CN112105025A - eSIM-based operator network test system and method - Google Patents

Abstract

The invention provides an operator network testing system and method based on eSIM. The system comprises: the system comprises a management platform, an SM-DP + and a plurality of test devices, wherein an eSIM card is integrated in the plurality of test devices; the management platform is used for receiving network test request information of a user and sending code number data to be tested in the network test request information to the SM-DP +; the SM-DP + is used for storing and managing the received code number data; the test equipment is used for acquiring corresponding code number data from the SM-DP + according to the test instruction, writing the acquired code number data into an eSIM card of the test equipment, authenticating with the base station by using the code number data in the eSIM card, and executing a corresponding test task according to the test instruction. By adopting SM-DP + to store and manage code number data, the plug-in SIM card to be tested does not need to be manually inserted into the card pool device, the testing efficiency is improved, and the testing cost is reduced.

Description

eSIM-based operator network test system and method

Technical Field

The embodiment of the invention relates to the technical field of wireless communication, in particular to an embedded Subscriber identity Module (eSIM) -based operator network test system and method.

Background

In order to ensure the quality of service, user experience, and normal stability of the charging system, mobile operators often need to perform a lot of repeated tests on the network conditions in their network coverage areas. Under the traditional scheme, a tester needs to be sent to a network coverage area of a mobile operator to carry out field test, so that the test cost is extremely high, and the test is more difficult to carry out under the condition of city crossing and even country crossing.

Therefore, a global testing platform based on the cloud SIM technology is produced. By deploying the test equipment in the global, inserting the plug-in SIM card to be tested into the card pool equipment, using the authentication data of the card pool equipment to realize the network login of the test equipment, and realizing the machine-card separation so as to meet the global test requirement. However, the global testing platform based on the cloud SIM technology still needs to manually insert the plug-in SIM card to be tested into the card pool device, which is inefficient and costly.

Disclosure of Invention

The embodiment of the invention provides an eSIM-based operator network test system and method, which are used for solving the problems of low efficiency and high cost in the existing cloud SIM-based technology for testing an operator network.

In a first aspect, an embodiment of the present invention provides an eSIM-based operator network test system, including:

the system comprises a management platform, a code number management Data Preparation platform (SM-DP +) and a plurality of test devices, wherein the management platform is in communication connection with the SM-DP +, the plurality of test devices are in communication connection with the management platform respectively, the plurality of test devices are in communication connection with the SM-DP + respectively, and eSIM cards are integrated in the plurality of test devices;

the management platform is used for receiving network test request information of a user, wherein the network test request information comprises code number data to be tested, area information to be tested, a test type and a corresponding relation among the code number data, the area information and the test type;

the management platform is used for sending the code number data to be tested to the SM-DP +;

the SM-DP + is used for storing and managing the received code number data;

the management platform is used for determining target test equipment for executing a test task from the plurality of test equipment according to the area information to be tested;

the management platform is used for generating a test instruction according to the test type and the corresponding relation and sending the test instruction to each target test device;

the test equipment is used for acquiring corresponding code number data from the SM-DP + according to the test instruction after receiving the test instruction, and writing the acquired code number data into an eSIM card of the test equipment;

the test equipment is used for authenticating with the base station by using the code number data in the eSIM card and executing a corresponding test task according to the test instruction.

In one embodiment, the method for determining a target test device for performing a test task from a plurality of test devices according to the area information to be tested by the management platform comprises the following steps:

and determining the test equipment which is matched with the position information and the area information to be tested and is in the idle state at present as target test equipment.

In one embodiment, the testing equipment comprises a positioning device, a positioning device and a control device, wherein the positioning device is used for acquiring the position information of the testing equipment;

the test equipment is used for sending the position information acquired by the positioning device to the management platform;

the management platform is used for updating the position information of each testing device stored in the management platform according to the position information reported by each testing device.

In one embodiment, the test instruction comprises a code number identification and a script identification;

the test equipment is used for acquiring corresponding code number data from the SM-DP + according to the test instruction and comprises the following steps: downloading code number data corresponding to the code number identification from SM-DP + by a Local Profile Assistant (LPA);

the test equipment is used for executing corresponding test tasks according to the test instructions and comprises the following steps: and starting a test script corresponding to the script identifier to test the network condition.

In an embodiment, the test device is further configured to analyze and process the obtained test process data to obtain test result data, and send the obtained test result data to the management platform.

In a second aspect, an embodiment of the present invention provides an eSIM-based operator network testing method, which is applied to the system according to any one of the first aspect, where the method includes:

receiving network test request information of a user, wherein the network test request information comprises code number data to be tested, area information to be tested, a test type and a corresponding relation among the code number data, the area information and the test type;

storing and managing code number data to be tested by adopting a code number management data preparation platform SM-DP +;

determining target test equipment for executing a test task according to the area information to be tested;

generating a test instruction according to the test type and the corresponding relation, and sending the test instruction to each target test device;

each target test device acquires corresponding code number data from the SM-DP + according to the test instruction, and writes the acquired code number data into an eSIM card of the test device;

and each target test device authenticates the base station by using the code number data in the eSIM card and executes a corresponding test task according to the test instruction.

In one embodiment, determining target test equipment for performing a test task according to area information to be tested comprises:

and determining the test equipment which is matched with the position information and the area information to be tested and is in the idle state at present as target test equipment.

In one embodiment, the method further comprises:

acquiring the position information of each test device through a positioning device in each test device;

and updating the position information of each testing device stored in the system according to the acquired position information.

In one embodiment, the test instruction comprises a code number identification and a script identification;

acquiring corresponding code number data from the SM-DP + according to the test instruction, wherein the method comprises the following steps: downloading code number data corresponding to the code number identification from SM-DP + by a local code number assistant LPA;

executing the corresponding test task according to the test instruction comprises the following steps: and starting a test script corresponding to the script identifier to test the network condition.

In one embodiment, the method further comprises:

and analyzing and processing the obtained test process data by each target test device to obtain and return test result data.

The invention provides an eSIM-based operator network test system and method, which adopt test equipment integrated with an eSIM card to execute a test task, store and manage code number data through SM-DP +, download the code number data from the SM-DP + according to the requirement of network test request information and write the code number data into the eSIM card of the test equipment, independently finish authentication interaction with a base station by the test equipment, and execute a corresponding test task after the authentication is passed to finish the test of an operator network. The SM-DP + is adopted to store and manage the number data, card pool equipment and a plug-in SIM card are not needed, the testing efficiency is effectively improved, and the labor cost and the equipment cost are saved. For the user, only the network test request information needs to be sent, so that the test flow is greatly simplified, and the user experience is improved.

Drawings

FIG. 1 is a schematic diagram of an architecture of an embodiment of a global testing platform based on cloud SIM technology;

fig. 2 is a schematic diagram of an architecture of an embodiment of an eSIM-based carrier network test system provided in the present invention;

fig. 3 is a flowchart of an embodiment of an eSIM-based operator network testing method according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

To alleviate testing pressure on their own, mobile operators often rely on specialized testing services provided by test plan providers to test network conditions within their network coverage areas. With the rapid development of the cloud SIM technology, test scheme providers gradually adopt the cloud SIM technology for testing. Test plan providers offer full-scale professional testing services to mobile operators by deploying test nodes widely around the globe. Fig. 1 is a schematic architecture diagram of an embodiment of a global testing platform based on a cloud SIM technology. As shown in fig. 1, a global test platform based on cloud SIM technology may include a card pool device, a cloud system, and a plurality of test nodes. The card pool device is used for storing and managing a large number of plug-in SIM cards in a centralized manner, and the SIM cards are required to be manually inserted into the card pool device. After the test node receives the test instruction, the authentication data in the card pool equipment is used for interacting with the base station where the test node is located through the cloud system in a remote authentication mode, so that authentication is completed, namely the SIM card and the authentication parameters are calculated in the cloud system, and the communication module is separated from the machine card of the local test node. And after the authentication is completed, the test node starts a test script and executes a test task.

Taking an example that a mobile operator uses a global test platform based on a cloud SIM technology provided by a test scheme provider to test the network state of the operator, a flow of the existing test based on the cloud SIM technology is explained.

When a mobile operator has a test requirement, a card manufacturer is required to be entrusted to manufacture the code number data to be tested into a plug-in SIM card, and then the manufactured plug-in SIM card is mailed to a test scheme provider. After receiving the plug-in SIM card, the test plan provider needs to dispatch a worker to manually insert the plug-in SIM card into the card pool device of the test platform. After the SIM card is inserted, the mobile operator needs to select the SIM card to be tested and the corresponding test node through the cloud system to initiate the test request. The production and mailing of the plug-in SIM is not only time consuming, but also increases the testing cost for the mobile operator. The test plan provider also charges the maintenance fee to the operator according to the number of the existing plug-in SIM cards in the card pool equipment, and further increases the test cost of the mobile operator. The SIM card is manually inserted and pulled out, which undoubtedly also increases the operation cost of the test solution provider. The complex flow also reduces the efficiency of the test.

In order to solve various defects existing in the existing cloud SIM-based operator network test, the application provides an eSIM-based operator network test system. Fig. 2 is a schematic structural diagram of an embodiment of an eSIM-based operator network test system provided in the present invention. As shown in fig. 2, the eSIM-based operator network test system provided in this embodiment may include: the system comprises a management platform 10, a code number management data preparation platform SM-DP +20 and a plurality of test devices 30, wherein the management platform 10 is in communication connection with the SM-DP +20, the test devices 30 are in communication connection with the management platform 10 respectively, the test devices 30 are in communication connection with the SM-DP +20 respectively, and an eSIM card is integrated in the test devices 30. The SM-DP + in this embodiment is built following the eSIM standard, i.e., the SM-DP + meets the requirements of the eSIM protocol. It should be noted that, the 3 test devices shown in fig. 2 are only used for illustration, and the number and the deployment positions of the test devices required in the actual system may be determined according to the test requirements, which is not limited to this.

The management platform 10 is configured to receive network test request information of a user, where the network test request information includes code number data to be tested, area information to be tested, a test type, and a corresponding relationship between the code number data, the area information, and the test type. In an alternative embodiment, the network test request information may be transmitted in the form of a file, for example, a mobile operator may convert the test requirement into a file carrying the network test request information according to a format specified by the system, and upload the file to the management platform 10; in another alternative embodiment, the management platform 10 may collect the network test request information of the user in real time by providing an online network test request information collection page. The network test request information of the user can be conveniently and quickly acquired no matter in a file mode or a real-time acquisition mode. For mobile operators, the plug-in SIM card does not need to be manufactured or mailed, the mobile operators do not need to wait or undertake extra cost, and the user satisfaction can be greatly improved; for a test scheme provider, a worker does not need to be dispatched to manually insert the plug-in SIM card into the card pool equipment of the test platform, so that the test operation cost can be reduced, the test flow is simplified, and the test efficiency is improved.

The network test request information may include code number data to be tested, area information to be tested, a test type, and a correspondence between the code number data, the area information, and the test type. Wherein, each code number data at least comprises core authentication information; the area information is used for indicating a position where a test is expected to be performed; the test type may be, for example, a voice test, a data test, a reliability test, a tamper resistance test, etc. Table 1 is an example of network test request information provided in an embodiment, where Profile refers to a piece of operator number resource containing core authentication information. As shown in table 1, different types of tests can be performed using different code number data in the same area, and a plurality of types of tests can be performed using the same code number data in the same area.

TABLE 1

Number data	Region information	Type of test
			Profile1	Beijing	Voice testing
Profile2	Beijing	Data testing
			Profile3	Shenzhen (Shenzhen medicine)	Reliability test
Profile4	Xinjiang	Anti-interference test
			Profile5	Pearl sea	Voice testing
Profile6	Xian (medicine for curing acute and chronic hepatitis)	Data testing, voice testing

The management platform 10 is configured to send, after receiving the network test request message, the code number data to be tested therein to the SM-DP +20, where the SM-DP +20 is configured to store and manage the received code number data.

The management platform 10 is configured to determine a target test device 30 for performing a test task from the plurality of test devices 30 according to the area information to be tested. In an alternative embodiment, the management platform 10 may determine the test device 30, which is matched with the location information and the area information to be tested and is currently in the idle state, as the target test device. If the location where the test is expected to be performed is Beijing as indicated by the area information to be tested, the management platform 10 selects a target test device from the test devices deployed in Beijing. The idle state in this embodiment means that there are enough resources for executing the test task. It will be appreciated that the management platform is also configured to obtain the load status of each test device 30 in real time, so as to select the optimal target test device. For example, when the number of test devices whose position information matches the area information to be tested is larger than the number of required test devices, a test device with a light load is preferentially selected.

The management platform 10 is configured to generate a test instruction according to the test type and the corresponding relationship, and send the test instruction to each target test device 30. The test instruction in this embodiment may include a code number identifier and a script identifier. The code number identification is used for uniquely identifying code number data, and the script identification is used for uniquely identifying the test script. The SM-DP +20 stores a large amount of code number data, and the testing device 30 is configured to download, according to the code number identifier in the test instruction, the code number data corresponding to the code number identifier from the SM-DP +20 by using a Local Profile Assistant (LPA), write the obtained code number data in an eSIM card of the testing device 30, and perform authentication with the base station by using the code number data in the eSIM card. In this embodiment, the code number data to be tested is stored in the eSIM card of the testing device 30, that is, the machine card and the base station all complete authentication interaction in the local testing device. The test equipment 30 is used for executing corresponding test tasks according to the test instructions. A large number of test scripts for performing different tests are preset in each test device, and in this embodiment, the test device 30 is configured to start the test script corresponding to the script identifier according to the script identifier in the test instruction, so as to test the network condition. For example, information such as delay, uplink and downlink rates of the network in the area to be tested is collected.

The eSIM-based operator network test system provided by this embodiment executes a test task by using test equipment integrated with an eSIM card, stores and manages code data through SM-DP +, downloads code data from SM-DP + as needed according to network test request information, and writes the code data into the eSIM card of the test equipment, where the test equipment independently completes authentication interaction with a base station, and executes a corresponding test task after the authentication is passed to complete a test on an operator network. The SM-DP + is adopted to store and manage the number data, card pool equipment and a plug-in SIM card are not needed, the testing efficiency is effectively improved, and the labor cost and the equipment cost are saved. For the user, only the network test request information needs to be sent, so that the test flow is greatly simplified, and the user experience is improved.

It can be understood that after the test device is deployed, the location information of the test device may be changed due to device maintenance, device update, and the like, and if the corresponding update is not performed in the system in time, a selection error of the target test device may be caused. Therefore, on the basis of the above embodiment, the position information of each testing device is obtained in real time, so as to accurately select the target testing device. Each testing device 30 in the eSIM-based operator network testing system provided in this embodiment further includes a positioning device, configured to obtain location information of the testing device 30. The Positioning device may be, for example, a Global Positioning System (GPS), a BeiDou Navigation Satellite System (BDS), or the like. The testing devices 30 are configured to send the position information acquired by the positioning device to the management platform 10, and the management platform 10 is configured to update the position information of each testing device 30 stored in the management platform 10 according to the position information reported by each testing device 30.

In an optional implementation, the testing device 30 is configured to directly send the obtained testing process data to the management platform 10, and the management platform 10 analyzes the testing process data to evaluate the network condition of the operator. There are typically a large number of test devices in a test system performing the test tasks, which results in an overload of the management platform 10.

In order to reduce the load of the management platform 10, on the basis of the foregoing embodiment, the eSIM-based operator network test system provided in this embodiment analyzes test procedure data in a distributed manner. Specifically, each testing device 30 is further configured to analyze and process the obtained testing process data to obtain testing result data, and send the obtained testing result data to the management platform 10. The data in the test process is analyzed and processed in a distributed mode, so that the load of the management platform 10 is reduced, the data volume sent to the management platform by the test equipment is reduced, and the network communication load is reduced.

Fig. 3 is a flowchart of an embodiment of an eSIM-based operator network testing method according to the present invention. The method may be applied to any of the systems described above. As shown in fig. 3, the method provided by this embodiment may include:

s301, receiving network test request information of a user, wherein the network test request information comprises code number data to be tested, area information to be tested, a test type and a corresponding relation among the code number data, the area information and the test type.

The network test request information can be transmitted in a file form, and can also be acquired in real time in an online mode.

S302, storing and managing code number data to be tested by adopting a code number management data preparation platform SM-DP +.

And the code number management data preparation platform SM-DP + is established according to the eSIM standard, and meets the requirements of an eSIM protocol. And the management platform acquires the code number data to be tested from the received network test request information and sends the code number data to the SM-DP +, and the code number data is stored and managed by the SM-DP +.

S303, determining target test equipment for executing the test task according to the to-be-tested region information.

In an alternative embodiment, the test device whose position information matches the area information to be tested and is currently in an idle state may be determined as the target test device. The idle state in this embodiment means that there are enough resources for executing the test task.

In another optional implementation, the load state of each testing device may also be obtained in real time, and the target testing device is determined according to the area information to be tested, the position information of the testing device, and the load state of the testing device.

And S304, generating a test instruction according to the test type and the corresponding relation, and sending the test instruction to each target test device.

The test instruction in this embodiment may include a code number identifier and a script identifier. The code number identification is used for uniquely identifying code number data, and the script identification is used for uniquely identifying the test script.

S305, each target test device obtains corresponding code number data from the SM-DP + according to the test instruction, and writes the obtained code number data into an eSIM card of the test device.

Each target test device can download code number data corresponding to the code number identification from the SM-DP + through a local code number assistant LPA according to the code number identification in the test instruction, and write the acquired code number data into an eSIM card of the test device through the LPA.

S306, the target test equipment authenticates the base station by using the code number data in the eSIM card, and executes corresponding test tasks according to the test instruction.

And each target test device can start a test script corresponding to the script identification according to the script identification in the test instruction to test the network condition. Such as collecting information of delay, uplink and downlink rates and the like of the operator network in the region to be tested.

The eSIM-based operator network testing method provided by this embodiment stores and manages the code data through SM-DP +, downloads the code data from SM-DP + as needed according to the network test request information, and writes the code data into the eSIM card of the testing device, where the testing device independently completes authentication interaction with the base station, and executes a corresponding test task after the authentication passes to complete testing of the operator network. Need not card pond equipment and plug-in SIM card, effectively promoted efficiency of software testing, practiced thrift human cost and equipment cost. For the user, only the network test request information needs to be sent, so that the test flow is greatly simplified, and the user experience is improved.

On the basis of the above embodiment, in order to obtain the position information of each testing device in real time, the target testing device is accurately selected. The eSIM-based operator network testing method provided by this embodiment further includes: acquiring the position information of each test device through a positioning device in each test device; and updating the position information of each testing device stored in the system according to the acquired position information.

In order to reduce the load of the management platform, on the basis of the above embodiments, the eSIM-based operator network test method provided by this embodiment analyzes test process data in a distributed manner. Specifically, each target test device analyzes and processes the obtained test process data to obtain and return test result data. The load of the management platform can be reduced, the data volume sent to the management platform by the test equipment can be reduced, and the network communication load can be reduced.

Reference is made herein to various exemplary embodiments. However, those skilled in the art will recognize that changes and modifications may be made to the exemplary embodiments without departing from the scope hereof. For example, the various operational steps, as well as the components used to perform the operational steps, may be implemented in differing ways depending upon the particular application or consideration of any number of cost functions associated with operation of the system (e.g., one or more steps may be deleted, modified or incorporated into other steps).

Additionally, as will be appreciated by one skilled in the art, the principles herein may be reflected in a computer program product on a computer readable storage medium, which is pre-loaded with computer readable program code. Any tangible, non-transitory computer-readable storage medium may be used, including magnetic storage devices (hard disks, floppy disks, etc.), optical storage devices (CD-ROMs, DVDs, Blu Ray disks, etc.), flash memory, and/or the like. These computer program instructions may be loaded onto a general purpose computer, special purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions which execute on the computer or other programmable data processing apparatus create means for implementing the functions specified. These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including means for implementing the function specified. The computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (10)

1. An eSIM-based carrier network test system, comprising:

the system comprises a management platform, a code number management data preparation platform SM-DP + and a plurality of test devices, wherein the management platform is in communication connection with the SM-DP +, the plurality of test devices are respectively in communication connection with the management platform, the plurality of test devices are respectively in communication connection with the SM-DP +, and an eSIM card is integrated in each of the plurality of test devices;

the management platform is used for receiving network test request information of a user, wherein the network test request information comprises code number data to be tested, area information to be tested, a test type and a corresponding relation among the code number data, the area information and the test type;

the management platform is used for sending the code number data to be tested to the SM-DP +;

the SM-DP + is used for storing and managing the received code number data;

the management platform is used for determining target test equipment for executing a test task from the plurality of test equipment according to the area information to be tested;

the management platform is used for generating a test instruction according to the test type and the corresponding relation and sending the test instruction to each target test device;

the test equipment is used for acquiring corresponding code number data from the SM-DP + according to the test instruction after receiving the test instruction, and writing the acquired code number data into an eSIM card of the test equipment;

the test equipment is used for authenticating with a base station by using code number data in the eSIM card and executing a corresponding test task according to the test instruction.

2. The system of claim 1, wherein the management platform to determine a target test device from the plurality of test devices to perform a test task based on the regional information to be tested comprises:

and determining the test equipment which is matched with the position information and the area information to be tested and is in the idle state at present as target test equipment.

3. The system of claim 2, wherein the test equipment includes a positioning device for obtaining location information of the test equipment;

the test equipment is used for sending the position information acquired by the positioning device to the management platform;

and the management platform is used for updating the position information of each testing device stored in the management platform according to the position information reported by each testing device.

4. The system of claim 1, wherein the test instructions include a code number identification and a script identification;

the test equipment is used for acquiring corresponding code number data from the SM-DP + according to the test instruction, and comprises the following steps: downloading code number data corresponding to the code number identification from SM-DP + through a local code number assistant LPA;

the test equipment is used for executing corresponding test tasks according to the test instructions and comprises the following steps: and starting a test script corresponding to the script identifier to test the network condition.

5. The system of any one of claims 1-4, wherein the test equipment is further configured to analyze the obtained test procedure data to obtain test result data and send the obtained test result data to the management platform.

6. An eSIM-based operator network testing method, applied to the system of any one of claims 1-5, the method comprising:

receiving network test request information of a user, wherein the network test request information comprises code number data to be tested, area information to be tested, a test type and a corresponding relation among the code number data, the area information and the test type;

storing and managing code number data to be tested by adopting a code number management data preparation platform SM-DP +;

determining target test equipment for executing a test task according to the area information to be tested;

generating a test instruction according to the test type and the corresponding relation, and sending the test instruction to each target test device;

each target test device acquires corresponding code number data from the SM-DP + according to the test instruction, and writes the acquired code number data into an eSIM card of the test device;

and each target test device authenticates the base station by using the code number data in the eSIM card, and executes a corresponding test task according to the test instruction.

7. The method of claim 6, wherein determining a target test device for performing a test task according to the area information to be tested comprises:

and determining the test equipment which is matched with the position information and the area information to be tested and is in the idle state at present as target test equipment.

8. The method of claim 7, wherein the method further comprises:

acquiring the position information of each test device through a positioning device in each test device;

and updating the position information of each testing device stored in the system according to the acquired position information.

9. The method of claim 6, wherein the test instructions include a code number identification and a script identification;

the acquiring corresponding code number data from the SM-DP + according to the test instruction comprises: downloading code number data corresponding to the code number identification from SM-DP + through a local code number assistant LPA;

the executing of the corresponding test task according to the test instruction includes: and starting a test script corresponding to the script identifier to test the network condition.

10. The method of any one of claims 6-9, further comprising:

and analyzing and processing the obtained test process data by each target test device to obtain and return test result data.

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