CN110932803B - Interference intensity acquisition method, device, terminal and storage medium - Google Patents

Abstract

The present application discloses a method, device, terminal and storage medium for obtaining interference strength, which belong to the technical field of communication. The method is executed by the terminal, and the method includes: acquiring test parameters, the test parameters including the network standard of the antenna to be tested when the interference strength of the antenna to be tested is indicated to test the interference source; in the non-signaling mode, the network standard of the antenna to be tested is The standard configuration is the network standard indicated by the test parameter; obtain the first interference intensity received by the antenna to be tested; when the test parameter indicates the interference intensity of the test interference source to the antenna to be tested, the network standard of the antenna to be tested includes the second network standard , in the non-signaling mode, the network standard of the antenna to be tested is automatically configured as the second network standard; the second interference intensity received by the antenna to be tested is obtained. The present application does not require an additional comprehensive measuring instrument, avoids the operation process of establishing a signaling connection, and improves the efficiency and automation rate of the interference intensity acquisition process.

Description

Interference intensity acquisition method, device, terminal and storage medium

technical field

The embodiments of the present application relate to the field of communication technologies, and in particular, to a method, apparatus, terminal, and storage medium for obtaining interference strength.

Background technique

Receiving sensitivity is a key indicator to measure the performance of cellular communication. Some application scenarios of the terminal will cause certain interference to the receiving sensitivity. How to effectively test the interference intensity is of great significance to improve the user's communication experience.

In the related art, the signal-based manual test method is used to test the interference strength: when the interference source is turned on, manually configure the test parameters of the comprehensive tester. After the comprehensive tester and the terminal establish a signaling connection, the comprehensive test The tester sends a signal to the terminal, the terminal receives the signal and tests the strength of the received signal, and determines the interference strength of the interference source by comparing the received signal strength of the terminal when the interference source is turned on and off.

However, in the above-mentioned related art, it is necessary to establish a signaling connection between the terminal and the comprehensive tester, so that the strength of the signal received by the terminal can be tested, and the test process is cumbersome.

SUMMARY OF THE INVENTION

The embodiments of the present application provide a method, device, terminal, and storage medium for obtaining interference strength, which can improve the efficiency and automation rate of the interference strength obtaining process. The technical solution is as follows:

On the one hand, an embodiment of the present application provides a method for obtaining interference strength, the method is executed by a terminal, and the method includes:

acquiring test parameters, the test parameters including the network standard of the antenna to be tested when the interference source is instructed to test the interference strength of the antenna to be tested;

In the non-signaling mode, configure the network standard of the antenna to be tested as the network standard indicated by the test parameter;

obtaining the first interference strength received by the antenna to be tested, where the first interference strength is the signal strength of the noise floor generated by the terminal to the antenna to be tested;

When the test parameter indicates to test the interference strength of the antenna to be tested by the interference source, when the network standard of the antenna to be tested includes the second network standard, in the non-signaling mode, the antenna to be tested is automatically The network standard is configured as the second network standard;

Acquire a second interference strength received by the antenna under test, where the second interference strength is the signal strength of the noise floor generated by the terminal to the antenna under test configured in the second network standard.

On the other hand, an embodiment of the present application provides a device for obtaining interference strength, the device is used in a terminal, and the device includes:

a parameter acquisition module, configured to acquire test parameters, the test parameters including the network standard of the antenna to be tested when the interference intensity of the antenna to be tested is instructed to be tested by the interference source;

a first configuration module, configured to configure the network standard of the antenna to be tested as the network standard indicated by the test parameter in a non-signaling mode;

a first acquisition module, configured to acquire a first interference strength received by the antenna to be tested, where the first interference strength is the signal strength of the noise floor generated by the terminal to the antenna to be tested;

The second configuration module is configured to, when the test parameter indicates to test the interference strength of the interference source to the antenna to be tested, when the network standard of the antenna to be tested includes the second network standard, in the non-signaling mode, automatically configure the network standard of the antenna to be tested to the second network standard;

A second obtaining module, configured to obtain a second interference strength received by the antenna under test, where the second interference strength is generated by the terminal to the antenna under test configured under the second network standard The signal strength of the noise floor.

On the other hand, an embodiment of the present application provides a terminal, the terminal includes a processor and a memory, the memory stores at least one instruction, at least a piece of program, a code set or an instruction set, the at least one instruction, all the The at least one piece of program, the code set or the instruction set is loaded and executed by the processor to implement the method for obtaining the interference strength according to the above-mentioned one aspect.

On the other hand, an embodiment of the present application provides a computer-readable storage medium, where at least one instruction, at least one piece of program, code set or instruction set is stored in the storage medium, the at least one instruction, the at least one piece of program . The code set or the instruction set is loaded and executed by the processor to implement the method for obtaining the interference strength according to the above aspect.

The technical solutions provided by the embodiments of the present application may at least include the following beneficial effects:

By acquiring the test parameters, the test parameters include the network standard of the antenna to be tested when the interference strength of the antenna to be tested is indicated by the interference source; in the non-signaling mode, the network standard of the antenna to be tested is configured as the network standard indicated by the test parameters; Obtain the first interference strength received by the antenna to be tested, where the first interference strength is the signal strength of the noise floor generated by the antenna to be tested by the terminal; when the test parameters indicate the interference strength of the antenna to be tested by the test interference source, the network standard of the antenna to be tested includes When the second network standard is used, in the non-signaling mode, the network standard of the antenna to be tested is automatically configured to the second network standard; the second interference intensity received by the antenna to be tested is obtained, and the second interference intensity is the It is configured as the signal strength of the noise floor generated by the antenna under test under the second network standard. This application does not require an additional comprehensive measuring instrument, the interference intensity can be obtained through the terminal itself, the operation process of establishing a signaling connection is avoided, and the wireless network standard can be automatically switched to avoid manual operation, which can improve the efficiency and automation of the process of obtaining the interference intensity. Rate.

Description of drawings

FIG. 1 is a flowchart of an interference test method involved in an exemplary embodiment of the present application;

FIG. 2 is a method flowchart of a method for obtaining interference strength provided by an exemplary embodiment of the present application;

FIG. 3 is a method flowchart of a method for obtaining interference strength provided by an exemplary embodiment of the present application;

FIG. 4 is a schematic interface diagram of a configuration interface involved in an exemplary embodiment of the present application;

5 is a schematic interface diagram of another configuration interface involved in an exemplary embodiment of the present application;

6 is a schematic interface diagram of another configuration interface involved in an exemplary embodiment of the present application;

FIG. 7 is a schematic interface diagram of another configuration interface involved in an exemplary embodiment of the present application;

FIG. 8 is a structural block diagram of a device for obtaining interference strength provided by an exemplary embodiment of the present application;

FIG. 9 is a schematic structural diagram of a terminal provided by an exemplary embodiment of the present application.

Detailed ways

In order to make the objectives, technical solutions and advantages of the present application clearer, the embodiments of the present application will be further described in detail below with reference to the accompanying drawings.

As used herein, "plurality" refers to two or more. "And/or", which describes the association relationship of the associated objects, means that there can be three kinds of relationships, for example, A and/or B, which can mean that A exists alone, A and B exist at the same time, and B exists alone. The character "/" generally indicates that the associated objects are an "or" relationship.

Signal reception sensitivity is a key indicator for measuring the performance of cellular communication. For some reasons, the use of other modes by the terminal will cause certain interference to cellular communication, which will deteriorate the reception sensitivity of cellular communication. In the case of weak signals, the terminal will drop calls. Or drop the network.

In common application scenarios of end users, such as turning on the camera, connecting the terminal to the computer for data copying, charging the terminal, turning on and off the screen of the terminal, or starting a large game, theoretical analysis and experiments show that the receiving sensitivity of these application scenarios to cellular communication will cause Certain deterioration, reducing the interference of these application scenarios to cellular communication is of great significance for improving user communication experience. How to find such interference through effective test methods is the premise of all performance optimization.

At present, for the testing process of this kind of interference signal, it is necessary to establish a signaling connection between the comprehensive tester and the test equipment to perform the interference test. Please refer to FIG. 1 , which shows a flowchart of an interference testing method involved in an exemplary embodiment of the present application. As shown in FIG. 1 , the interference testing method may include the following steps.

Step 101, the tester manually turns on the interference source.

Exemplarily, the tester can manually turn on any interference source, for example, the interference source can be turning on the camera, brightening the screen of the terminal, charging the terminal, and so on.

Optionally, the terminal may be a mobile phone, a tablet computer, an e-book reader, smart glasses, a smart watch, an MP3 player (Moving Picture Experts Group Audio Layer III, moving picture expert compression standard audio layer 3), MP4 (Moving Picture Experts Group Audio Layer III) Experts Group Audio Layer IV, Motion Picture Expert Compression Standard Audio Layer 4) Players, Notebooks, Laptops and Desktops, etc.

Step 102, the tester puts the terminal into the shielding box.

In step 103, the tester manually configures the comprehensive tester through the computer.

Optionally, the tester configures the comprehensive tester according to the relevant information of this test, and the relevant configuration information of this test may include information such as the network standard of this test, the frequency band corresponding to the network standard, and the channel range. The tester configures the comprehensive tester so that the terminal can establish a signaling connection with the comprehensive tester.

Step 104, the terminal establishes a signaling connection with the comprehensive measuring instrument.

A connection is established between the terminal and the comprehensive tester through a radio frequency line.

Step 105, the terminal acquires and records the first signal reception strength.

The comprehensive tester sends a signal to the test equipment, and the terminal receives the signal and determines the currently obtained first signal reception strength.

In step 106, the tester determines whether the interference test is completed when the interference source is turned on. If the tester determines that the interference test has been completed when the interference source is on, the process proceeds to step 107 ; if the tester determines that the interference test is not completed when the interference source is on, the process starts from step 103 again.

Step 107, the tester manually turns off the interference source.

Step 108, the tester puts the terminal into the shielding box.

Step 109, the tester manually configures the comprehensive tester.

Step 110, the terminal establishes a signaling connection with the comprehensive measuring instrument.

Step 111, the terminal acquires and records the received strength of the second signal.

In step 112, the tester determines whether the interference test is completed when the interference source is turned off. If the tester judges that the interference test has been completed when the interference source is turned off, the flow proceeds to step 113 ;

Step 113: Determine the interference strength corresponding to the interference source according to the received strength of the first signal and the received strength of the second signal.

Steps 101 to 113 are an interference testing unit, and the testing process of other interference sources is the same as the above-mentioned interference testing unit. Steps 101 to 113 are repeatedly performed to detect the interference of other interference sources to terminal communication at one time.

In the above solution, in the process of obtaining the first signal reception strength and the second signal reception strength, if it is necessary to obtain the first signal reception strength and the second signal reception strength under different parameters (different network standards, different test frequency bands, etc.) , requires professional testers to manually control the comprehensive tester, and complete the acquisition and recording. That is, each time the above test is performed, the terminal not only needs to establish a signaling connection with the comprehensive tester for many times, but also requires professional testers to manually adjust the parameters of the comprehensive tester in this process. When there is a lot of content to be tested, professional testers need to re-adjust the parameters of the comprehensive test instrument several times, which makes the process of obtaining the first signal reception strength and the second signal reception strength cumbersome and causes the automation rate of the entire test process. and low efficiency.

In order to optimize the above test process, improve the efficiency and automation rate of the interference intensity acquisition process. The present application provides a method for obtaining interference strength, which can realize the active acquisition of the above-mentioned first signal reception strength or second signal reception strength without a tester, which helps to improve the execution efficiency of interference testing.

Please refer to FIG. 2 , which shows a method flowchart of a method for obtaining interference strength provided by an exemplary embodiment of the present application. The method can be used in the above-mentioned terminal that needs to be tested, and is executed by the terminal. As shown in FIG. 2 , the method for obtaining the interference strength can include the following steps.

Step 201: Acquire test parameters, where the test parameters include the network standard of the antenna to be tested when the interference intensity of the antenna to be tested is indicated to be tested by the interference source.

Optionally, the interference source refers to the interference source installed in the terminal itself, that is, the interference source may be installed in advance in the terminal to be tested. (such as charging a terminal), a speaker (a speaker that is turned on), a microphone (such as a microphone that is turned on), a display screen (such as a display screen in a bright screen state), and the like.

Optionally, the antenna to be tested refers to an antenna installed on the terminal itself. That is, the terminal to be tested also needs to have its own antenna. For example, the terminal may include a GPS (Global Positioning System, global positioning system) antenna, a WiFi (Wireless Fidelity, wireless fidelity) antenna, and the like. Wherein, in this embodiment of the present application, any one or more antennas in the terminal may be selected as the antenna to be tested.

Optionally, the network standard may be any network standard supported by the antenna to be tested. Usually, one antenna may support multiple network standards. For example, the first antenna in the terminal may support Global System for Mobile Communication (GSM) standard, Code Division Multiple Access (CDMA) Standard, Wideband Code Division Multiple Access (Wideband Code Division Multiple Access, WCDMA) standard, Long Term Evolution (Long Term Evolution, LTE) standard, New Radio (New Radio, NR) standard, etc.

Step 202 , in the non-signaling mode, configure the network standard of the antenna to be tested as the network standard indicated by the test parameter.

The non-signaling mode means that the terminal does not establish a wireless signaling connection with any other device. Optionally, when acquiring the test parameters above, the terminal may also be in a non-signaling mode.

Optionally, after obtaining the above test parameters, the terminal may obtain the network standard contained therein according to the test parameters, and configure its own antenna to be tested to work under the network standard.

Step 203: Obtain the first interference strength received by the antenna to be tested, where the first interference strength is the signal strength of the noise floor generated by the antenna to be tested by the terminal.

That is, when the interference source is turned off, obtain the noise signal strength received by the antenna to be tested, because there are no other working devices in the terminal at this time, the noise signal obtained here is the noise floor generated by the antenna to be tested by the terminal Signal.

Step 204, when the test parameter indicates the interference strength of the test interference source to the antenna to be tested, when the network standard of the antenna to be tested includes the second network standard, in the non-signaling mode, the network standard of the antenna to be tested is automatically configured as the second network standard. a network format.

Among them, since each antenna in the terminal may support multiple different network formats, and during the test process, the antennas to be tested under each network format need to be measured, the above test parameters indicate the interference source of the test interference source to the antenna to be tested. There are various network formats of the antenna to be tested when the strength is determined.

For example, in the test parameters obtained by the terminal, if the network standard of the antenna to be tested includes LTE and GSM when the interference strength of the antenna to be tested is indicated to test the interference source, the terminal may first configure the network standard of the antenna to be tested in the above step 202 as For the LTE standard, after obtaining the first interference intensity received by the antenna to be tested under the LTE standard, the network standard of the antenna to be tested is automatically configured from the LTE standard to the GSM standard.

Step 205: Obtain the second interference strength received by the antenna under test, where the second interference strength is the signal strength of the noise floor generated by the terminal to the antenna under test configured as the second network standard.

That is, after configuring the network standard of the antenna to be tested to another network standard indicated by the test parameter, obtain the signal strength of the noise floor generated by the antenna to be tested under the network standard of the terminal.

In a possible implementation manner, when the above test parameters indicate that the interference strength of the antenna to be tested by the interference source is tested, and the network standards of the antenna to be tested include three or more, after obtaining the second interference strength, the terminal can continue to Automatically configure the network standard of the antenna under test to a network standard that has not been configured, and continue to obtain the signal strength of the noise floor generated by the terminal to the antenna to be tested under the corresponding network standard, until the test interference source indicated in the above test parameters is treated. When testing the interference strength of the antenna, after the network standard of the antenna to be tested has been configured, the step of obtaining the interference strength this time can be ended.

To sum up, by obtaining the test parameters, the test parameters include the network standard of the antenna to be tested when the interference strength of the antenna to be tested is indicated by the interference source; in the non-signaling mode, the network standard of the antenna to be tested is configured as the test parameter. Indicated network format; obtain the first interference strength received by the antenna to be tested, the first interference strength is the signal strength of the noise floor generated by the antenna to be tested by the terminal; to be tested when the test parameters indicate the interference strength of the antenna to be tested by the test interference source When the network standard of the antenna includes the second network standard, in the non-signaling mode, the network standard of the antenna to be tested is automatically configured to the second network standard; the second interference intensity received by the antenna to be tested is obtained, the second interference The strength is the signal strength of the noise floor generated by the terminal to the antenna to be tested under the second network standard. This application does not require an additional comprehensive measuring instrument, the interference intensity can be obtained through the terminal itself, the operation process of establishing a signaling connection is avoided, and the wireless network standard can be automatically switched to avoid manual operation, which can improve the efficiency and automation of the process of obtaining the interference intensity. Rate.

In a possible implementation manner, in order to complete the test of the antenna to be tested and obtain the noise interference intensity of the antenna to be tested by the interference source in the terminal, the embodiment of the present application can also automatically turn on the interference source after obtaining each interference intensity as described above, Obtain the noise interference intensity received by the antenna to be tested when the interference source is turned on and the antenna to be tested is in each network system. Therefore, the noise interference intensity generated by the antenna to be tested by the interference source under the corresponding network standard can be obtained, and finally the test of the antenna to be tested by the interference source in the terminal is completed.

Please refer to FIG. 3 , which shows a method flowchart of a method for obtaining interference strength provided by an exemplary embodiment of the present application. The method can be used in the above-mentioned terminal that needs to be tested and executed by the terminal. As shown in FIG. 3 , the method for obtaining the interference strength can include the following steps.

Step 301: Obtain configuration information input in a configuration interface, where the configuration information includes the network standard to be tested.

In this embodiment of the present application, the configuration information includes the network standard to be tested. The network standard to be tested can be any network standard, for example, NR, GSM, CDMA, WCDMA, LTE, and so on.

In a possible implementation manner, the terminal may be provided with a configuration interface, in which the terminal displays the system identifier of the candidate network standard, and the candidate network standard includes all network standards supported by each antenna of the terminal; During the selection operation, the network standard corresponding to the selected standard identifier is obtained as the network standard to be tested; the network standard to be tested is obtained as the input configuration information. Wherein, each candidate network standard identifier corresponds to a candidate network standard.

Please refer to FIG. 4 , which shows a schematic interface diagram of a configuration interface involved in an exemplary embodiment of the present application. As shown in FIG. 4 , the configuration interface 400 includes a network standard control 401 , a network standard sub-interface 402 , a standard identification 403 , and a selection control 404 . The tester can click the network standard control 401 to display or close the network standard sub-interface 402 in the configuration interface 400. The tester can also click the standard logo 403 or select the control 404 to select or deselect the corresponding standard logo 403. When the terminal receives the When the tester clicks on the standard identifier 403 or the selection control 404, it is deemed that the selection operation on the standard identifier 403 is received, and the terminal can obtain the network standard corresponding to the selected standard identifier 403 as the network standard to be tested, and use the standard to be tested. The network standard is obtained as the input configuration information.

For example, the tester can click the "LTE" standard logo and the "GSM" standard logo shown in Figure 4 to select the "LTE" standard logo and the "GSM" standard logo, and the terminal receives the "LTE" standard logo and "GSM" standard logo. When the standard logo is clicked, the LTE standard and GSM standard corresponding to the "LTE" standard logo and the "GSM" standard logo can be obtained as the network standard to be tested, and the LTE standard and the GSM standard can be obtained as the input configuration information.

Optionally, the above-mentioned candidate network standards may be preset in the software installation package by software developers or operation and maintenance personnel. When the terminal runs the software, the software can provide all network standards supported by each antenna of the terminal.

Optionally, the above configuration information may further include the identifier of the antenna to be tested, the working power of the antenna to be tested, or the frequency band to be tested of the network standard to be tested. That is, the configuration information may include any two or more information between the network standard to be tested and the identifier of the antenna to be tested, the working power of the antenna to be tested, and the frequency band to be tested of the network standard to be tested.

In a possible implementation manner, the terminal may also display the frequency band identifier of the candidate frequency band in the configuration interface, and the candidate frequency band is all frequency bands included in the network standard to be tested; when receiving the selection operation for the frequency band identifier, the selected frequency band will be displayed. The frequency band corresponding to the identification is obtained as the frequency band to be tested; at this time, the terminal can obtain the network standard to be tested and the frequency band to be tested as input configuration information.

Please refer to FIG. 5 , which shows a schematic interface diagram of another configuration interface involved in an exemplary embodiment of the present application. As shown in FIG. 5 , the configuration interface 500 includes a network standard control 501 , a network standard sub-interface 502 , a standard identifier 503 , a selection control 505 , a candidate frequency band control 506 , a frequency band sub-interface 507 , and a frequency band identifier 508 .

The selection of the network standard by the tester may refer to the manner shown in FIG. 4 , which will not be repeated here. When the tester completes the selection of the network standard, he can click the candidate frequency band control 506 to display or close the frequency band sub-interface 507 in the configuration interface 500. The tester can also click the frequency band identifier 508 or the selection control 505 to select or deselect the corresponding frequency band identifier. 508, when the terminal receives the click operation on the frequency band identifier 508 or the selection control 505 by the tester, it is deemed to have received the selection operation on the frequency band identifier 508, and the terminal can acquire the frequency band corresponding to the selected frequency band identifier 508 as the frequency band to be tested, The network standard to be tested and the frequency band to be tested are acquired as input configuration information.

Taking the above-mentioned Fig. 4, the network standard to be tested selected by the tester in the configuration interface is the LTE standard and the GSM standard as an example, the terminal can obtain all the frequency bands included in the LTE standard and the GSM standard. During operation, the frequency band identifiers corresponding to all frequency bands included in the LTE standard and the GSM standard are displayed in the frequency band sub-interface 507 . Among them, these frequency bands are candidate frequency bands. For example, all frequency bands in GSM include 800MHz, 900MHz, 1800MHz, and 1900MHz, and the terminal can acquire these frequency bands as candidate frequency bands and display them in the frequency band sub-interface.

Optionally, when the network standard to be tested selected by the tester in the configuration interface is the CDMA standard and the NR standard, the frequency band identifier 508 displayed in the frequency band sub-interface 507 corresponds to all the frequency bands included in the corresponding CDMA standard and the NR standard. The frequency band identification of , and will not be listed here. Optionally, the candidate frequency bands corresponding to the above various network standards may also be preset in the software installation package by software developers or operation and maintenance personnel. When the terminal runs the software, the software can provide the terminal corresponding to various network standards. candidate frequency bands.

In a possible implementation manner, the terminal may also display the antenna identifiers of the candidate antennas in the configuration interface, and the candidate antennas are all antennas in the terminal that support the network standard to be tested; The antenna corresponding to the antenna identifier is obtained as the antenna to be tested; at this time, the terminal may obtain the network standard to be tested and the antenna to be tested as input configuration information.

Please refer to FIG. 6 , which shows a schematic interface diagram of still another configuration interface involved in an exemplary embodiment of the present application. As shown in FIG. 6 , the configuration interface 600 includes a network standard control 601 , a network standard sub-interface 602 , a standard identification 603 , a selection control 604 , a candidate antenna control 605 , an antenna sub-interface 606 , and an antenna identification 607 .

The selection of the network standard by the tester may refer to the manner shown in FIG. 4 , which will not be repeated here. When the tester completes the selection of the network standard, he can click the candidate antenna control 605 to display or close the antenna sub-interface 606 in the configuration interface 600. The tester can also click the antenna logo 607 or the selection control 604 to select or deselect the corresponding antenna logo 607, when the terminal receives the click operation on the antenna mark 607 or the selection control 604 by the tester, it is deemed to have received the selection operation on the antenna mark 607, and the terminal can acquire the antenna corresponding to the selected antenna mark 607 as the antenna to be tested, The network standard to be tested and the antenna to be tested are acquired as input configuration information.

In the above-mentioned FIG. 4 , the network standard to be tested selected by the tester in the configuration interface is LTE standard and GSM standard as an example. During operation, the antenna sub-interface 606 displays the antenna identifiers corresponding to all antennas in the terminal that support the LTE standard and the GSM standard. Among them, these antennas are candidate antennas.

Optionally, when the network standard to be tested selected by the tester in the configuration interface is the CDMA standard and the NR standard, the antenna identifier 607 displayed in the antenna sub-interface 606 corresponds to all the antennas that support the CDMA standard and the NR standard. The antenna identification of , and will not be listed one by one here.

Optionally, the manner in which the terminal obtains all antennas of the network standard to be tested supported in the terminal according to the network standard to be tested may be as follows. The terminal may generate a correspondence table between the antenna identifier and the network standard, and the terminal obtains all antennas of the supported network standard to be tested from the correspondence table. Optionally, the terminal may include one or more antennas. In a possible implementation manner, the terminal includes antenna one, antenna two and antenna three. After the software is installed on the terminal, the software can number each antenna in the terminal, and use the number of each antenna as the antenna identification of each antenna. In a possible implementation, the software can also obtain the historical working status of each antenna. Determine the network standards that each antenna can support, and bind them according to the identifiers of each antenna. Please refer to Table 1, which shows a correspondence table between an antenna identifier and a network standard involved in an exemplary embodiment of the present application.

Table 1

As shown in Table 1, each antenna can have its own supported network standard. Optionally, after obtaining the network standard to be tested, the terminal may query all antennas supporting the network standard to be tested according to Table 1 above. For example, if the network standard to be tested is LTE, the antennas that can be obtained by the terminal include antenna 1 and antenna 2. In the configuration interface shown in FIG. 6 , when the selected system identifier 603 is the LTE system, the terminal may include antenna 1 and antenna 2 in each antenna identifier 607 displayed in the antenna sub-interface 606 .

In a possible implementation manner, the terminal can also display the power identifier of the candidate power in the configuration interface, and the candidate power is the working power of the antenna to be tested after the terminal configures the antenna to be tested to the network standard to be tested; During the selection operation, the working power corresponding to the selected power identifier is obtained as the power of the antenna to be tested; the terminal can obtain the network standard to be tested and the power of the antenna to be tested as input configuration information.

Please refer to FIG. 7 , which shows a schematic interface diagram of another configuration interface involved in an exemplary embodiment of the present application. As shown in FIG. 7 , the configuration interface 700 includes a network standard control 701 , a network standard sub-interface 702 , a standard identification 703 , a selection control 704 , a candidate power control 705 , a power sub-interface 706 , and a power identification 707 .

The selection of the network standard by the tester may refer to the manner shown in FIG. 4 , which will not be repeated here. After the tester completes the selection of the network standard, he can click the candidate power control 705 to display or close the power sub-interface 706 in the configuration interface 700. The tester can also click the power mark 707 or the selection control 704 to select or deselect the corresponding power mark. 607, when the terminal receives the click operation on the power mark 707 or the selection control 704 by the tester, it is deemed to have received the selection operation on the power mark 707, and the terminal can obtain the working power corresponding to the selected power mark 707 as the antenna to be tested. The power of the network to be tested and the power of the antenna to be tested are obtained as the input configuration information.

Taking the above Figure 4, the tester selects LTE and GSM as an example in the configuration interface. The terminal can also obtain the working power of the antenna to be tested, and then configure the network standard of the antenna to be tested to LTE. Or in GSM mode, adjust the working power of the antenna to be tested to the obtained working power. Optionally, the terminal may generate a correspondence table between the antenna identifier and the working power, and the terminal obtains the working power of the antenna to be tested from the correspondence table. Optionally, for the generation of the correspondence table between the antenna identifier and the working power, reference may be made to the generation method in Table 1 above, which is not repeated here.

Please refer to Table 2, which shows a correspondence table between antenna identifiers and operating powers involved in an exemplary embodiment of the present application.

Antenna identification Working power Antenna one Power One, Power Two, Power Three Antenna two power one, power three Antenna three Power one, power four ... ...

Table 2

As shown in Table 2, each antenna can have its own operating power. Optionally, the terminal can query the working power of each antenna according to the above Table 2, and each power identifier 707 displayed by the terminal in the power sub-interface 706 includes power one, power two, power three, and power four.

Optionally, the input of the configuration information shown in Figures 4 to 7 can be combined at will, that is, multiple configuration information is set and input in the same configuration interface. Optionally, Figures 4 to 7 may also be provided with When the tester starts the test, the terminal may use the input configuration information as the finally acquired configuration information, which is not limited in this embodiment of the present application.

Step 302: Acquire test parameters according to the configuration information.

Wherein, the test parameter includes the network standard of the antenna to be tested when indicating the interference strength of the antenna to be tested by the interference source.

Optionally, when the above-mentioned configuration information includes the network standard to be tested, the test parameters obtained by the terminal according to the configuration information may be the network standard to be tested, that is, the test parameters include the interference intensity of the antenna to be tested indicating that the test interference source is to be tested. The network standard of the antenna.

When the above configuration information includes the network standard to be tested and the frequency band to be tested, the test parameters obtained by the terminal according to the configuration information may be the network standard to be tested and the frequency band to be tested, and the test parameters may include the interference source indicating the interference of the antenna to be tested. When the strength is the network standard of the antenna to be tested, it may also include the frequency band to be tested under the network standard to be tested.

When the above configuration information includes the network standard to be tested and the antenna identifier of the antenna to be tested, the test parameters obtained by the terminal according to the configuration information may be the network standard to be tested and the antenna identifier of the antenna to be tested, and the test parameters may include an indication of test interference The source of the interference strength of the antenna to be tested is the network standard of the antenna to be tested, and may also include the antenna identifiers of the antennas to be tested that support the network standard to be tested.

When the above configuration information includes the network standard to be tested and the working power of the antenna to be tested, the test parameters obtained by the terminal according to the configuration information may be the network standard to be tested and the working power of the antenna to be tested, and the test parameters may include an indication of test interference The source of the interference strength of the antenna to be tested is the network standard of the antenna to be tested, and may also include the working power of the antenna to be tested when the antenna to be tested is tested.

Optionally, when the configuration information includes any two or more information between the network standard to be tested and the identifier of the antenna to be tested, the working power of the antenna to be tested, and the frequency band to be tested of the network standard to be tested, the terminal The test parameters obtained according to the configuration information may also include any two or more of the above information. This embodiment of the present application does not limit this.

Step 303 , in the non-signaling mode, configure the network standard of the antenna to be tested as the network standard indicated by the test parameter.

Optionally, in the non-signaling mode, the terminal may configure the network standard of its own antenna to be tested as the network standard indicated in the above test parameters. For example, the network standard indicated in the test parameter is the LTE standard, and the terminal may configure the network standard of the antenna to be tested as the LTE standard.

In a possible implementation manner, there are one or more antennas in the terminal, and when the test parameters do not indicate which antenna in the terminal is the antenna to be tested, the terminal can acquire all the antennas as the antenna to be tested according to the Each antenna is configured in turn with the network standard indicated in the above test parameters. For example, if there are Antenna 1 and Antenna 2 in the terminal, in this step, the terminal can first configure Antenna 1 to the network standard indicated in the test parameters, and perform Step 304 for Antenna 1. After Step 304 is performed, Antenna 2 is automatically configured It is the network standard indicated in the test parameter, and step 304 is performed for the second antenna.

Optionally, the test parameters further include a test frequency band supported by the network standard when the interference source of the interference source to be tested is tested for the interference strength of the antenna to be tested. That is, corresponding to an implementation manner in the above-mentioned step 302, the test parameters include the test frequency band supported by the network standard when the interference strength of the antenna to be tested is indicated to test the interference source, and this step 303 can be replaced with: in the non-signaling mode, set The antenna to be tested is configured under the network standard and test frequency band. For example, if the network standard indicated in the test parameters is GSM standard and 800MHz frequency band, the terminal can configure the network standard of the antenna to be tested as GSM standard, and configure the test frequency band of the antenna to be tested as the 800MHz frequency band.

Optionally, the test parameters also include the working power of the antenna to be tested when the interference strength of the antenna to be tested is instructed to be tested by the interference source. That is, corresponding to an implementation manner in the above-mentioned step 302, the test parameters include the working power of the antenna to be tested when the interference strength of the antenna to be tested is indicated to test the interference source, and this step 303 can be replaced with: in the non-signaling mode, use The antenna to be tested is configured to the network standard and the power to be used. For example, if the network standard indicated in the test parameters is GSM and the working power is 1w (watts), the terminal can configure the network standard of the antenna to be tested as GSM standard, and configure the working frequency of the antenna to be tested as 1w.

Optionally, the test parameters further include an antenna identifier indicating the antenna to be tested. That is, corresponding to an implementation manner in the above step 302, the test parameters include the antenna identifiers of the antennas to be tested that support the network standard to be tested, and this step 303 can be replaced with: in the non-signaling mode, the first to-be-tested antenna is The network standard of the test antenna is configured as the network standard indicated by the test parameter, and the first antenna to be tested is any one of the antennas to be tested. For example, if the network standard indicated in the test parameters is the GSM standard and the antenna one, the terminal can configure the network standard of the antenna one as the GSM standard.

Optionally, in this embodiment of the present application, when multiple types of indication information in the test parameters are tested, the terminal may also be configured at the same time. For example, the test parameters include that the network standard is GSM, the test frequency band is 800MHz, the antenna is marked as antenna one, and the working power is power one. The terminal can configure the network standard of antenna one to GSM standard and the test frequency band of antenna one to 800MHz Frequency band, the working power of Antenna 1 is configured as Power 1.

Step 304: Obtain the first interference strength received by the antenna to be tested, where the first interference strength is the signal strength of the noise floor generated by the antenna to be tested by the terminal.

Optionally, after the above-mentioned configuration of the network standard of the antenna to be tested is completed, the first interference intensity of the antenna to be tested may be acquired. Optionally, when the above test parameters include other indication information, the terminal may acquire the first interference strength of the antenna under test after the configuration of each antenna is completed.

In a possible implementation manner, when the test parameter indicates the interference strength of the test interference source to the antenna to be tested, when the test frequency band supported by the network standard includes the second test frequency band; the terminal can also in the non-signaling mode, automatically The test frequency band of the test antenna is configured as the second test frequency band.

Corresponding to an implementation manner in the foregoing step 303, the test parameters further include a second test frequency band supported by the network standard when the test parameter indicates that the interference strength of the interference source is tested for the antenna to be tested. For example, when the network standard indicated in the test parameters is the GSM standard, the 800MHz frequency band, and the 900MHz frequency band, the terminal configures the network standard of the antenna to be tested to the GSM standard, and configures the test frequency band of the antenna to be tested to the 800MHz frequency band, in this step After obtaining the first interference intensity received by the antenna to be tested, the terminal can also automatically configure the test frequency band of the antenna to be tested to the 900MHz frequency band, and obtain the first interference intensity received by the antenna to be tested again. The strength is the signal strength of the noise floor generated by the antenna to be tested when the network standard configuration of the antenna to be tested is GSM and the test frequency band of the antenna to be tested is the 900MHz frequency band.

Optionally, the test parameters also include instructions to test the interference source of the interference strength of the antenna to be tested. When the test frequency band supported by the network standard includes three or more test frequency bands, the description here can also be referred to, and details are not repeated here. In a possible implementation manner, if the test parameters do not include the test frequency band supported by the network standard when the interference intensity of the test interference source to the antenna to be tested is indicated, the terminal can sequentially treat the test antenna according to all test frequency bands supported by the network standard. configuration, which is not limited in this embodiment of the present application.

In a possible implementation manner, when the test parameter indicates the interference strength of the test interference source to the antenna to be tested, when the working power of the antenna to be tested includes the second working power, the terminal can also in the non-signaling mode, automatically The working power of the test antenna is configured as the second working power.

Corresponding to an implementation manner in the above-mentioned step 303, the test parameters further include the working power of the antenna to be tested when the interference strength of the antenna to be tested is instructed to be tested by the interference source, and the working power includes the second working power. For example, when the network standard indicated in the test parameters is GSM and the working power is 1w or 2w, the terminal configures the network standard of the antenna to be tested as GSM standard, and configures the working frequency of the antenna to be tested as 1w, in this step After obtaining the first interference intensity received by the antenna to be tested, the terminal can also automatically configure the working frequency of the antenna to be tested to 2w, and obtain the first interference intensity received by the antenna to be tested again, the first interference intensity at this time. That is, the network standard of the antenna to be tested is configured as GSM standard, and the operating frequency of the antenna to be tested is 2w, and the signal strength of the noise floor generated by the antenna to be tested by the terminal.

Optionally, when the test parameters indicate that the interference strength of the antenna to be tested by the interference source is tested, the working power of the antenna to be tested includes three or more working powers, the description here can also be referred to, and details are not repeated here. In a possible implementation manner, if the test parameters do not include the working power of the antenna to be tested when the interference strength of the antenna to be tested is indicated by the test interference source, the terminal can be tested in turn according to all the working powers of the antenna to be tested. The antenna is configured, which is not limited in this embodiment of the present application.

When the number of antennas to be tested is greater than or equal to 2, the terminal may configure the network standard of the first antenna to be tested in the non-signaling mode in step 303 to the network standard indicated by the test parameters, and the terminal may correspond to the network standard in this step. The first antenna to be tested configured in step 303 obtains the first interference intensity received by the first antenna to be tested, and the first antenna to be tested is any one of the antennas to be tested.

Optionally, the terminal can also automatically switch from the first antenna to be tested to the second antenna to be tested in the non-signaling mode, and configure the network standard of the second antenna to be tested as the network standard indicated by the test parameters, The second antenna under test is the other antenna in the antenna under test.

Corresponding to an implementation manner in the foregoing step 303, the test parameters further include an antenna identifier indicating the antenna to be tested, and the antenna identifier includes at least two antennas. For example, when the network standard indicated in the test parameters is GSM and the antennas of the antennas to be tested are identified as Antenna 1 and Antenna 2, after configuring the network standard of Antenna 1 to GSM, the terminal obtains the received data from Antenna 1 in this step. After the first interference strength of antenna 2, the terminal can also automatically switch antenna 1 to antenna 2, configure the network standard of antenna 2 to GSM, and obtain the first interference strength received by antenna 2 again, the first interference strength at this time. It is the signal strength of the noise floor generated by the terminal on the second antenna when the network standard of the second antenna is configured as the GSM standard.

Optionally, when the antenna identifier indicating the antenna to be tested in the test parameter includes three or more antenna identifiers, the description here can also be referred to, and details are not repeated here. In a possible implementation manner, if the test parameters do not include the antenna identifiers of the antennas to be tested that support the network standard to be tested, the terminal may configure each antenna in the terminal in sequence, and the embodiment of the present application does this. It is not limited.

Step 305, when the test parameter indicates the interference strength of the test interference source to the antenna to be tested, when the network standard of the antenna to be tested includes the second network standard, in the non-signaling mode, the network standard of the antenna to be tested is automatically configured as the second network standard. a network format.

That is, when the test parameters indicate that the interference strength of the antenna to be tested is tested by the interference source, when the network standard of the antenna to be tested includes the second network standard, the terminal can also automatically configure the network standard of the antenna to be tested as The second network format.

For example, when the network standard indicated in the test parameters is the GSM standard and the LTE standard, after the terminal configures the network standard of the antenna to be tested as the GSM standard, after obtaining the first received interference intensity of the antenna to be tested in the above step 304, the terminal The network standard of the antenna to be tested can also be automatically configured as the LTE standard. Optionally, when the network standards indicated in the test parameters include three or more network standards, the terminal can also configure the network standards of the antennas to be tested to different network standards from the previously configured network standards, which is not repeated here. Repeat.

Step 306: Obtain the second interference strength received by the antenna to be tested, where the second interference strength is the signal strength of the noise floor generated by the terminal to the antenna to be tested configured in the second network standard.

Optionally, the terminal can obtain the second interference intensity received by the antenna to be tested, and the first interference intensity at this time is the noise floor generated by the antenna to be tested when the network standard of the antenna to be tested is configured as another network standard. signal strength.

Optionally, the terminal may also detect the test parameters after acquiring the above-mentioned first interference strength or second interference strength, and check whether the network standard or other information indicated by the test is completed, so as to determine the subsequent execution steps.

Step 307, automatically turn on the interference source in the terminal.

That is, the above steps 301 to 306 can be regarded as the terminal obtaining the noise interference intensity received by the antenna to be tested when the interference source is not turned on. In order to obtain the interference intensity caused by the interference source to the antenna to be tested, the terminal can also After the steps are completed, the interference source is automatically turned on and the subsequent steps are performed to complete the test of the antenna to be tested for the interference source.

In a possible implementation manner, the power of the terminal will be consumed when the interference source is turned on. A complete test process may take an average of 2 to 4 hours, of which the time when the interference source is turned on is at least 1 to 2 hours, and the interference source is always turned on will undoubtedly consume the power of the terminal. In the process of turning on, the test is suddenly interrupted due to insufficient power, resulting in the previous test data having no corresponding reference value, resulting in unnecessary waste of time. Therefore, in a possible implementation manner, after the terminal obtains the first interference strength and the second interference strength corresponding to the test parameters when the interference source is turned off, it can estimate the power consumption required to perform subsequent steps after the interference source is turned on. , so as to compare with the remaining power of the current terminal. If the subsequent test needs cannot be met, a charging prompt can be given, so that the tester can know the current power status of the terminal in time and adjust the subsequent test plan.

That is, before this step, the terminal can also obtain the first test power consumption and the first test time consumption. The first test power consumption is the power consumption for obtaining the first interference strength and the second interference strength, and the first test power consumption is the total time consumed for obtaining the first interference intensity and the second interference intensity; The test power consumption is the power consumed by obtaining the third interference strength and the fourth interference strength; when the remaining power of the terminal is lower than the second test power consumption, a charging prompt is performed.

Optionally, when the interference source is in the off state and the terminal starts to perform the signal reception strength test, the first power level and the first time of the current terminal are obtained, and when the terminal obtains the first interference strength and the second interference strength indicated by the test parameters After that, the second power level and the second time of the terminal at this time are acquired. The terminal obtains the first test power consumption according to the difference between the first power and the second power. The terminal obtains the time-consuming of the first test according to the difference between the first time and the second time.

For example, if the first power is 98% and the second power is 54%, the power consumption of the first test is 44%; the first time is 11:28 and the second time is 13:30, then the first test time is 2 hours and 2 minutes.

Optionally, the power consumption per unit time of the interference source may be preset in the terminal by the tester, or calculated by the terminal based on historical data. The total power consumption corresponding to the opening time period, so that the power consumption per unit time is obtained according to the opening time period and the total power consumption. The terminal may determine the power consumption of the second test according to the time consumption of the first test and the power consumption per unit time of the interference source. For example, the terminal multiplies the power consumption per unit time of the interference source by the time consumption of the first test, and adds the power consumption of the first test to obtain the power consumption of the second test.

Exemplarily, the terminal compares the obtained second test power consumption with the current remaining power of the terminal. If the current remaining power is lower than the second test power consumption, it indicates that the current power consumption of the terminal may not be able to meet the requirements when the interference source is on. , the signal reception strength test, at this time, a charging prompt can be performed to remind the tester that the test can be suspended and the terminal can be charged. Optionally, the manner of the above charging prompt may be a voice prompt or a text prompt, and the embodiment of the present application does not limit the manner of the charging prompt.

Step 308 , in the non-signaling mode, reconfigure the network standard of the antenna to be tested to the network standard indicated by the test parameter according to the test parameter.

Step 309: Obtain a third interference strength received by the antenna to be tested, where the third interference strength is the strength of a noise signal received by the antenna to be tested when the interference source is working.

Step 310, when the test parameter indicates the interference strength of the test interference source to the antenna to be tested, when the network standard of the antenna to be tested includes the second network standard, in the non-signaling mode, the network standard of the antenna to be tested is automatically configured as the second network standard. a network format.

Step 311: Obtain a fourth interference intensity received by the antenna to be tested, where the fourth interference intensity is the noise signal intensity received by the antenna to be tested configured in the second network mode when the interference source is working.

Optionally, the terminal performs the methods in the above steps 308 to 311 when the interference source is turned on, and the description of each step may refer to the content of the above-mentioned case when the interference source is turned off (steps 303 to 306), It will not be repeated here.

Step 312 , according to the first interference intensity and the third interference intensity, obtain the first noise intensity generated by the antenna to be tested by the interference source.

Step 313 , according to the second interference intensity and the fourth interference intensity, obtain the second noise intensity generated by the antenna to be tested by the interference source.

Optionally, in step 312 and step 313, the terminal may obtain the first noise intensity generated by the antenna to be tested by the interference source according to the obtained first interference intensity, third interference intensity, second interference intensity and fourth interference intensity, and the second noise intensity generated by the antenna to be tested by the interference source.

In a possible way, when the terminal obtains the above-mentioned first interference strength, it can associate and store the configuration information used at this time, and when the terminal obtains the above-mentioned second interference strength, it can associate with the configuration information used at this time. When the terminal obtains the third interference strength, the terminal may associate and store the configuration information used at this time, and when the terminal obtains the fourth interference strength, the terminal may associate and store the configuration information used at this time.

For example, please refer to Tables 3 to 6, which show a correspondence table of interference strength and configuration information involved in the embodiments of the present application.

First Interference Strength configuration information The first interference intensity one Antenna one, network standard one, frequency band one First Interference Strength Two Antenna one, network standard one, frequency band two ... ...

table 3

Second Interference Strength configuration information The second interference intensity one Antenna one, network standard two, frequency band one Second Interference Strength Two Antenna one, network standard two, frequency band two ... ...

Table 4

Third Interference Strength configuration information The third interference intensity one Antenna one, network standard one, frequency band one The third interference intensity two Antenna one, network standard one, frequency band two ... ...

table 5

Fourth Interference Strength configuration information Fourth Interference Strength One Antenna one, network standard two, frequency band one Fourth Interference Strength II Antenna one, network standard two, frequency band two ... ...

Table 6

The terminal may acquire the first noise intensity generated by the interference source to the antenna in the configuration information according to the first interference intensity and the third interference intensity that are the same in the configuration information. According to the second interference strength and the fourth interference strength with the same configuration information, the second noise strength generated by the interference source to the antenna in the configuration information is acquired.

Optionally, before step 301 in this embodiment of the present application, a processor platform corresponding to the terminal processor may also be determined; the method for obtaining the interference strength is executed by invoking an instruction corresponding to the processor platform. That is, when the above-mentioned methods from steps 301 to 313 are executed, they are executed by invoking instructions corresponding to the processor platform. For example, when the processor platform is a Qualcomm platform, the instruction is a Diag (Diagnose, diagnosis) instruction, and when the processor platform is a MediaTek platform, the instruction is an AT (Attention, attention) instruction. The embodiments of the present application are not limited thereto.

To sum up, by obtaining the test parameters, the test parameters include the network standard of the antenna to be tested when the interference strength of the antenna to be tested is indicated by the interference source; in the non-signaling mode, the network standard of the antenna to be tested is configured as the test parameter. Indicated network format; obtain the first interference strength received by the antenna to be tested, the first interference strength is the signal strength of the noise floor generated by the antenna to be tested by the terminal; to be tested when the test parameters indicate the interference strength of the antenna to be tested by the test interference source When the network standard of the antenna includes the second network standard, in the non-signaling mode, the network standard of the antenna to be tested is automatically configured to the second network standard; the second interference intensity received by the antenna to be tested is obtained, the second interference The strength is the signal strength of the noise floor generated by the terminal to the antenna to be tested under the second network standard. This application does not require an additional comprehensive measuring instrument, the interference intensity can be obtained through the terminal itself, the operation process of establishing a signaling connection is avoided, and the wireless network standard can be automatically switched to avoid manual operation, which can improve the efficiency and automation of the process of obtaining the interference intensity. Rate.

The following are apparatus embodiments of the present application, which can be used to execute the method embodiments of the present application. For details not disclosed in the device embodiments of the present application, please refer to the method embodiments of the present application.

Please refer to FIG. 8 , which shows a structural block diagram of an apparatus for obtaining interference strength provided by an exemplary embodiment of the present application. The apparatus for obtaining interference strength may be used in a terminal to perform all or part of the steps performed by the terminal in the method provided in the embodiment shown in FIG. 2 or FIG. 3 . The interference strength obtaining device may include:

A parameter acquisition module 801, configured to acquire test parameters, where the test parameters include the network standard of the antenna to be tested when the interference source is instructed to test the interference strength of the antenna to be tested;

a first configuration module 802, configured to configure the network standard of the antenna to be tested as the network standard indicated by the test parameter in a non-signaling mode;

A first obtaining module 803, configured to obtain a first interference strength received by the antenna to be tested, where the first interference strength is the signal strength of the noise floor generated by the terminal to the antenna to be tested;

The second configuration module 804 is configured to, when the test parameter indicates to test the interference strength of the interference source to the antenna to be tested, when the network standard of the antenna to be tested includes the second network standard, in the non-signaling mode , automatically configure the network standard of the antenna to be tested to the second network standard;

The second obtaining module 805 is configured to obtain a second interference strength received by the antenna under test, where the second interference strength is the antenna under test that the terminal pair is configured to use under the second network standard The signal strength of the resulting noise floor.

To sum up, by obtaining the test parameters, the test parameters include the network standard of the antenna to be tested when the interference strength of the antenna to be tested is indicated by the interference source; in the non-signaling mode, the network standard of the antenna to be tested is configured as the test parameter. Indicated network format; obtain the first interference strength received by the antenna to be tested, the first interference strength is the signal strength of the noise floor generated by the antenna to be tested by the terminal; to be tested when the test parameters indicate the interference strength of the antenna to be tested by the test interference source When the network standard of the antenna includes the second network standard, in the non-signaling mode, the network standard of the antenna to be tested is automatically configured to the second network standard; the second interference intensity received by the antenna to be tested is obtained, the second interference The strength is the signal strength of the noise floor generated by the terminal to the antenna to be tested under the second network standard. This application does not require an additional comprehensive measuring instrument, the interference intensity can be obtained through the terminal itself, the operation process of establishing a signaling connection is avoided, and the wireless network standard can be automatically switched to avoid manual operation, which can improve the efficiency and automation of the process of obtaining the interference intensity. Rate.

Optionally, the device further includes:

an opening module for automatically opening the interference source in the terminal;

a third configuration module, configured to reconfigure the network standard of the antenna to be tested to the network standard indicated by the test parameter according to the test parameter in the non-signaling mode;

a third acquisition module, configured to acquire a third interference strength received by the antenna to be tested, where the third interference strength is the strength of a noise signal received by the antenna to be tested when the interference source is working;

The fourth configuration module is configured to, when the test parameter indicates to test the interference strength of the interference source to the antenna to be tested, when the network standard of the antenna to be tested includes the second network standard, in the non-signaling mode under, automatically configure the network standard of the antenna to be tested to the second network standard;

a fourth obtaining module, configured to obtain a fourth interference intensity received by the antenna to be tested, where the fourth interference intensity is the signal to be tested that is configured as the second network standard when the interference source is working The strength of the noise signal received by the antenna;

a fifth acquisition module, configured to acquire, according to the first interference strength and the third interference strength, the first noise strength generated by the interference source to the antenna to be tested;

A sixth acquiring module, configured to acquire, according to the second interference strength and the fourth interference strength, the second noise strength generated by the interference source on the antenna to be tested.

Optionally, the test parameter also includes a test frequency band supported by the network standard when the interference source is instructed to test the interference strength of the antenna to be tested;

The first configuration module 802 is configured to configure the antenna to be tested to the network standard and the test frequency band in the non-signaling mode.

Optionally, the device further includes:

The fifth configuration module is configured to obtain in the first obtaining module 803 when the test parameter indicates that the test frequency band supported by the network standard includes the second test frequency band when testing the interference strength of the interference source to the antenna to be tested. After the first interference strength received by the antenna under test, in the non-signaling mode, the test frequency band of the antenna under test is automatically configured as the second test frequency band.

Optionally, the test parameters also include the working power of the antenna to be tested when the interference source is instructed to test the interference strength of the antenna to be tested;

The first configuration module 802 is configured to configure the antenna to be tested to the network standard and the to-be-operated power in the non-signaling mode.

Optionally, the device further includes:

The sixth configuration module is configured to obtain in the first obtaining module 803 when the working power of the antenna to be tested includes the second working power when the test parameter indicates to test the interference strength of the antenna to be tested by the interference source After the first interference strength received by the antenna under test, in the non-signaling mode, the working power of the antenna under test is automatically configured as the second working power.

Optionally, the first configuration module 802 is configured to configure, in the non-signaling mode, the network standard of the first antenna to be tested as the test antenna when the number of the antennas to be tested is greater than or equal to 2 The network standard indicated by the parameter, and the first antenna to be tested is any one of the antennas to be tested;

The first obtaining module 803 is configured to obtain the first interference intensity received by the first antenna to be tested;

The device also includes:

A seventh configuration module, configured to automatically switch from the first antenna to be tested to the second antenna to be tested in the non-signaling mode, and configure the network standard of the second antenna to be tested as the test antenna The network format indicated by the parameter.

Optionally, the parameter acquisition module 801 includes: an information acquisition unit and a parameter acquisition unit;

an information acquisition unit, configured to acquire configuration information input in the configuration interface, where the configuration information includes the network standard to be tested;

The parameter obtaining unit is configured to obtain the test parameter according to the configuration information.

Optionally, the information acquisition unit includes: a display subunit, a first acquisition subunit and a second acquisition subunit;

the display subunit, configured to display the standard identifier of the candidate network standard in the configuration interface, where the candidate network standard includes all network standards supported by each antenna of the terminal;

The first obtaining subunit is configured to obtain the network standard corresponding to the selected standard identification as the network standard to be tested when receiving the selection operation for the standard identification;

The second obtaining subunit is configured to obtain the network standard to be tested as the input configuration information.

Optionally, the configuration information further includes the identifier of the antenna to be tested or the working power of the antenna to be tested or the frequency band to be tested of the network standard to be tested, and the information acquisition unit is used to The frequency band identifier of the candidate frequency band is displayed in the configuration interface, and the candidate frequency band is all the frequency bands included in the network standard to be tested; when the selection operation for the frequency band identifier is received, the frequency band corresponding to the selected frequency band identifier is obtained as the selected frequency band. Describe the frequency band to be tested;

the second acquisition subunit, configured to acquire the network standard to be tested and the frequency band to be tested as the input configuration information;

or,

The information acquisition unit is configured to display the antenna identifiers of the candidate antennas in the configuration interface, and the candidate antennas are all antennas in the terminal that support the network standard to be tested; During the selection operation, the antenna corresponding to the selected antenna identifier is acquired as the antenna to be tested;

the second acquisition subunit, configured to acquire the network standard to be tested and the antenna to be tested as the input configuration information;

or,

The information acquisition unit is configured to display the power identifier of the candidate power in the configuration interface, where the candidate power is the operation of the antenna to be tested after the terminal configures the antenna to be tested to the network standard to be tested power; when receiving the selection operation for the power identifier, obtain the working power corresponding to the selected power identifier as the power of the antenna to be tested;

The second obtaining subunit is configured to obtain the network standard to be tested and the power of the antenna to be tested as the input configuration information.

Optionally, the device further includes:

A seventh obtaining module, configured to obtain a first test power consumption and a first test time consumption before automatically turning on the interference source in the terminal, and the first test power consumption is to obtain the first interference strength and the power consumed by the second interference strength, and the first test time consumption is the total time spent to obtain the first interference strength and the second interference strength;

The eighth acquisition module is configured to determine the second test power consumption according to the first test power consumption, the first test time consumption and the unit time power consumption of the interference source, and the second test power consumption The electric power is the electric power consumed to obtain the third interference intensity and the fourth interference intensity;

The prompting module is used for prompting charging when the remaining power of the terminal is lower than the power consumption of the second test.

Optionally, the device further includes:

The platform determination module is used to determine the processor platform corresponding to the terminal processor;

an execution module, configured to execute the interference intensity acquisition method by calling an instruction corresponding to the processor platform;

Wherein, when the processor platform is a Qualcomm platform, the instruction is a judgment Diag instruction, and when the processor platform is a MediaTek platform, the instruction is an attention AT instruction.

Please refer to FIG. 9, which shows a schematic structural diagram of a terminal provided by an exemplary embodiment of the present application. As shown in FIG. 9, the terminal includes a processor 910, a memory 920, a display component 930, and a sensor component 940. The display component 930 It is used to display the interface of the program running in the foreground in the terminal, and the sensor component 940 is used to collect various sensor data. At least one instruction is stored in the memory 920, and the instruction is loaded and executed by the processor 910 to implement some or all of the steps performed by the terminal in the methods for obtaining the interference strength described in the above embodiments.

Embodiments of the present application further provide a computer-readable storage medium, where at least one instruction, at least one piece of program, code set or instruction set is stored in the storage medium, the at least one instruction, the at least one piece of program, the code The set or instruction set is loaded and executed by the processor to implement the interference strength acquisition method as described in each of the above embodiments.

Embodiments of the present application further provide a computer program product, where at least one instruction is stored in the computer program product, and the at least one instruction is loaded and executed by the processor to implement the method for obtaining the interference strength as described in each of the above embodiments.

Those skilled in the art should realize that, in one or more of the above examples, the functions described in the embodiments of the present application may be implemented by hardware, software, firmware, or any combination thereof. When implemented in software, the functions may be stored in or transmitted over as one or more instructions or code on a computer-readable storage medium. Computer-readable storage media includes both computer storage media and communication media including any medium that facilitates transfer of a computer program from one place to another. A storage medium can be any available medium that can be accessed by a general purpose or special purpose computer.

The above descriptions are only optional embodiments of the present application, and are not intended to limit the present application. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present application shall be included in the protection of the present application. within the range.

Claims (13)

1. An interference strength acquisition method, wherein the method is executed by a terminal, and the method comprises:

acquiring configuration information input in a configuration interface, wherein the configuration information comprises a network system to be tested, the configuration information also comprises a frequency band to be tested of the network system to be tested or an antenna identifier of an antenna to be tested or the working power of the antenna to be tested, the frequency band to be tested of the network system to be tested is a frequency band corresponding to a selected frequency band identifier, the selected frequency band identifier is determined based on the selection operation of the frequency band identifier of a candidate frequency band in the configuration interface, the candidate frequency bands are all frequency bands contained in the network system to be tested, the antenna identifier of the antenna to be tested is a selected antenna identifier, the selected antenna identifier is determined based on the selection operation of the antenna identifier of the candidate antenna in the configuration interface, and the candidate antennas are all antennas supporting the network system to be tested in the terminal, the working power of the antenna to be tested is the working power corresponding to the selected power identifier, the selected power identifier is determined based on the selection operation of the power identifier of the candidate power in the configuration interface, and the candidate power is the working power of the antenna to be tested after the terminal configures the antenna to be tested to the network standard to be tested;

acquiring test parameters according to the configuration information, wherein the test parameters comprise a network standard of the antenna to be tested when the interference strength of a test interference source to the antenna to be tested is indicated;

under a non-signaling mode, configuring the network standard of the antenna to be tested as the network standard indicated by the test parameter, wherein the non-signaling mode means that the terminal does not establish wireless signaling connection with other equipment;

acquiring a first interference strength received by the antenna to be tested, wherein the first interference strength is the signal strength of a background noise generated by the terminal to the antenna to be tested;

when the test parameter indicates that the network standard of the antenna to be tested comprises a second network standard when the test parameter tests the interference strength of the interference source to the antenna to be tested, automatically configuring the network standard of the antenna to be tested as the second network standard in the non-signaling mode;

and acquiring a second interference strength received by the antenna to be tested, wherein the second interference strength is the signal strength of the background noise generated by the terminal to the antenna to be tested configured in the second network system.

2. The method of claim 1, further comprising:

automatically starting an interference source in the terminal;

under the non-signaling mode, reconfiguring the network standard of the antenna to be tested into the network standard indicated by the test parameter according to the test parameter;

acquiring a third interference strength received by the antenna to be tested, wherein the third interference strength is the noise signal strength received by the antenna to be tested when the interference source works;

when the test parameter indicates that the network standard of the antenna to be tested contains the second network standard when the test parameter tests the interference strength of the interference source to the antenna to be tested, automatically configuring the network standard of the antenna to be tested as the second network standard in the non-signaling mode;

acquiring fourth interference strength received by the antenna to be tested, wherein the fourth interference strength is the noise signal strength received by the antenna to be tested, which is configured to be under the second network system when the interference source works;

acquiring a first noise intensity generated by the interference source to the antenna to be tested according to the first interference intensity and the third interference intensity;

and acquiring a second noise intensity generated by the interference source to the antenna to be tested according to the second interference intensity and the fourth interference intensity.

3. The method according to claim 1, wherein the test parameters further include a test frequency band supported by the network standard when the interference strength of the interference source to the antenna to be tested is tested;

the configuring, in the non-signaling mode, the network standard of the antenna to be tested to the network standard indicated by the test parameter includes:

and under the non-signaling mode, configuring the antenna to be tested to the network standard and the test frequency band.

4. The method according to claim 3, wherein when the test parameter indicates that the test frequency band supported by the network standard when testing the interference strength of the interference source to the antenna to be tested includes a second test frequency band; after the obtaining of the first interference strength received by the antenna to be tested, the method further includes:

and under the non-signaling mode, automatically configuring the test frequency band of the antenna to be tested to the second test frequency band.

5. The method of claim 1, wherein the test parameters further include an operating power indicating the antenna to be tested when testing the interference strength of the interference source to the antenna to be tested;

the configuring, in the non-signaling mode, the network standard of the antenna to be tested to the network standard indicated by the test parameter includes:

and under the non-signaling mode, configuring the antenna to be tested to the network standard and the working power.

6. The method of claim 5, wherein when the test parameter indicates that the operating power of the antenna to be tested includes a second operating power when the test parameter tests the interference strength of the interference source to the antenna to be tested, after the obtaining the first interference strength received by the antenna to be tested, further comprising:

and in the non-signaling mode, automatically configuring the working power of the antenna to be tested to the second working power.

7. The method according to claim 1, wherein when the number of the antennas to be tested is greater than or equal to 2, the configuring, in the non-signaling mode, the network standard of the antennas to be tested to the network standard indicated by the test parameter includes:

under the non-signaling mode, configuring a network standard of a first antenna to be tested as the network standard indicated by the test parameter, wherein the first antenna to be tested is any one of the antennas to be tested;

the obtaining of the first interference strength received by the antenna to be tested includes:

acquiring first interference strength received by the first antenna to be tested;

the method further comprises the following steps:

and under the non-signaling mode, automatically switching from the first antenna to be tested to a second antenna to be tested, and configuring the network standard of the second antenna to be tested as the network standard indicated by the test parameter.

8. The method of claim 1, wherein the obtaining configuration information entered in the configuration interface comprises:

displaying a system identifier of a candidate network system in the configuration interface, wherein the candidate network system comprises all network systems supported by each antenna of the terminal;

when receiving the selection operation of the system identification, acquiring the network system corresponding to the selected system identification as the network system to be tested;

and acquiring the network standard to be tested as the input configuration information.

9. The method of claim 2, further comprising, before the automatically turning on the interference source in the terminal:

acquiring a first test power consumption and a first test time consumption, wherein the first test power consumption is the power consumed by acquiring the first interference strength and the second interference strength, and the first test time consumption is the total time consumption for acquiring the first interference strength and the second interference strength;

determining second test power consumption according to the first test power consumption, the first test consumed time and the power consumption of the interference source in unit time, wherein the second test power consumption is the power consumption for acquiring the third interference intensity and the fourth interference intensity;

and when the residual electric quantity of the terminal is lower than the second test electric consumption quantity, carrying out charging prompt.

10. The method of claim 1, further comprising:

determining a processor platform corresponding to a terminal processor;

executing the interference intensity obtaining method by calling an instruction corresponding to the processor platform;

when the processor platform is a high-pass platform, the instruction is a diagnosis Diag instruction, and when the processor platform is a joint platform, the instruction is an attention AT instruction.

11. An apparatus for obtaining interference strength, the apparatus being used in a terminal, the apparatus comprising:

a parameter obtaining module including an information obtaining unit and a parameter obtaining unit, where the information obtaining unit is configured to obtain configuration information input in a configuration interface, where the configuration information includes a network system to be tested, the configuration information also includes a frequency band to be tested of the network system to be tested, or an antenna identifier of an antenna to be tested, or a working power of the antenna to be tested, the frequency band to be tested of the network system to be tested is a frequency band corresponding to a selected frequency band identifier, the selected frequency band identifier is determined based on a selection operation of frequency band identifiers of candidate frequency bands in the configuration interface, the candidate frequency bands are all frequency bands included in the network system to be tested, the antenna identifier of the antenna to be tested is a selected antenna identifier, and the selected antenna identifier is determined based on a selection operation of antenna identifiers of candidate antennas in the configuration interface, the candidate antennas are all antennas supporting the network standard to be tested in the terminal, the working power of the antennas to be tested is the working power corresponding to the selected power identifier, the selected power identifier is determined based on the selection operation of the power identifier of the candidate power in the configuration interface, and the candidate power is the working power of the antennas to be tested after the terminal configures the antennas to be tested to the network standard to be tested;

the parameter obtaining unit is used for obtaining a test parameter according to the configuration information, wherein the test parameter comprises a network type of the antenna to be tested when the interference strength of a test interference source to the antenna to be tested is indicated;

a first configuration module, configured to configure the network standard of the antenna to be tested as the network standard indicated by the test parameter in a non-signaling mode, where the non-signaling mode indicates that the terminal does not establish a wireless signaling connection with other devices;

a first obtaining module, configured to obtain a first interference strength received by the antenna to be tested, where the first interference strength is a signal strength of a noise floor generated by the terminal to the antenna to be tested;

the second configuration module is used for automatically configuring the network standard of the antenna to be tested to a second network standard in the non-signaling mode when the test parameters indicate that the network standard of the antenna to be tested contains the second network standard when the test parameters indicate that the interference strength of the interference source to the antenna to be tested is tested;

a second obtaining module, configured to obtain a second interference strength received by the antenna to be tested, where the second interference strength is a signal strength of a noise floor generated by the terminal to the antenna to be tested configured in the second network type.

12. A terminal comprising a processor and a memory, wherein the memory has stored therein at least one instruction, at least one program, a set of codes, or a set of instructions, which are loaded and executed by the processor to implement the interference strength acquisition method according to any one of claims 1 to 10.

13. A computer readable storage medium, having stored therein at least one instruction, at least one program, a set of codes, or a set of instructions, which is loaded and executed by a processor to implement the interference strength acquisition method according to any one of claims 1 to 10.

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