving a plurality of registration request, can only handle one, thereby lead to the smart card that is not handled to need wait for a long time to have no reaction, search for another district again, waste time, test time overlength, the not efficient problem. And finally, the directional rapid network searching process in the testing process is realized.

Further, the method further comprises:

When corresponding accessible cells are respectively allocated to a plurality of intelligent cards in the terminal, one cell needs to be ensured to be accessible to the intelligent cards in one terminal, if the number of the cells is larger than that of the intelligent cards in the terminal, a plurality of accessible cells are allocated to one of the intelligent cards, so that each cell is provided with the accessible intelligent card, and errors are prevented during allocation.

According to the embodiment of the disclosure, each intelligent card in the terminal can initiate registration only for the corresponding cell, so that the situation that one cell receives two registration requests simultaneously is prevented, the directional quick network searching process of the multi-card terminal in the testing process is realized, the waiting time is reduced, and the testing efficiency is improved.

Fig. 3 is a schematic diagram of a test system for simulating network multi-card access according to a second embodiment of the present disclosure, as shown in fig. 3, where the system includes:

An acquisition module 11 arranged to acquire a cell list of the network;

an allocation module 12 arranged to allocate corresponding accessible cells for a plurality of smart cards in the terminal, respectively;

And the access module 13 is configured to control the smart card in the terminal to initiate a registration request only to an accessible cell corresponding to the smart card in the searched cells after the terminal initiates the network search.

Further, the distribution module 11 includes:

Further, the access module 13 includes:

Further, the corresponding smart card identifier includes:

The system further comprises a binding module 14;

The binding module 14 is configured to bind the smart card with the card slot of the terminal if the corresponding smart card identifier is the card slot identifier of the terminal.

Further, the distribution module 12 is further configured to:

The test system for simulating network multi-card access in the second embodiment of the present disclosure is used for implementing the test method for simulating network multi-card access in the first embodiment of the method, so that the description is simpler, and the description can be specifically referred to the related description in the first embodiment of the method, which is not repeated here.

In addition, as shown in fig. 4, the third embodiment of the present disclosure further provides an electronic device, including a memory 100 and a processor 200, where the memory 100 stores a computer program, and when the processor 200 runs the computer program stored in the memory 100, the processor 200 executes the above possible methods.

The memory 100 is connected to the processor 200, the memory 100 may be a flash memory, a read-only memory, or other memories, and the processor 200 may be a central processing unit or a single chip microcomputer.

Furthermore, embodiments of the present disclosure also provide a computer-readable storage medium having stored thereon a computer program that is executed by a processor to perform the various possible methods described above.

Computer-readable storage media include volatile or nonvolatile, removable or non-removable media implemented in any method or technology for storage of information such as computer-readable instructions, data structures, computer program modules or other data. Computer-readable storage media includes, but is not limited to, RAM (Random Access Memory ), ROM (Read-Only Memory), EEPROM (ELECTRICALLY ERASABLE PROGRAMMABLE READ ONLY MEMORY, charged erasable programmable Read-Only Memory), flash Memory or other Memory technology, CD-ROM (Compact Disc Read-Only Memory), digital versatile disks (DVD, digital Video Disc) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can be accessed by a computer.

It is to be understood that the above embodiments are merely exemplary embodiments employed to illustrate the principles of the present disclosure, however, the present disclosure is not limited thereto. Various modifications and improvements may be made by those skilled in the art without departing from the spirit and substance of the disclosure, and are also considered to be within the scope of the disclosure.

Claims

1. A method for testing analog network multi-card access, the method comprising:

Acquiring a cell list of a network;

corresponding accessible cells are respectively allocated to a plurality of intelligent cards in the terminal, and when the corresponding accessible cells are allocated, only one corresponding accessible intelligent card in one cell needs to be ensured;

2. The method according to claim 1, wherein the assigning corresponding accessible cells to the plurality of smart cards in the terminal respectively comprises:

setting a cell ID verification module in the smart card;

3. The method of testing according to claim 2, wherein the corresponding smart card identification comprises:

4. The method of testing according to claim 1, wherein the method further comprises:

5. The method according to claim 2, wherein the smart card in the control terminal initiates the registration request only to the accessible cell corresponding to the smart card in the searched cells, including:

6. A test system for simulating network multi-card access, the system comprising:

An acquisition module configured to acquire a cell list of a network;

The distribution module is arranged for respectively distributing corresponding accessible cells for a plurality of intelligent cards in the terminal, and ensuring that only one corresponding accessible intelligent card can exist in one cell during distribution;

7. The test system of claim 6, wherein the distribution module comprises:

8. The test system of claim 7, wherein the access module comprises:

9. An electronic device comprising a memory and a processor, wherein the memory stores a computer program, and wherein the processor performs the method of simulating network multi-card access of any one of claims 1-5 when the processor runs the computer program stored in the memory.

10. A computer readable storage medium, characterized in that the computer readable storage medium has stored thereon a computer program which, when executed by a processor, implements the method for simulating network multi-card access according to any of claims 1-5.