CN117295101A - Automatic repeated switching network pressure testing method, terminal and system - Google Patents

Abstract

The invention discloses a method, a terminal and a system for testing the pressure of an automatic repeat switching network, wherein the method comprises the following steps: generating a plurality of first signal control instructions according to a test plan of the network pressure test; wherein each first signal control instruction includes a test plan for a set of broadcast signals; the broadcast signal includes: 3G signal, 4G signal and 5G signal; respectively sending first signal control instructions to a base station signal controller so that the base station signal controller adjusts the intensity of various types of broadcast signals sent by a base station according to the first signal control instructions; respectively receiving a plurality of network registration information sent by tested equipment, and comparing the network registration information with corresponding column network information to generate test results corresponding to each first signal control instruction; wherein each piece of column network information is generated according to each first signal control instruction; and counting all test results and generating a network pressure test report of the tested equipment.

Description

Automatic repeated switching network pressure testing method, terminal and system

Technical Field

The present invention relates to the field of switching network pressure testing, and in particular, to a method, terminal and system for testing automatic repeated switching network pressure.

Background

In the field of mobile communication, the guarantee of the performance and stability of a cellular network is critical to the user experience and the persistence of communication services. To ensure high quality operation of cellular mobile networks, network operators and equipment manufacturers must conduct periodic network stress tests. These tests are intended to simulate network loads and pressures under actual use conditions to evaluate the performance and reliability of the network infrastructure. In order to perform these tests more efficiently, automated techniques have become necessary.

The current cellular network switching pressure test is carried out manually by manual operation, the equipment is started to register the network, after the registered network is confirmed, the base station signal is closed or the base station signal strength is attenuated to disconnect the equipment from the base station signal, the equipment disconnects the current network because of no signal, and the equipment searches other network signals to re-column the network. However, conventional manual testing methods are time consuming and labor intensive and may suffer from subjective errors.

Disclosure of Invention

The invention provides a method, a terminal and a system for testing the pressure of an automatic repeat switching network, so as to improve the testing efficiency and the accuracy.

In order to achieve the above object, the present invention provides a method for testing the pressure of an automatic repeat switching network, comprising:

generating a plurality of first signal control instructions according to a test plan of the network pressure test; wherein each first signal control instruction includes a test plan for a set of broadcast signals; the broadcast signal includes: 3G signal, 4G signal and 5G signal;

respectively sending first signal control instructions to a base station signal controller so that the base station signal controller adjusts the intensity of various types of broadcast signals sent by a base station according to the first signal control instructions;

respectively receiving a plurality of network registration information sent by tested equipment, and comparing the network registration information with corresponding column network information to generate test results corresponding to each first signal control instruction; wherein each piece of column network information is generated according to each first signal control instruction;

and counting all test results and generating a network pressure test report of the tested equipment.

Compared with the prior art, the embodiment of the invention has the beneficial effects that:

and the first signal control instruction is sent to the base station signal controller to regulate the base station signal and receive and process the network registration information from the tested equipment, so that the automatic switching network test is realized, the test efficiency is improved, and the labor is saved. And automatically comparing network registration information with test results, and reducing the influence of subjective judgment and human errors.

Optionally, the base station signal controller adjusts various types of broadcast signals sent by the base station according to the first signal control instruction, specifically:

the first signal control instruction comprises various types of broadcast signals in a test plan of a group of broadcast signals;

if the initial signal intensities of the broadcasting signals of all types are higher than the corresponding threshold intensities of all types, the intensities of the broadcasting signals of all types are reduced in sequence according to the order of the priorities of the broadcasting signals of all types in the group of broadcasting signals from high to low until the intensities of the broadcasting signals of all types are lower than the corresponding threshold intensities of all types.

Optionally, the strength of each type of broadcast signal is reduced in sequence, specifically:

and the tested equipment performs one test and generates corresponding network registration information after the intensity of each type of broadcast signal is reduced.

Optionally, the base station signal controller adjusts various types of broadcast signals sent by the base station according to the first signal control instruction, specifically:

the first signal control instruction comprises various types of broadcast signals in a test plan of a group of broadcast signals.

If the initial signal intensities of the broadcasting signals of all types are lower than the corresponding threshold intensities of all types, the intensities of the broadcasting signals of all types are sequentially improved according to the order of the priorities of the broadcasting signals of all types in the group of broadcasting signals from low to high until the intensities of the broadcasting signals of all types are higher than the corresponding threshold intensities of all types.

Optionally, the strength of each type of broadcast signal is improved in sequence, specifically:

and the tested equipment performs one test and generates corresponding network registration information after the intensity of each type of broadcast signal is improved.

Optionally, the generating a plurality of first signal control instructions according to the test plan of the network pressure test specifically includes:

setting a threshold intensity for each type of broadcast signal in the test plan;

and according to the data transmission speed of the broadcasting signals of various types, sequencing from high to low, and sequentially configuring priorities from high to low for the broadcasting signals of various types.

Implementing this option, the test plan can be modified more conveniently by simply modifying the priority and threshold strength.

Optionally, the base station signal controller is disposed in a first shielding case, and the base station and the device under test are disposed in a second shielding case.

By implementing the selectable item, external interference can be isolated, adverse effects of base station signals on equipment and personnel in the surrounding environment can be prevented, and the safety and reliability of testing are improved.

Optionally, the network pressure test report includes: test time, current test times and threshold strength of the various types of broadcast signals in the test plan. This can provide comprehensive test results and descriptions of test conditions.

Correspondingly, the invention also provides an automatic repeated switching network pressure test terminal, which comprises:

the instruction module is used for generating a plurality of first signal control instructions according to a test plan of the network pressure test; wherein each first signal control instruction includes a test plan for a set of broadcast signals; the broadcast signal includes: 3G signal, 4G signal and 5G signal;

the regulation and control module is used for respectively sending first signal control instructions to the base station signal controllers so that the base station signal controllers regulate various types of broadcast signals sent by the base stations according to the first signal control instructions;

the test module is used for respectively receiving a plurality of network registration information sent by the tested equipment, comparing the network registration information with corresponding column network information and generating test results corresponding to each first signal control instruction; wherein each piece of column network information is generated according to each first signal control instruction;

and the statistics module is used for counting all the test results and generating a network pressure test report of the tested equipment.

Optionally, the base station signal controller adjusts various types of broadcast signals sent by the base station according to the first signal control instruction, specifically:

the first signal control instruction comprises various types of broadcast signals in a test plan of a group of broadcast signals;

if the initial signal intensities of the broadcasting signals of all types are higher than the corresponding threshold intensities of all types, the intensities of the broadcasting signals of all types are reduced in sequence according to the order of the priorities of the broadcasting signals of all types in the group of broadcasting signals from high to low until the intensities of the broadcasting signals of all types are lower than the corresponding threshold intensities of all types.

Optionally, the strength of each type of broadcast signal is reduced in sequence, specifically:

and the tested equipment performs one test and generates corresponding network registration information after the intensity of each type of broadcast signal is reduced.

Optionally, the base station signal controller adjusts various types of broadcast signals sent by the base station according to the first signal control instruction, specifically:

the first signal control instruction comprises various types of broadcast signals in a test plan of a group of broadcast signals.

If the initial signal intensities of the broadcasting signals of all types are lower than the corresponding threshold intensities of all types, the intensities of the broadcasting signals of all types are sequentially improved according to the order of the priorities of the broadcasting signals of all types in the group of broadcasting signals from low to high until the intensities of the broadcasting signals of all types are higher than the corresponding threshold intensities of all types.

Optionally, the strength of each type of broadcast signal is improved in sequence, specifically:

and the tested equipment performs one test and generates corresponding network registration information after the intensity of each type of broadcast signal is improved.

Optionally, the instruction module includes a threshold setting unit and a priority setting unit;

the threshold setting unit is used for respectively setting a threshold intensity for each type of broadcast signals in the test plan when the instruction module generates a plurality of first signal control instructions according to the test plan of the network pressure test; the priority setting unit is used for sequentially configuring priorities from high to low for various types of broadcast signals according to the ordering from high to low of the data transmission speeds of various types of broadcast signals when the instruction module generates a plurality of first signal control instructions according to a test plan of the network pressure test.

Optionally, the base station signal controller is disposed in a first shielding case, and the base station and the device under test are disposed in a second shielding case.

Optionally, the network pressure test report includes: test time, current test times and threshold strength of the various types of broadcast signals in the test plan. This can provide comprehensive test results and descriptions of test conditions.

Correspondingly, the invention also provides an automatic repeated switching network pressure test system, which comprises: the system comprises a test terminal, a base station signal controller, a base station, tested equipment, a first shielding box and a second shielding box;

the test terminal is connected with the base station signal controller through a USB control line, and the test terminal is connected with the tested equipment through a network cable or a USB control line;

the base station signal controller is arranged in a first shielding box, and the base station and the tested equipment are arranged in a second shielding box;

the pressure test system is used for executing the automatic repeat switching network pressure test method according to the embodiment of the invention.

Drawings

In order to more clearly illustrate the technical solutions of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a method for testing the pressure of an automatic repeat switching network according to an embodiment of the present invention;

FIG. 2 is a flow chart of an automatic repeat switching network pressure test terminal provided by an embodiment of the present invention;

fig. 3 is a block diagram of an automatic repeat switching network pressure test system according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be understood that the step numbers used herein are for convenience of description only and are not limiting as to the order in which the steps are performed.

It is to be understood that the terminology used in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in this specification 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.

The terms "comprises" and "comprising" indicate the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

The term "and/or" refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

Embodiment one:

referring to fig. 1, an embodiment of the present invention provides a method for testing an automatic repeat switching network pressure, including:

s10, generating a plurality of first signal control instructions according to a test plan of a network pressure test; wherein each first signal control instruction includes a test plan for a set of broadcast signals; the broadcast signal includes: 3G signal, 4G signal and 5G signal.

In a specific implementation, according to the data transmission speed of each type of broadcast signal, the priority from high to low is configured for each type of broadcast signal in the test plan of the network pressure test in turn. And setting a threshold intensity for each type of broadcast signal, wherein when the intensity of each type of broadcast signal is lower than the corresponding threshold intensity of each type, the tested equipment does not register the network of each type of broadcast signal, and when the intensity of each type of broadcast signal is higher than the corresponding threshold intensity of each type, if the intensity of each type of broadcast signal is the highest priority, the tested equipment registers each type of broadcast signal. Wherein the device under test comprises: client device, portable wireless router device.

S20, respectively sending first signal control instructions to the base station signal controllers so that the base station signal controllers adjust the intensity of various types of broadcast signals sent by the base stations according to the first signal control instructions.

In a specific implementation, a bidirectional communication channel is established with a base station signal controller, a first signal control instruction is respectively sent to the base station signal controller, and the base station signal controller feeds back state update or response information after receiving the first signal control instruction, so that correct transmission of the first signal control instruction is ensured. When the abnormal transmission is detected, the related personnel are informed to process in a mail and short message mode, so that the downtime is reduced. After receiving the first signal control instruction, the base station signal controller analyzes the first signal control instruction to obtain a test plan. And respectively setting a threshold intensity for each type of broadcast signals in the test plan, and giving higher priority to each type of broadcast signals with higher data transmission speed. When the intensity of each type of broadcast signal is lower than the corresponding threshold intensity, the tested device does not register the network corresponding to each type of broadcast signal. When the intensity of the broadcasting signals of various types is higher than the corresponding threshold intensity, if the broadcasting signals of various types are the signals with the highest current priority, the tested equipment registers the network corresponding to the broadcasting signals of various types. If the initial signal strength of each type of broadcast signal in the test plan is higher than the corresponding threshold strength of each type, the strengths of each type of broadcast signal are sequentially reduced according to the order of the priority of each type of broadcast signal in the group of broadcast signals from high to low until the strengths of all types of broadcast signals are lower than the corresponding threshold strength of each type of broadcast signal. The tested device performs a test and generates corresponding network registration information each time the intensity of each type of broadcast signal is reduced. If the initial signal strength of each type of broadcast signal in the test plan is lower than the corresponding threshold strength of each type, the strengths of each type of broadcast signal are sequentially improved according to the order of the priorities of each type of broadcast signal in the group of broadcast signals from low to high until the strengths of all types of broadcast signals are higher than the corresponding threshold strength of each type of broadcast signal. The tested equipment performs a test and generates corresponding network registration information after the intensity of each type of broadcast signal is improved every time;

in the specific implementation, the base station signal controller is arranged in the first shielding box, the base station and the tested equipment are arranged in the second shielding box, so that the base station signal controller and the base station can be isolated, the signal interference between the base station signal controller and the base station is prevented, the influence of external interference signals can be isolated, and the adverse influence of the base station signal leakage on the surrounding environment, equipment and personnel can be prevented.

S30, respectively receiving a plurality of network registration information sent by tested equipment, and comparing the network registration information with corresponding column network information to generate test results corresponding to each first signal control instruction; wherein each of the mesh information is generated based on each of the first signal control instructions.

In a specific implementation, generating column network information which needs to be met for the tested equipment to be tested successfully according to the first signal control instruction. The device is connected with the tested device through a network cable or a USB (universal serial bus) line, and periodically transmits a state query instruction to the tested device to request the device to reply to the current state information. And after receiving the instruction, the tested equipment automatically replies the state information. If the unreturned times of the tested equipment reach the threshold value, the tested equipment or the network cable or the USB line is considered to be abnormal, and related personnel are notified to process in a mail or short message mode;

in a specific implementation, a plurality of network registration information sent by the backup device is received respectively, and the network registration information is compared with corresponding column network information to generate a test result corresponding to each first signal control instruction. The test results were received three times per test, with a one minute time interval per receipt.

And S40, counting all test results and generating a network pressure test report of the tested equipment.

In the specific implementation, all test results are counted, a network pressure test report of the tested equipment is generated, and the report is recorded in a log file; wherein, report content includes: test time, current test times and threshold strength of the various types of broadcast signals in the test plan.

According to the automatic repeat switching network pressure testing method provided by the invention, the first signal control instruction can be sent to the base station signal controller to regulate the base station signal, and the network registration information from the tested equipment is received, so that automatic switching network testing is realized, the testing efficiency is improved, the manpower is saved, and the influence of subjective judgment and human errors is reduced. Meanwhile, the base station signal controller is arranged in the first shielding box, the base station and the tested equipment are arranged in the second shielding box, so that the base station signal controller and the base station can be isolated, signal interference between the base station signal controller and the base station is prevented, the influence of external interference signals can be isolated, and the adverse influence of base station signal leakage on surrounding environment, equipment and personnel is prevented.

Embodiment two:

referring to fig. 2, an embodiment of the present invention provides an automatic repeat switching network pressure test terminal, including:

the instruction module 1 is used for generating a plurality of first signal control instructions according to a test plan of the network pressure test; wherein each first signal control instruction includes a test plan for a set of broadcast signals; the broadcast signal includes: 3G signal, 4G signal and 5G signal.

In a specific implementation, an instruction module generates a plurality of first signal control instructions according to a test plan of a network pressure test; the instruction module comprises a threshold setting unit and a priority setting unit; the threshold setting unit is used for respectively setting a threshold intensity for each type of broadcast signals in the test plan when the instruction module generates a plurality of first signal control instructions according to the test plan of the network pressure test; the priority setting unit is used for sequentially configuring priorities from high to low for various types of broadcast signals according to the ordering from high to low of the data transmission speeds of various types of broadcast signals when the instruction module generates a plurality of first signal control instructions according to a test plan of the network pressure test. When the intensity of the broadcasting signals of various types is lower than the intensity of the corresponding threshold value of various types, the tested equipment does not register the network of the broadcasting signals of various types, when the intensity of the broadcasting signals of various types is higher than the intensity of the corresponding threshold value of various types, if the intensity of the broadcasting signals of various types is the highest in current priority, the tested equipment registers the broadcasting signals of various types. Wherein the device under test comprises: client device, portable wireless router device.

And the regulation and control module 2 is used for respectively sending first signal control instructions to the base station signal controllers so that the base station signal controllers regulate the intensity of various types of broadcast signals sent by the base stations according to the first signal control instructions.

In a specific implementation, the regulation and control module establishes a bidirectional communication channel with the base station signal controller, and respectively sends a first signal control instruction to the base station signal controller, and the base station signal controller feeds back state update or response information after receiving the first signal control instruction, so as to ensure correct transmission of the first signal control instruction. When the regulation and control module detects abnormal transmission, related personnel are notified to process in a mail and short message mode, so that downtime is reduced. After receiving the first signal control instruction, the base station signal controller analyzes the first signal control instruction to obtain a test plan. And respectively setting a threshold intensity for each type of broadcast signals in the test plan, and giving higher priority to each type of broadcast signals with higher data transmission speed. When the intensity of each type of broadcast signal is lower than the corresponding threshold intensity, the tested device does not register the network corresponding to each type of broadcast signal. When the intensity of the broadcasting signals of various types is higher than the corresponding threshold intensity, if the broadcasting signals of various types are the signals with the highest current priority, the tested equipment registers the network corresponding to the broadcasting signals of various types. If the initial signal strength of each type of broadcast signal in the test plan is higher than the corresponding threshold strength of each type, the strengths of each type of broadcast signal are sequentially reduced according to the order of the priority of each type of broadcast signal in the group of broadcast signals from high to low until the strengths of all types of broadcast signals are lower than the corresponding threshold strength of each type of broadcast signal. The tested device performs a test and generates corresponding network registration information each time the intensity of each type of broadcast signal is reduced. If the initial signal strength of each type of broadcast signal in the test plan is lower than the corresponding threshold strength of each type, the strengths of each type of broadcast signal are sequentially improved according to the order of the priorities of each type of broadcast signal in the group of broadcast signals from low to high until the strengths of all types of broadcast signals are higher than the corresponding threshold strength of each type of broadcast signal. The tested equipment performs a test and generates corresponding network registration information after the intensity of each type of broadcast signal is improved every time;

in the specific implementation, the base station signal controller is arranged in the first shielding box, the base station and the tested equipment are arranged in the second shielding box, so that the base station signal controller and the base station can be isolated, the signal interference between the base station signal controller and the base station is prevented, the influence of external interference signals can be isolated, and the adverse influence of the base station signal leakage on the surrounding environment, equipment and personnel can be prevented.

The test module 3 is used for respectively receiving a plurality of network registration information sent by the tested equipment, comparing the network registration information with corresponding column network information and generating test results corresponding to each first signal control instruction; wherein each of the mesh information is generated based on each of the first signal control instructions.

In a specific implementation, a test module generates column network information which needs to be met when the tested equipment is tested successfully according to a first signal control instruction, and is connected with the tested equipment through a network cable or a USB (universal serial bus) line, and periodically sends a state query instruction to the tested equipment to request the equipment to reply to the current state information. And after receiving the instruction, the tested equipment automatically replies the state information. If the unreturned times of the tested equipment reach the threshold value, the test module considers that the tested equipment or the network cable or the USB cable is abnormal, and at the moment, relevant personnel are informed to process in a mail or short message mode;

in a specific implementation, a test module receives a plurality of network registration information sent by backup equipment respectively, compares the network registration information with corresponding column network information, and generates a test result corresponding to each first signal control instruction; the test module receives the test results three times in each test, and each receiving time interval is one minute.

And the statistics module 4 is used for counting all the test results and generating a network pressure test report of the tested equipment.

In a specific implementation, a statistics module counts all test results, generates a network pressure test report of the tested equipment, and records the report into a log file; wherein, report content includes: test time, current test times and threshold strength of the various types of broadcast signals in the test plan.

The more detailed step flow and working principle of this embodiment can be, but not limited to, those described in relation to embodiment one.

According to the automatic repeat switching network pressure test terminal provided by the invention, the first signal control instruction can be sent to the base station signal controller to regulate the base station signal, and the network registration information from the tested equipment is received, so that automatic switching network test is realized, the test efficiency is improved, the labor is saved, and the subjective judgment and the influence of human errors are reduced. Meanwhile, the base station signal controller is arranged in the first shielding box, the base station and the tested equipment are arranged in the second shielding box, so that the base station signal controller and the base station can be isolated, signal interference between the base station signal controller and the base station is prevented, the influence of external interference signals can be isolated, and the adverse influence of base station signal leakage on surrounding environment, equipment and personnel is prevented.

Embodiment III:

referring to fig. 3, an embodiment of the present invention provides an automatic repeat switching network pressure test system, which includes: the automatic repeat switching network pressure test terminal 1, the base station signal controller 2, the base station 3, the tested equipment 4, the first shielding box 5 and the second shielding box 6; the test terminal is connected with the base station signal controller through a USB control line, and the test terminal is connected with the tested equipment through a network cable or a USB control line; the base station signal controller is arranged in a first shielding box, and the base station and the tested equipment are arranged in a second shielding box; the terminal can implement an automatic repeat switching network pressure testing method according to any one of the above embodiments, and the tested device includes: client device, portable wireless router device.

The automatic repeated switching network pressure test system provided by the invention can realize the automation of the test, improve the test efficiency, avoid the manual error, prevent the interference of external signals to the base station signal controller, the base station and the tested equipment, and also avoid the adverse effect of the base station signals to the surrounding environment, the equipment and personnel. When communication between the devices is abnormal, related personnel can be informed to process in time, and the efficiency and reliability of the test are further improved.

The foregoing embodiments have been provided for the purpose of illustrating the general principles of the present invention, and are not to be construed as limiting the scope of the invention. It should be noted that any modifications, equivalent substitutions, improvements, etc. made by those skilled in the art without departing from the spirit and principles of the present invention are intended to be included in the scope of the present invention.

Claims (17)

1. An automatic repeat switching network pressure test method, comprising:

generating a plurality of first signal control instructions according to a test plan of the network pressure test; wherein each first signal control instruction includes a test plan for a set of broadcast signals; the broadcast signal includes: 3G signal, 4G signal and 5G signal;

respectively sending first signal control instructions to a base station signal controller so that the base station signal controller adjusts the intensity of various types of broadcast signals sent by a base station according to the first signal control instructions;

respectively receiving a plurality of network registration information sent by tested equipment, and comparing the network registration information with corresponding column network information to generate test results corresponding to each first signal control instruction; wherein each piece of column network information is generated according to each first signal control instruction;

and counting all test results and generating a network pressure test report of the tested equipment.

2. The method for testing the pressure of the automatic repeat switching network according to claim 1, wherein the base station signal controller adjusts various types of broadcast signals sent by the base station according to the first signal control command, specifically:

the first signal control instruction comprises various types of broadcast signals in a test plan of a group of broadcast signals;

if the initial signal intensities of the broadcasting signals of all types are higher than the corresponding threshold intensities of all types, the intensities of the broadcasting signals of all types are reduced in sequence according to the order of the priorities of the broadcasting signals of all types in the group of broadcasting signals from high to low until the intensities of the broadcasting signals of all types are lower than the corresponding threshold intensities of all types.

3. The method for testing the pressure of the automatic repeat switching network according to claim 2, wherein the plurality of network registration information sent by the tested device specifically comprises:

and the tested equipment performs one test and generates corresponding network registration information after the intensity of each type of broadcast signal is reduced.

4. The method for testing the pressure of the automatic repeat switching network according to claim 1, wherein the base station signal controller adjusts various types of broadcast signals sent by the base station according to the first signal control command, specifically:

the first signal control instruction comprises various types of broadcast signals in a test plan of a group of broadcast signals;

if the initial signal intensities of the broadcasting signals of all types are lower than the corresponding threshold intensities of all types, the intensities of the broadcasting signals of all types are sequentially improved according to the order of the priorities of the broadcasting signals of all types in the group of broadcasting signals from low to high until the intensities of the broadcasting signals of all types are higher than the corresponding threshold intensities of all types.

5. The method for testing the pressure of the automatic repeat switching network as claimed in claim 4, wherein the step of sequentially increasing the intensity of each type of broadcast signal is as follows:

and the tested equipment performs one test and generates corresponding network registration information after the intensity of each type of broadcast signal is improved.

6. The method for testing the pressure of the automatic repeat switching network according to claim 2 or 4, wherein the generating a plurality of first signal control commands according to the test plan of the pressure test of the network specifically comprises:

setting a threshold intensity for each type of broadcast signal in the test plan;

and according to the data transmission speed of the broadcasting signals of various types, sequencing from high to low, and sequentially configuring priorities from high to low for the broadcasting signals of various types.

7. An automatic repeat switching network pressure test method as claimed in any one of claims 1 to 5 wherein said base station signal controller is disposed in a first shielded enclosure and said base station and said device under test are disposed in a second shielded enclosure.

8. An automatic repeat switching network pressure test method as claimed in any one of claims 1 to 5, wherein said network pressure test report comprises: test time, current test times and threshold strength of the various types of broadcast signals in the test plan.

9. An automatic repeat switching network pressure test terminal, comprising:

the instruction module is used for generating a plurality of first signal control instructions according to a test plan of the network pressure test; wherein each first signal control instruction includes a test plan for a set of broadcast signals; the broadcast signal includes: 3G signal, 4G signal and 5G signal;

the regulation and control module is used for respectively sending first signal control instructions to the base station signal controllers so that the base station signal controllers regulate various types of broadcast signals sent by the base stations according to the first signal control instructions;

the test module is used for respectively receiving a plurality of network registration information sent by the tested equipment, comparing the network registration information with corresponding column network information and generating test results corresponding to each first signal control instruction; wherein each piece of column network information is generated according to each first signal control instruction;

and the statistics module is used for counting all the test results and generating a network pressure test report of the tested equipment.

10. The automatic repeat switching network pressure test terminal as claimed in claim 9, wherein said base station signal controller adjusts various types of broadcast signals sent by the base station according to said first signal control command, specifically:

the first signal control instruction comprises various types of broadcast signals in a test plan of a group of broadcast signals;

if the initial signal intensities of the broadcasting signals of all types are higher than the corresponding threshold intensities of all types, the intensities of the broadcasting signals of all types are reduced in sequence according to the order of the priorities of the broadcasting signals of all types in the group of broadcasting signals from high to low until the intensities of the broadcasting signals of all types are lower than the corresponding threshold intensities of all types.

11. The automatic repeat switching network pressure test terminal as claimed in claim 10, wherein the plurality of network registration information transmitted by the device under test specifically comprises:

and the tested equipment performs one test and generates corresponding network registration information after the intensity of each type of broadcast signal is reduced.

12. The automatic repeat switching network pressure test terminal as claimed in claim 9, wherein said base station signal controller adjusts various types of broadcast signals sent by the base station according to said first signal control command, specifically:

the first signal control instruction comprises various types of broadcast signals in a test plan of a group of broadcast signals;

if the initial signal intensities of the broadcasting signals of all types are lower than the corresponding threshold intensities of all types, the intensities of the broadcasting signals of all types are sequentially improved according to the order of the priorities of the broadcasting signals of all types in the group of broadcasting signals from low to high until the intensities of the broadcasting signals of all types are higher than the corresponding threshold intensities of all types.

13. The automatic repeat switching network pressure test terminal as claimed in claim 12, wherein the plurality of network registration information transmitted by the device under test is specifically:

and the tested equipment performs one test and generates corresponding network registration information after the intensity of each type of broadcast signal is improved.

14. An automatic repeat switching network pressure test terminal as claimed in claim 10 or 12, wherein said instruction module comprises a threshold setting unit and a priority setting unit;

the threshold setting unit is used for respectively setting a threshold intensity for each type of broadcast signals in the test plan when the instruction module generates a plurality of first signal control instructions according to the test plan of the network pressure test; the priority setting unit is used for sequentially configuring priorities from high to low for various types of broadcast signals according to the ordering from high to low of the data transmission speeds of various types of broadcast signals when the instruction module generates a plurality of first signal control instructions according to a test plan of the network pressure test.

15. An automatic repeat switching network pressure test terminal as claimed in any one of claims 9 to 12, wherein said base station signal controller is disposed in a first shielded box and said base station and said device under test are disposed in a second shielded box.

16. An automatic repeat switching network pressure test terminal as claimed in any one of claims 9 to 12, wherein said network pressure test report comprises: test time, current test times and threshold strength of the various types of broadcast signals in the test plan.

17. An automatic repeat switching network pressure test system, comprising: the system comprises a test terminal, a base station signal controller, a base station, tested equipment, a first shielding box and a second shielding box; the test terminal is connected with the base station signal controller through a USB control line, and the test terminal is connected with the tested equipment through a network cable or a USB control line;

the base station signal controller is arranged in a first shielding box, and the base station and the tested equipment are arranged in a second shielding box;

the automatic repeat switching network pressure test system is used for executing the automatic repeat switching network pressure test method as claimed in any one of claims 1 to 8.