CN111431633B - Test method and system, and storage medium - Google Patents

Abstract

The embodiment of the application discloses a test method, a test system and a storage medium, wherein the test method comprises the following steps: determining a target signal source; the target signal source is any frequency band signal corresponding to any standard signal; acquiring configuration information of a terminal to be tested, and generating a plurality of initial signals corresponding to a target signal source according to the configuration information so that the terminal to be tested performs service processing based on the plurality of initial signals; carrying out attenuation processing on the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals; wherein one initial signal corresponds to one attenuated signal; when the terminal to be tested performs service processing based on the attenuated signals, acquiring a switching parameter and a service quality parameter corresponding to the terminal to be tested; and generating a test result corresponding to the target signal source according to the switching parameter and the service quality parameter.

Description

Test method and system, and storage medium

Technical Field

The present invention relates to the field of computer technologies, and in particular, to a test method and system, and a storage medium.

Background

With the development of the diversity of the terminal functions, not only the time of using the terminal by the user is increased, but also the using modes become diversified, wherein, in order to ensure that the user can ensure better antenna performance when holding the terminal in different postures, each terminal manufacturer is configured with a corresponding antenna switching strategy. For example, the terminal has antennas in the upper and lower directions, and when the upper antenna is blocked, the terminal switches the signal to the lower antenna for transmission; otherwise, when the lower antenna is shielded, the terminal switches the signal to the upper antenna for transmission. In addition, in order to better deal with different hand-held situations of users, part of the terminals are provided with antennas of upper, middle and lower three parts (or four parts).

In the prior art, in order to detect whether an antenna switching policy configured for a terminal is in effect, various handheld positions of a user are simulated manually, and whether terminal antenna switching is in effect is determined through engineering mode display of the terminal. Due to the difference of antenna switching strategies configured for terminals working in different systems/frequency band signals, the existing test method aiming at the terminal antenna switching strategy is difficult to perform comprehensive test coverage on all frequency band/frequency point signals. Meanwhile, various handheld positions of a simulation user can only judge whether the terminal antenna switching function is effective or not, and quantitative testing cannot be realized.

Disclosure of Invention

The embodiment of the application provides a test method, a test system and a storage medium, which not only can realize comprehensive coverage test of all frequency band signals of a terminal to be tested, but also can realize quantitative test of the antenna switching process of the terminal to be tested and the service quality before and after switching, and have high test efficiency and good accuracy.

The technical scheme of the embodiment of the application is realized as follows:

in a first aspect, an embodiment of the present application provides a testing method, where the method includes:

determining a target signal source; the target signal source is any frequency band signal corresponding to any standard signal;

acquiring configuration information of a terminal to be tested, and generating a plurality of initial signals corresponding to the target signal source according to the configuration information so that the terminal to be tested performs service processing based on the plurality of initial signals;

performing attenuation processing on the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals; wherein one initial signal corresponds to one attenuated signal;

when the terminal to be tested performs the service processing based on the attenuated signals, acquiring a switching parameter and a service quality parameter corresponding to the terminal to be tested;

and generating a test result corresponding to the target signal source according to the switching parameter and the service quality parameter.

In a second aspect, an embodiment of the present application provides a test system, where the test system includes: a determining unit, an acquiring unit, a generating unit and a processing unit,

the determining unit is used for determining a target signal source; the target signal source is any frequency band signal corresponding to any standard signal;

the acquiring unit is used for acquiring the configuration information of the terminal to be tested;

the generating unit is configured to generate a plurality of initial signals corresponding to the target signal source according to the configuration information, so that the terminal to be tested performs service processing based on the plurality of initial signals;

the processing unit is configured to perform attenuation processing on the multiple initial signals to obtain multiple attenuated signals corresponding to the multiple initial signals; wherein one initial signal corresponds to one attenuated signal;

the acquiring unit is further configured to acquire a handover parameter and a service quality parameter corresponding to the terminal to be tested when the terminal to be tested performs the service processing based on the attenuated signals;

the generating unit is further configured to generate a test result corresponding to the target signal source according to the handover parameter and the service quality parameter.

In a third aspect, an embodiment of the present application provides a test system, where the test system includes a processor, and a memory storing instructions executable by the processor, and when the instructions are executed by the processor, the test system implements the test method described above.

In a fourth aspect, the present application provides a computer-readable storage medium, on which a program is stored, and the program is applied to a test system, and when the program is executed by a processor, the program implements the test method as described above.

The embodiment of the application provides a test method and a test system as well as a storage medium, wherein the test system determines a target signal source; the target signal source is any frequency band signal corresponding to any standard signal; acquiring configuration information of a terminal to be tested, and generating a plurality of initial signals corresponding to a target signal source according to the configuration information so that the terminal to be tested performs service processing based on the plurality of initial signals; carrying out attenuation processing on the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals; wherein one initial signal corresponds to one attenuated signal; when the terminal to be tested performs service processing based on the attenuated signals, acquiring a switching parameter and a service quality parameter corresponding to the terminal to be tested; and generating a test result corresponding to the target signal source according to the switching parameter and the service quality parameter. That is to say, in the embodiment of the present application, the test system obtains the antenna switching test result of the terminal to be tested by testing the switching parameter and the service quality parameter of the terminal to be tested when performing service processing on any frequency band signal corresponding to any standard signal, so that not only can the terminal to be tested be comprehensively coverage tested, but also the antenna switching process of the terminal to be tested and the quantitative test of the service quality before and after switching can be realized, and the test efficiency is high and the accuracy is good.

Drawings

Fig. 1 is a schematic diagram of an exemplary terminal configured with a four-way antenna according to an embodiment of the present application;

fig. 2 is a first schematic structural diagram of a test system according to an embodiment of the present disclosure;

fig. 3 is a first schematic flow chart illustrating an implementation process of the testing method according to the embodiment of the present application;

fig. 4 is a schematic diagram of a flow of implementing the test system acquiring the handover parameter and the service quality parameter according to the embodiment of the present application;

fig. 5 is a schematic flow chart illustrating an implementation process of the testing method according to the embodiment of the present application;

fig. 6 is a schematic structural diagram of a second exemplary embodiment of a test system;

fig. 7 is a schematic structural diagram of a third component of the test system according to the embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the specific embodiments described herein are illustrative of the relevant application and are not limiting of the application. It should be further noted that, for the convenience of description, only the portions relevant to the related applications are shown in the drawings.

With the development of smart phones, people have higher and higher dependence on smart phones and cannot keep online all the time, but because the existing network coverage area is imperfect, the situation of network disconnection or network speed is often caused in an area with poor signals, so that the terminal cannot perform high-network-requirement operation, and the terminal antenna switching happens. At present, the specification of a terminal generally supports three forms, i.e., two antennas, three antennas, or four antennas, etc., fig. 1 is a schematic diagram of an exemplary terminal to be tested configured with four antennas according to an embodiment of the present application, as shown in fig. 1, a terminal 20 to be tested is configured with four antennas, and a switching policy configured for the terminal 20 to be tested is, for example, when a certain antenna is blocked when the terminal currently performs service processing: hold and shelter from, the terminal will be switched to signal quality better, one of them way antenna that is not sheltered from carries out this business promptly, four ways antenna compare two ways antenna and base station and carry out data exchange's efficiency higher, it is also the received strength and the network connection speed of signal all can promote promptly, make indoor, outdoor removal, under user network experience such as focus receives the scene easily, the cell-phone user still can keep smooth online experience, and four ways antenna can play the game in the cross screen under the condition that both hands are tightly held the cell-phone and are all sheltered from two ways antenna, still have the antenna in the cell-phone to connect the base station, effectively avoided the emergence of "dead holding" phenomenon, let the user reach the effect of "not falling the line" when playing the net game.

In order to detect whether an antenna switching strategy configured for a terminal is effective or not, various handheld positions of a user are generally simulated manually, and whether the antenna switching of the terminal is effective or not is determined through engineering mode display of the terminal. Due to the difference of antenna switching strategies configured for terminals working in different systems/frequency band signals, the existing test method aiming at the terminal antenna switching strategy is difficult to carry out comprehensive test coverage on all frequency band/frequency point signals; meanwhile, various handheld positions of a simulation user can only judge whether the antenna switching function is effective or not, and quantitative testing cannot be realized.

In order to solve the problems of an existing manual simulation test mechanism for a terminal antenna switching strategy, the embodiment of the application provides a test method and system and a storage medium, and particularly, the test system tests switching parameters and service quality parameters of a terminal to be tested when service processing is performed on any frequency band signal corresponding to any standard signal, so that an antenna switching test result of the terminal to be tested is obtained.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

An embodiment of the present application provides a testing method applied to a testing system, and fig. 2 is a schematic structural diagram of the testing system provided in the embodiment of the present application, as shown in fig. 2, in the embodiment of the present application, a testing system 10 includes a central control system 11, a simulation base station 12, and a signal processing module 13. The central control system 11 is mainly used for controlling the simulation base station 12 to generate signals of different systems and different frequency bands after being connected with the simulation base station 12 through (1) cables; and after connecting with the signal processing module 13 through (2) the cable, control the signal processing module 13 to add/delete the particular attenuation amount to different lines; and after the cable is connected with the terminal to be tested through the cable (3), reading the internal log of the terminal to be tested so as to obtain the real-time state information and the internal business quality information of the antenna, and generating a test result. The simulation base station 12 is controlled by the central control system through (1) a cable to generate signals of different systems and different frequency bands, and on the other hand, the simulation base station 12 inputs the generated signal sources of different systems and different frequency bands into the signal processing module 13 after being connected with the signal processing module 13 through (4) the cable; after receiving the signal source sent by the analog base station 12, the signal processing module 13 may divide the signal source from the analog base station 12 into signals with the same number as the number of antennas of the terminal to be tested according to the antenna specification of the terminal to be tested, for example, as shown in fig. 2, may divide the signal source from the analog base station 12 into four paths of signals, that is, signals (5, 6, 7, 8), according to the terminal to be tested 20 shown in fig. 1, and is controlled by the central control system 11 through (2) a cable to independently adjust attenuation values of the four signals; the terminal 20 to be tested is connected with the signal processing module 13 through four paths of signals (5, 6, 7 and 8), executes an antenna switching strategy according to different attenuation values, and returns corresponding real-time state information and internal service quality information to the central control system under the control of the central control system 11 through (3) a cable.

Based on the testing system 10 and the terminal 20 to be tested shown in fig. 2, fig. 3 is a schematic flow chart of an implementation of the testing method provided in the embodiment of the present application, as shown in fig. 3, in the embodiment of the present application, a method for the testing system 10 to test the terminal 20 to be tested may include the following steps:

step 101, determining a target signal source; the target signal source is any frequency band signal corresponding to any standard signal.

In the embodiment of the application, the test system may first determine a target signal source; the target signal source may be any frequency band signal corresponding to any standard signal.

It should be noted that, in the embodiment of the present application, the testing method may be cooperatively performed by a plurality of devices in the testing system 10. The central control system in the test system 10 may be any device with display, calculation, and storage functions, for example, a tablet computer, a Personal Computer (PC), a notebook computer, etc., and the central control system is not limited in this embodiment.

It should be noted that, in the embodiment of the present application, the simulated base station in the test System 10 may be any device or base station having signal generating and transmitting functions, for example, a test instrument capable of generating signals of any standard, such as New Radio (NR), Long Term Evolution (LTE), Wideband Code Division Multiple Access (WCDMA), Global System for mobile Communication (GSM), or signals of any frequency Band (e.g. LTE frequency Band1/Band3/Band38 …), or a micro base station in an existing wireless Communication network, or may also be a second Generation mobile Communication technology (2G), a third Generation mobile Communication technology (3rd-Generation, 3G), a fourth Generation mobile Communication technology (the 4 mobile Communication technology, 4G) and a macro base station in a fifth Generation mobile communication technology (5th Generation mobile networks or 5th Generation wireless systems, 5th-Generation, 5G), the embodiments of the present application do not specifically limit the analog base station, and only need to provide a device having a function of generating system/frequency band signals for communication.

It should be noted that, in the embodiment of the present application, in order to be able to test all frequency band signals corresponding to all standard signals, the target signal source may be one of any frequency band signals corresponding to any standard signal. Specifically, the central control system is connected with the simulation base station, the central control system firstly determines the system and the frequency band of the target signal source, and sends a control instruction carrying a signal mark of the target signal source to the simulation base station, so that the simulation base station generates the target signal source corresponding to the signal mark, and the terminal to be tested can perform service processing based on the target signal source.

Further, in the embodiment of the present application, after the central control system and the simulation base station in the test system 10 determine the target signal source, the test system 10 may further obtain configuration information of the terminal to be tested, so as to determine the plurality of branch signals corresponding to the target signal source according to the configuration information.

102, obtaining configuration information of a terminal to be tested, and generating a plurality of initial signals corresponding to a target signal source according to the configuration information, so that the terminal to be tested performs service processing based on the plurality of initial signals.

In the embodiment of the present application, after the target signal source is determined, the test system 10 may obtain configuration information of the terminal to be tested, so that the signal processing module in the test system 10 generates a plurality of initial signals corresponding to the target signal source according to the configuration information, so that the terminal to be tested may perform service processing based on the plurality of initial signals corresponding to the target signal source.

It should be noted that, in the embodiment of the present application, the terminal to be tested may be any device having communication and storage functions and designed with an antenna switching function. For example: tablet computers, mobile phones, Personal Computers (PCs), notebook computers, in-vehicle devices, network televisions, wearable devices, and the like. Furthermore, the service processing is all services that any device with communication and storage functions and designed with antenna switching functions can support, for example: the embodiment of the application does not specifically limit the terminal to be tested and the service that the terminal to be tested can execute.

It should be noted that, in the embodiment of the present application, acquiring the configuration information of the terminal to be tested may be implemented by the test system 10 in a manner that after sending a test request to the terminal to be tested, a test response carrying the configuration information and returned by the terminal to be tested is received. The configuration information may be an indication field representing the number of the antennas of the terminal to be tested or a specific identifier, and the test system 10 further determines the number of the antennas of the terminal to be tested according to the configuration information.

Optionally, in an embodiment of the present application, the configuration information of the terminal to be tested may be obtained by a central control system of the test system 10, or may be obtained by a signal processing module. Specifically, the central control system sends a test request to the terminal to be tested after being connected with the terminal to be tested, receives a test response carrying the configuration information returned by the terminal to be tested, determines the number of the antennas of the terminal to be tested according to the configuration information, and sends a control instruction to the signal processing module, wherein the instruction is used for instructing the signal processing module to map the target signal source into a plurality of initial signals with the same number as the antennas of the terminal to be tested by using the corresponding power dividers.

Specifically, after the signal processing module of the test system 10 is connected to the terminal to be tested, the signal processing module directly sends a test request to the terminal to be tested and receives a test response carrying the configuration information returned by the terminal to be tested, and after the signal processing module determines the number of the terminal antennas to be tested according to the configuration information, the signal processing module sends the number of the terminal antennas to be tested to the central control system on one hand and directly maps the target signal source to a plurality of initial signals with the same number as the number of the terminal antennas to be tested by using the corresponding power divider on the other hand.

It should be noted that, in the embodiment of the present application, signal contents of a plurality of initial signals corresponding to a target signal source obtained by a power divider are the same as signal contents of the target signal source, and all of the plurality of initial signals are signals with the same signal contents and the same signal quality, that is, all of a plurality of initial sub-signals corresponding to the target signal source are sub-signals with the same initial state. For example, it is determined that the terminal to be tested has four antennas according to the configuration information, then four initial signals corresponding to the target signal source are obtained by using the four-path power divider, one initial signal corresponds to one antenna, and the signal content and the signal quality of the four initial signals are the same.

Further, in the embodiment of the present application, after obtaining the plurality of initial signals corresponding to the target signal source, since the terminal to be tested needs to perform service processing based on the plurality of initial signals, network registration of the terminal to be tested needs to be performed first, that is, the terminal to be tested is registered to the simulation base station that currently generates the target signal source. Optionally, when the test system 10 performs network registration of the terminal 20 to be tested, network registration may be implemented through the central control system; network registration may also be accomplished manually by the user.

Specifically, the central control system may send a control instruction carrying a signal mark of the target signal source to the terminal to be tested, and optionally, the control instruction may be an at (attention) instruction or an Android Debug Bridge (ADB) instruction, so that the terminal to be tested is registered to the simulation base station currently generating the target signal source according to the signal mark; or, the user may manually set the terminal to be tested to register the terminal to be tested to the simulation base station, for example, manually set a standard signal of the terminal to be tested to perform service processing, or manually turn on/off a flight mode, so that after the terminal to be tested registers to the simulation base station, the user may further perform service processing, such as call, play a game, watch a video, and the like, based on a plurality of initial signals corresponding to the target signal source.

Further, in the embodiment of the present application, since the service processing performed by the terminal to be tested is performed based on one of the multiple initial signals, when the terminal to be tested performs service processing based on the multiple initial signals, the central control system sends a first detection instruction to the terminal to be tested, and receives a first detection response returned by the terminal to be tested, where the first detection response carries the first identifier and the first service parameter of the first access signal, that is, the signal identifier of the initial signal of the terminal to be tested performing the service processing and the corresponding service parameter when the service processing is performed based on the initial signal.

Further, in the embodiment of the present application, after the configuration information of the terminal to be tested is obtained, and the plurality of initial signals corresponding to the target signal source are generated according to the configuration information, so that the terminal to be tested performs service processing based on the plurality of initial signals, the plurality of initial signals need to be further attenuated to a certain extent.

103, performing attenuation processing on the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals; wherein one initial signal corresponds to one attenuated signal.

In the embodiment of the application, after configuration information of a terminal to be tested is acquired and a plurality of initial signals corresponding to a target signal source are generated according to the configuration information, so that the terminal to be tested can perform attenuation processing on the plurality of initial signals after performing service processing on the basis of the plurality of initial signals, and a plurality of attenuated signals corresponding to the plurality of initial signals are obtained; wherein one initial signal corresponds to one attenuated signal.

It should be noted that, in the embodiment of the present application, the central control system may send a signal attenuation instruction to the signal processing module, so as to further implement attenuation processing on a plurality of initial signals. Optionally, the signal attenuation instruction may carry a parameter set including a plurality of attenuation parameters, or may carry only one attenuation parameter, so that the signal processing module performs attenuation processing on the initial signal according to the attenuation parameter carried in the signal attenuation instruction.

Specifically, the central control system sends a signal attenuation instruction to the signal processing module, wherein the signal attenuation instruction carries a parameter set with a signal identifier, the parameter set comprises a plurality of attenuation parameters corresponding to a plurality of initial signals, and one attenuation parameter corresponds to one initial signal. For example, the central control system knows that the terminal to be tested has four antennas, so that a signal attenuation instruction sent to the signal processing module carries a parameter set {5, 10, 5, 10}, the parameter set comprises four attenuation parameters, each attenuation parameter corresponds to one initial signal, that is, the first initial signal is attenuated by 5dB, the second initial signal is attenuated by 10dB, the third initial signal is attenuated by 5dB, the fourth initial signal is attenuated by 10dB, and the signal processing module performs attenuation processing on the four initial signals according to the four attenuation parameters.

Further, when the parameter set includes a plurality of attenuation parameters corresponding to the plurality of initial signals, the number of the plurality of attenuation parameters included in the parameter set may be the same as the number of antennas of the terminal to be tested, for example {5, 10, 15, 5 }; or less than the number of antennas of the terminal to be tested, for example, {5}, {5, 10, 5}, etc. Specifically, when the number of the plurality of attenuation parameters included in the parameter set may be the same as the number of antennas of the terminal to be tested, the attenuation values of the plurality of attenuation parameters may be respectively different attenuation values, for example {5, 10, 15, 20 }; the same attenuation value may be included, that is, the central control system may set the same attenuation value, for example, {5, 5, 15, 20}, {5, 10, 5, 10} or the like, for at least two of the plurality of initial signals.

Specifically, the central control system sends a signal attenuation instruction to the signal processing module, and the signal attenuation instruction carries only one attenuation parameter with a signal identifier, that is, the central control system can independently attenuate a plurality of initial signals, and the attenuation parameter corresponds to one of the plurality of initial signals. For example, the central control system knows that the terminal to be tested has four antennas, if only the first initial signal corresponding to the first antenna needs to be attenuated according to the requirement of a tester, the central control system sends a signal attenuation instruction to the signal processing module, the signal attenuation instruction carries an attenuation parameter corresponding to the first initial signal, the attenuation value is 5dB, and the signal processing module attenuates the first initial signal by 5dB according to the attenuation parameter. At this time, the first initial signal is attenuated only according to the attenuation parameter, and the second initial signal, the third initial signal, and the fourth initial signal are not attenuated.

Further, in the embodiment of the present application, after the signal processing module performs attenuation processing on the plurality of initial signals according to the signal attenuation instruction sent by the central control system, a plurality of attenuated signals corresponding to the plurality of initial signals may be obtained, where one initial signal corresponds to one attenuated signal.

Specifically, if the number of the attenuation parameters included in the parameter set is the same as the number of the antennas of the terminal to be tested, for example {5, 10, 15, 5}, the attenuated signals correspond to the initial signals one by one, such as { -5, -10, -15, -5 }; if the number of the attenuation parameters included in the parameter set is less than the number of the antennas of the terminal to be tested, for example, in the case of {5}, {5, 10, 5} and the like, the attenuated signals correspond to the attenuation parameters one by one, such as { -5}, { -5, -10, -5 }.

Further, in the embodiment of the present application, after the attenuation processing is performed on the multiple initial signals and multiple attenuated signals corresponding to the multiple initial signals are obtained, the terminal to be tested further continues to perform the service processing based on the multiple attenuated signals.

And step 104, acquiring a switching parameter and a service quality parameter corresponding to the terminal to be tested when the terminal to be tested performs service processing based on the attenuated signals.

In the embodiment of the present application, after the test system 10 performs attenuation processing on a plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals, when the terminal to be tested performs service processing based on the plurality of attenuated signals, the test system may further obtain a handover parameter and a service quality parameter corresponding to the terminal to be tested.

It should be noted that, in the embodiment of the present application, after the signal processing module performs attenuation processing on the multiple initial signals based on different attenuation parameters, the terminal to be tested may continue to perform the service processing based on the attenuated signal with the optimal signal quality among the multiple attenuated signals, specifically, since the signal qualities and the signal contents of the multiple initial signals are completely the same, if the multiple initial signals are respectively performed with attenuation processing by using a parameter set including multiple attenuation parameters, the terminal to be tested may select the attenuated signal with the smallest attenuation value to continue to perform the service processing. If only one of the initial signals is attenuated, the terminal to be tested may perform the above-mentioned service processing based on other paths of signals without attenuation processing.

It should be noted that, in the embodiment of the present application, because the terminal to be tested selects one attenuated signal with the best signal quality from the multiple attenuated signals to continue the service processing, when the terminal to be tested performs the service processing based on the multiple attenuated signals, the central control system sends the second detection instruction to the terminal to be tested again, and receives the second detection response returned by the terminal to be tested again, where the state detection response carries the second identifier of the second access signal and the second service parameter, that is, the signal identifier of the attenuated signal of the terminal to be tested performing the service processing and the corresponding service parameter when performing the service processing based on the attenuated signal.

Specifically, in the embodiment of the present application, the switching parameter corresponding to the terminal to be tested may include an antenna switching logic and an antenna switching threshold, and the central control system may determine the antenna switching logic and the antenna switching threshold corresponding to the terminal to be tested according to the acquired real-time state information of the antenna, that is, before and after the signal processing module performs signal attenuation processing, the central control system acquires an initial signal, i.e., a first access signal, of the terminal to be tested that performs the service processing in real time, and determines whether the initial signal is the same as the attenuated signal, to obtain a switching state corresponding to the terminal to be tested, and may use the initial signal, the attenuated value, and the switching state as the switching parameter.

Specifically, in the embodiment of the present application, the service quality parameter corresponding to the terminal to be tested may be parameters such as game delay, call definition, whether a call is dropped, and video loading speed, and the central control system may obtain, before and after signal attenuation is performed by the signal processing module, a service parameter when the terminal to be tested performs the service processing through an initial signal, that is, a first service parameter, and a service parameter when the terminal to be tested performs the service processing through an attenuated signal, that is, a second service parameter, in real time, so as to determine the service quality parameter corresponding to the current terminal to be tested.

Further, in the embodiment of the present application, after the terminal to be tested performs service processing based on the attenuated signals and obtains the handover parameter and the service quality parameter corresponding to the terminal to be tested, the test result may be further determined based on the handover parameter and the service quality parameter.

And 105, generating a test result corresponding to the target signal source according to the switching parameter and the service quality parameter.

In the embodiment of the application, after the terminal to be tested performs service processing based on a plurality of attenuated signals and acquires the switching parameter and the service quality parameter corresponding to the terminal to be tested, the test result corresponding to the target signal source may be determined based on the switching parameter and the service quality parameter.

It should be noted that, in the embodiment of the present application, it may be determined whether the terminal to be tested performs switching according to the antenna switching policy configured by the terminal to be tested based on the test result generated by the switching parameter and the service quality parameter, specifically, the central control system may obtain a preset switching threshold and a preset service quality evaluation threshold corresponding to the terminal to be tested, and further determine the test result according to the switching parameter, the service quality parameter, the preset switching threshold and the preset service quality evaluation threshold, that is, determine whether the switching parameter meets the preset switching threshold, and whether the service quality parameter meets the preset service quality evaluation threshold, to further determine whether the terminal to be tested performs switching according to the preset antenna switching policy.

Correspondingly, if the switching parameter meets the preset switching threshold value and the service quality parameter meets the preset service quality evaluation threshold value, the test result is whether the terminal to be tested executes switching according to the preset switching strategy, namely switching is performed; if the switching parameter does not meet the preset switching threshold value, the service quality parameter meets the preset service quality evaluation threshold value; or the switching parameter meets the preset switching threshold value, and the service quality parameter does not meet the service quality evaluation threshold value; or the handover parameter does not satisfy the preset handover threshold, and the service quality parameter does not satisfy the service quality evaluation threshold, so that the test result is that the terminal to be tested does not execute handover according to the preset handover strategy.

Further, in the embodiment of the present application, after the test result corresponding to the target signal source is generated according to the switching parameter and the service quality parameter, the central control system may reselect a signal different from the target signal source from any frequency band signal corresponding to any standard signal as a new target signal source, further test a new test result corresponding to the new target signal source, and traverse each of all frequency band signals corresponding to all standard signals until the test result corresponding to all signals is obtained, thereby implementing a comprehensive coverage test on all frequency band signals.

Further, after the test system 10 is used to complete the test of the antenna switching strategies of the terminal to be tested on all frequency band signals corresponding to all standard signals, all test results are stored, and each terminal manufacturer can optimize the design of the terminal antenna switching strategies based on the test results, so that the antenna switching is more efficient, and a user can conveniently perform service processing with higher network requirements at any time.

The embodiment of the application provides a test method, wherein a target signal source is determined by a test system; the target signal source is any frequency band signal corresponding to any standard signal; acquiring configuration information of a terminal to be tested, and generating a plurality of initial signals corresponding to a target signal source according to the configuration information so that the terminal to be tested performs service processing based on the plurality of initial signals; carrying out attenuation processing on the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals; wherein one initial signal corresponds to one attenuated signal; when the terminal to be tested performs service processing based on the attenuated signals, acquiring a switching parameter and a service quality parameter corresponding to the terminal to be tested; and generating a test result corresponding to the target signal source according to the switching parameter and the service quality parameter. That is to say, in the embodiment of the application, the test system obtains the antenna switching test result of the terminal to be tested by testing the switching parameters and the service quality parameters of the terminal to be tested when the terminal performs service processing on any frequency band signal corresponding to any standard signal, so that not only can the comprehensive coverage test be performed on all frequency band signals, but also the quantitative test of the service quality evaluation threshold before and after the switching of the terminal antenna can be realized, the test efficiency is high, and the accuracy is good.

Based on the foregoing embodiment, in another embodiment of the present application, fig. 4 is a schematic diagram of an implementation process of acquiring a handover parameter and a quality of service parameter by a test system provided in the embodiment of the present application, and as shown in fig. 4, a method for acquiring a handover parameter and a quality of service parameter corresponding to a terminal to be tested by a test system 10 may include:

step 201, determining a handover parameter according to the first identifier and the second identifier.

In an embodiment of the application, when the terminal to be tested performs the service processing based on a plurality of initial signals, the central control system obtains a first identifier of the first access signal, and when the terminal to be tested performs the service processing based on a plurality of attenuated signals, and after obtaining a second identifier of the second access signal, the central control system may determine the switching parameter corresponding to the terminal to be tested based on the first identifier and the second identifier.

It should be noted that, in the embodiment of the present application, the central control system may determine, through the obtained signal identifier, which signal the terminal to be tested is currently performing service processing based on, that is, which antenna is used for performing data communication with the analog base station, so that it may be determined whether the initial signal of the terminal to be tested performing the service processing is the same as the attenuated signal by comparing and determining the first identifier and the second identifier, and further determine the handover parameter according to the determination result.

Specifically, if the first identifier and the second identifier are determined to be different, that is, the initial signal for performing the service processing is not the same as the attenuated signal, it indicates that the antenna switching occurs in the terminal to be tested; if the first identifier and the second identifier are the same, that is, the initial signal subjected to the service processing is the same as the attenuated signal, it indicates that the terminal to be tested does not have antenna switching.

Exemplarily, if a first identifier obtained by the central control system before performing the signal attenuation processing is 1, and a second identifier obtained after performing the signal attenuation processing is 2, it indicates that the initial signal of the terminal to be tested performing the service processing is a first access signal, that is, a first antenna, and the signal after performing the attenuation processing is a second access signal, that is, a second antenna, where the first identifier and the second identifier are not the same, which indicates that the terminal to be tested has antenna switching, and switches from the first antenna to the second antenna to continue the service processing. If the first identifier obtained by the central control system before signal attenuation processing is 1 and the second identifier obtained after signal attenuation processing is 1, the initial signal of the terminal to be tested for performing the service processing is a first access signal, namely, a first antenna, and the signal after attenuation of the service processing is still the first access signal.

Further, in the embodiment of the present application, according to step 103, the signal attenuation instruction may carry a parameter set including a plurality of attenuation parameters, or may carry only one attenuation parameter. Specifically, if the signal attenuation instruction only carries one attenuation parameter, that is, only the first access signal is attenuated, after it is determined that the first identifier is different from the second identifier, and it is determined that the handover state corresponding to the terminal to be tested is the handover state, the attenuation value corresponding to the first access signal needs to be determined according to the first identifier, and the first identifier, the second identifier, the current handover state, and the attenuation value corresponding to the first access signal are used as handover parameters corresponding to the terminal to be tested, where a handover logic included in the handover parameters is to successfully handover from the first access signal to the second access signal, and a handover threshold is an attenuation value corresponding to the first access signal.

If the signal attenuation instruction is a parameter set carrying a plurality of attenuation parameters, that is, a plurality of initial signals are respectively subjected to attenuation processing, after the first identifier is judged to be different from the second identifier, and the switching state corresponding to the terminal to be tested is determined to be switched, it is necessary to determine not only the attenuation value corresponding to the first access signal according to the first identifier, but also the attenuation value corresponding to the second access signal according to the second identifier, and to combine the first identifier, the second identifier, the current switching state, the attenuation value corresponding to the first access signal and the attenuation value corresponding to the second access signal are used as the switching parameters corresponding to the terminal to be tested, the switching logic included in the switching parameter is to switch from the first access signal to the second access signal successfully, and the switching threshold is a difference value between an attenuation value corresponding to the first access signal and an attenuation value corresponding to the second access signal.

Illustratively, the central control system sends a signal attenuation instruction to the signal processing module, if the signal attenuation instruction only carries an attenuation value 5dB corresponding to the first access signal, and the second access signal is not subjected to attenuation processing, after the terminal to be tested switches from the first access signal to the second access signal, the switching threshold is the attenuation value 5dB corresponding to the first access signal, if the signal attenuation instruction sent by the central control system to the signal processing module carries a parameter set including a plurality of attenuation parameters, when the plurality of parameters correspond to one of the initial signals, for example: {15, 5, 10, 25}, that is, the attenuation of the first access signal is 15dB, the attenuation of the second initial signal is 5dB, the attenuation of the third initial signal is 10dB, and the attenuation of the fourth initial signal is 25dB, then after the terminal to be tested switches from the first access signal to the second access signal, the switching threshold is 10dB different between the attenuation value corresponding to the first access signal and the attenuation value corresponding to the second access signal.

Further, in the embodiment of the present application, after the handover parameter is determined according to the first identifier and the second identifier, the service quality parameter corresponding to the terminal to be tested may be further determined.

Step 202, determining a service quality parameter according to the first service parameter and the second service parameter.

In an embodiment of the application, the central control system may determine the service quality parameter corresponding to the terminal to be tested according to the first service parameter and the second service parameter after acquiring the first service parameter of the first access signal when the terminal to be tested performs the service processing based on the plurality of initial signals and acquiring the second service parameter of the second access signal when the terminal to be tested performs the service processing based on the plurality of attenuated signals.

It should be noted that, in the embodiment of the present application, the service quality parameter corresponding to the terminal to be tested may be parameters such as game delay, call definition, whether call is dropped, and video loading speed, and correspondingly, the first service parameter may be call quality of the terminal to be tested when performing call based on the first access signal, and the second service parameter may be call quality of the terminal to be tested when performing call based on the second access signal, and the service quality parameter of the service processing of performing call by the terminal to be tested after switching is determined by comparing the call qualities of two times; correspondingly, the first service parameter may be a loading time when the terminal to be tested watches the video based on the first access signal, the second service parameter may be a loading time when the terminal to be tested watches the video based on the second access signal, and the service quality parameter of the service processing of watching the video by the terminal to be tested after switching is determined by comparing the two loading times.

Further, in the embodiment of the application, after acquiring the handover parameter and the service quality parameter corresponding to the terminal to be tested, the central control system may acquire a preset handover threshold and a preset service quality evaluation threshold corresponding to the terminal to be tested, and further determine the test result according to the handover parameter, the service quality parameter, the preset handover threshold and the preset service quality evaluation threshold.

Optionally, in an embodiment of the present application, the preset switching threshold may be an absolute switching threshold, or may be a relative switching threshold, specifically, after it is determined that the first identifier is different from the second identifier, and after it is determined that the switching state corresponding to the terminal to be tested is switched, when the preset switching threshold is the absolute switching threshold, if the attenuation value corresponding to the first access signal satisfies the absolute switching threshold, it indicates that the switching parameter satisfies the preset switching threshold, and if the attenuation value corresponding to the first access signal does not satisfy the absolute switching threshold, it indicates that the switching parameter does not satisfy the preset switching threshold; when the preset switching threshold value is the relative switching threshold value, if the difference value between the attenuation value corresponding to the first access signal and the attenuation value corresponding to the second access signal meets the relative switching threshold value, it indicates that the switching parameter meets the preset switching threshold value, and if the difference value between the attenuation value corresponding to the first access signal and the attenuation value corresponding to the second access signal does not meet the relative switching threshold value, it indicates that the switching parameter does not meet the preset switching threshold value.

Exemplarily, in an embodiment of the present application, when the absolute handover threshold is 5dB, after the terminal to be tested is switched from the first access signal to the second access signal, if the attenuation value of the acquired first access signal is 5dB, it indicates that the acquired handover parameter corresponding to the terminal to be tested meets the preset handover threshold; if the attenuation value of the acquired first access signal is 10dB, the acquired switching parameter corresponding to the terminal to be tested does not meet a preset switching threshold value; when the relative switching threshold value is 10dB, after the terminal to be tested is switched from the first access signal to the second access signal, if the attenuation value corresponding to the obtained first access signal is 15dB, the attenuation value corresponding to the second access signal is 5dB, and the difference value is 10dB, the obtained switching parameter corresponding to the terminal to be tested meets the preset switching threshold value; and if the attenuation value corresponding to the acquired first access signal is 15dB, the attenuation value corresponding to the first access signal is 10dB, and the difference value is 5dB, the acquired switching parameter corresponding to the terminal to be tested does not meet the preset switching threshold value.

Further, in an embodiment of the present application, if the handover parameter meets a preset handover threshold and the service quality parameter meets a preset quality evaluation threshold, it is determined that the test result is that the terminal to be tested performs handover according to a preset handover policy. If the switching parameter does not meet the preset switching threshold value, the service quality parameter meets the preset service quality evaluation threshold value; or the switching parameter meets a preset switching threshold value, and the service quality parameter does not meet a service quality evaluation threshold value; or the handover parameter does not satisfy the preset handover threshold, and the service quality parameter does not satisfy the service quality evaluation threshold, so that the test result is that the terminal to be tested does not execute handover according to the preset handover strategy.

Furthermore, in the embodiment of the application, the test result is determined through the switching parameter and the service quality parameter, so that not only is the switching threshold between the antennas accurately tested, but also the service quality of the terminal to be tested when the corresponding antenna is switched is determined, and the test result has qualitative, quantitative and repeatability.

The embodiment of the application provides a test method, wherein a target signal source is determined by a test system; the target signal source is any frequency band signal corresponding to any standard signal; acquiring configuration information of a terminal to be tested, and generating a plurality of initial signals corresponding to a target signal source according to the configuration information so that the terminal to be tested performs service processing based on the plurality of initial signals; carrying out attenuation processing on the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals; wherein one initial signal corresponds to one attenuated signal; when the terminal to be tested performs service processing based on the attenuated signals, acquiring a switching parameter and a service quality parameter corresponding to the terminal to be tested; and generating a test result corresponding to the target signal source according to the switching parameter and the service quality parameter. That is to say, in the embodiment of the present application, the test system obtains the antenna switching test result of the terminal to be tested by testing the switching parameter and the service quality parameter of the terminal to be tested when performing service processing on any frequency band signal corresponding to any standard signal, so that not only can the terminal to be tested be comprehensively coverage tested, but also the antenna switching process of the terminal to be tested and the quantitative test of the service quality before and after switching can be realized, and the test efficiency is high and the accuracy is good.

Based on the foregoing embodiment, in another embodiment of the present application, fig. 5 is a schematic flow chart illustrating an implementation process of a testing method provided in the embodiment of the present application, and as shown in fig. 5, in the embodiment of the present application, a method for testing a terminal 20 to be tested by a testing system 10 may include the following steps:

step 301, determining a target signal source; the target signal source is any frequency band signal corresponding to any standard signal.

In order to test all frequency band signals corresponding to all standard signals, the target signal source may be one of any frequency band signals corresponding to any standard signal. Specifically, the central control system is connected with the simulation base station, the central control system determines the system and the frequency band of the signal source, and sends a control instruction carrying a signal sign of the signal source to the simulation base station, so that the simulation base station generates a target signal source corresponding to the signal sign.

Step 302, obtaining configuration information of the terminal to be tested, and generating a plurality of initial signals corresponding to the target signal source according to the configuration information.

The central control system can send a test request to the terminal to be tested and then receive a test response carrying configuration information returned by the terminal to be tested. The configuration information may be an indication field representing the number of the antennas of the terminal to be tested or a certain specific identifier, and then the target signal source is mapped into a plurality of initial signals with the same number of initial states as the number of the antennas of the terminal to be tested according to the configuration information.

Step 303, sending a control instruction to a terminal to be tested; wherein the control instruction carries a signal sign of the target signal source; receiving a control response returned by the terminal to be tested; and the control response represents that the terminal to be tested completes the access of a plurality of initial signals based on the signal marks.

Since the terminal to be tested needs to perform service processing based on a plurality of initial signals, network registration of the terminal to be tested is required to be performed first, that is, the terminal to be tested is registered to the simulation base station which currently generates the target signal source. Optionally, when the test system 10 performs network registration of the terminal 20 to be tested, network registration may be implemented through the central control system; network registration may also be manually implemented by the user.

Specifically, the central control system sends a control instruction carrying a signal sign of the target signal source to the terminal to be tested, and optionally, the control instruction may be an at (attention) instruction or an Android Debug Bridge (ADB) instruction, so that the terminal to be tested is registered to the simulation base station according to the signal sign; the user may also register the terminal to be tested by manually setting the terminal to be tested, for example, manually setting a standard signal for the terminal to be tested to perform service processing, or manually turning on/off a flight mode, and the like, so as to register the terminal to be tested to the analog base station.

Step 304, when the terminal to be tested performs service processing based on a plurality of initial signals, sending a first detection instruction to the terminal to be tested; receiving a first detection response returned by the terminal to be detected; the first detection response carries a first identifier and a first service parameter corresponding to the first access signal.

After the terminal to be tested is registered to the simulation base station, the terminal to be tested may further perform service processing, such as passing, playing a game, watching a video, and the like, based on the plurality of initial signals corresponding to the target signal source. When the terminal to be tested performs service processing based on a plurality of initial signals, the central control system sends a first detection instruction to the terminal to be tested and receives a first detection response returned by the terminal to be tested, wherein the first detection response carries a first identifier of a first access signal and a first service parameter, namely, a signal identifier of the initial signal of the terminal to be tested performing the service processing and a corresponding service parameter when the terminal to be tested performs the service processing based on the initial signal.

Step 305, performing attenuation processing on the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals; wherein one initial signal corresponds to one attenuated signal.

The central control system may send a signal attenuation instruction to the signal processing module, optionally, the signal attenuation instruction may carry one parameter set including a plurality of attenuation parameters, or may carry only one attenuation parameter, and the signal processing module performs attenuation processing on a plurality of initial signals according to the attenuation parameters carried in the signal attenuation instruction.

Specifically, if the signal attenuation instruction carries a parameter set with a signal identifier, the parameter set comprises a plurality of attenuation parameters corresponding to a plurality of initial signals, and one attenuation parameter corresponds to one initial signal; then, the plurality of initial signals can be respectively subjected to attenuation processing according to the plurality of attenuation parameters to obtain a plurality of attenuated signals; wherein one attenuation parameter corresponds to one attenuated signal.

Specifically, if the signal attenuation instruction only carries one attenuation parameter with a signal identifier, that is, the central control system can independently attenuate a plurality of initial signals, where the attenuation parameter corresponds to one of the plurality of initial signals.

Step 306, when the terminal to be detected performs service processing based on the attenuated signals, sending a second detection instruction to the terminal to be detected again; receiving a second detection response returned by the terminal to be detected; and the second detection response carries a second identifier and a second service parameter corresponding to the second access signal.

Because the terminal to be tested selects one attenuated sub-signal with the optimal signal quality from the plurality of attenuated signals to perform the service processing, when the terminal to be tested performs the service processing based on the plurality of attenuated signals, the central control system sends a second detection instruction to the terminal to be tested again and receives a second detection response returned by the terminal to be tested again, wherein the second detection response carries a second identifier of a second access signal and a second service parameter, namely the signal identifier of the attenuated signal of the terminal to be tested performing the service processing and the corresponding service parameter when performing the service processing based on the attenuated signal.

Step 307, determining a handover parameter according to the first identifier and the second identifier.

The central control system acquires a first identifier of a first access signal when the terminal to be tested performs the service processing based on a plurality of initial signals, and acquires a second identifier of a second access signal when the terminal to be tested performs the service processing based on a plurality of attenuated signals, because the central control system can determine which input signal the terminal to be tested performs the service processing based on through the acquired identifiers, that is, which antenna is used for performing data communication with the simulation base station, the central control system can determine whether the initial signal of the terminal to be tested performing the service processing is the same as the attenuated signal by comparing the first identifier with the second identifier, and further determine the switching parameter according to the determination result.

Specifically, if it is determined that the first identifier is different from the second identifier, that is, the initial signal for performing the service processing is different from the attenuated signal, it indicates that the antenna switching occurs in the terminal to be tested; and if the first identifier and the second identifier are the same, namely the initial signal subjected to the service processing is the same as the attenuated signal, indicating that the terminal to be tested does not have antenna switching.

Further, if the signal attenuation instruction only carries an attenuation parameter corresponding to the first access signal, that is, only the first access signal is subjected to attenuation processing, after it is determined that the first identifier is different from the second identifier, and it is determined that the switching state corresponding to the terminal to be tested is switched, an attenuation value corresponding to the first access signal needs to be determined according to the first identifier, and the first identifier, the second identifier, the current switching state, and the attenuation value corresponding to the first access signal are used as the switching parameter corresponding to the terminal to be tested.

Further, if the signal attenuation instruction is a parameter set carrying a plurality of attenuation parameters, that is, a plurality of initial signals are respectively subjected to attenuation processing, after it is determined that the first identifier is different from the second identifier, and it is determined that the switching state corresponding to the terminal to be tested is switched, it is necessary to determine not only an attenuation value corresponding to the first access signal according to the first identifier, but also an attenuation value corresponding to the second access signal according to the second identifier, and use the first identifier, the second identifier, the current switching state, the attenuation value corresponding to the first access signal, and the attenuation value corresponding to the second access signal as the switching parameters corresponding to the terminal to be tested.

Step 308, determining a quality of service parameter according to the first service parameter and the second service parameter.

The service quality parameters corresponding to the terminal to be tested can be parameters such as game delay, call definition, whether call is dropped or not, video loading speed and the like, correspondingly, the first service parameter can be the call quality of the terminal to be tested when the terminal is in call based on the first access signal, the second service parameter can be the call quality of the terminal to be tested when the terminal is in call based on the second access signal, and the service quality parameter of the service processing of the terminal to be tested when the terminal to be tested is in call after switching is determined by comparing the call quality of the two times; correspondingly, the first service parameter may be a loading time when the terminal to be tested watches the video based on the first access signal, and the second service parameter may be a loading time when the terminal to be tested watches the video based on the second access signal, and the service quality parameter of the service processing of watching the video by the terminal to be tested after switching is determined by comparing the two loading times.

Step 309, generating a test result corresponding to the target signal source according to the switching parameter and the service quality parameter.

The test system can determine whether the terminal to be tested performs switching according to the antenna switching strategy configured by the terminal to be tested based on a test result generated by the switching parameter and the service quality parameter, specifically, the central control system can obtain a preset switching threshold and a preset service quality evaluation threshold corresponding to the terminal to be tested, and further determine the test result according to the switching parameter, the service quality parameter, the preset switching threshold and the preset service quality evaluation threshold, namely, determine whether the switching parameter meets the preset switching threshold and whether the service quality parameter meets the preset service quality evaluation threshold to further determine whether the terminal to be tested performs switching according to the preset antenna switching strategy.

Optionally, the preset switching threshold may be an absolute switching threshold, or a relative switching threshold, and specifically, after determining that the first identifier is different from the second identifier, and after determining that the switching state corresponding to the terminal to be tested is switched, when the preset switching threshold is the absolute switching threshold, if the attenuation value corresponding to the first access signal satisfies the absolute switching threshold, it indicates that the switching parameter satisfies the preset switching threshold, and if the attenuation value corresponding to the first access signal does not satisfy the absolute switching threshold, it indicates that the switching parameter does not satisfy the preset switching threshold; when the preset switching threshold value is the relative switching threshold value, if the difference value between the attenuation value corresponding to the first access signal and the attenuation value corresponding to the second access signal meets the relative switching threshold value, it indicates that the switching parameter meets the preset switching threshold value, and if the difference value between the attenuation value corresponding to the first access signal and the attenuation value corresponding to the second access signal does not meet the relative switching threshold value, it indicates that the switching parameter does not meet the preset switching threshold value.

Correspondingly, if the switching parameter meets the preset switching threshold value and the service quality parameter meets the preset service quality evaluation threshold value, the test result is whether the terminal to be tested executes switching according to the preset switching strategy, namely switching is performed; if the switching parameter does not meet the preset switching threshold value, the service quality parameter meets the preset service quality evaluation threshold value; or the switching parameter meets a preset switching threshold value, and the service quality parameter does not meet a service quality evaluation threshold value; or the switching parameter does not meet the preset switching threshold value, and the service quality parameter also does not meet the service quality evaluation threshold value, so that the test result is that the terminal to be tested does not execute switching according to the preset switching strategy.

Based on the testing methods proposed in the above steps 301 to 308, the testing system 10 determines the testing result corresponding to the target signal source according to the switching parameter and the service quality parameter by acquiring the switching parameter and the service quality parameter when the initial signal corresponding to the target signal source of the terminal to be tested performs service processing and the attenuated signal performs service processing, and further, based on the testing method, the testing system 10 further acquires all the testing results corresponding to the target signal sources of all the frequency band signals corresponding to all the standard signals, thereby not only realizing the comprehensive coverage testing of all the frequency band signals, but also realizing the quantitative testing of the antenna switching of the terminal to be tested.

The embodiment of the application provides a test method, wherein a target signal source is determined by a test system; the target signal source is any frequency band signal corresponding to any standard signal; acquiring configuration information of a terminal to be tested, and generating a plurality of initial signals corresponding to a target signal source according to the configuration information so that the terminal to be tested performs service processing based on the plurality of initial signals; carrying out attenuation processing on the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals; wherein one initial signal corresponds to one attenuated signal; when the terminal to be tested performs service processing based on the attenuated signals, acquiring a switching parameter and a service quality parameter corresponding to the terminal to be tested; and generating a test result corresponding to the target signal source according to the switching parameter and the service quality parameter. That is to say, in the embodiment of the present application, the test system obtains the antenna switching test result of the terminal to be tested by testing the switching parameter and the service quality parameter of the terminal to be tested when performing service processing on any frequency band signal corresponding to any standard signal, so that not only can the terminal to be tested be comprehensively coverage tested, but also the antenna switching process of the terminal to be tested and the quantitative test of the service quality before and after switching can be realized, and the test efficiency is high and the accuracy is good.

Based on the foregoing embodiment, in another embodiment of the present application, fig. 6 is a schematic structural diagram of a composition of the test system 10 according to an embodiment of the present application, and as shown in fig. 6, the test system 10 according to an embodiment of the present application may include a determining unit 14, an obtaining unit 15, a generating unit 16, a processing unit 17, a sending unit 18, and a receiving unit 19,

the determining unit 14 is configured to determine a target signal source; the target signal source is any frequency band signal corresponding to any standard signal;

the acquiring unit 15 is configured to acquire configuration information of a terminal to be tested;

the generating unit 16 is configured to generate a plurality of initial signals corresponding to the target signal source according to the configuration information, so that the terminal to be tested performs service processing based on the plurality of initial signals;

the processing unit 17 is configured to perform attenuation processing on the multiple initial signals to obtain multiple attenuated signals corresponding to the multiple initial signals; wherein one initial signal corresponds to one attenuated signal;

the obtaining unit 15 is further configured to obtain a handover parameter and a service quality parameter corresponding to the terminal to be tested when the terminal to be tested performs the service processing based on the attenuated signals;

the generating unit 16 is further configured to generate a test result corresponding to the target signal source according to the handover parameter and the service quality parameter.

Further, in an embodiment of the present application, the obtaining unit 15 is specifically configured to send a test request to the terminal to be tested; receiving a test response returned by the terminal to be tested; wherein the test response carries the configuration information.

Further, in an embodiment of the present application, the generating unit 16 is specifically configured to map the target signal source into the plurality of initial signals according to the configuration information; sending a control instruction to the terminal to be tested; the control instruction carries a signal mark of the target signal source; receiving a control response returned by the terminal to be tested; and the control response characterizes that the terminal to be tested completes the access of the plurality of initial signals based on the signal marks.

Further, in an embodiment of the present application, the processing unit 17 is specifically configured to perform attenuation processing on the multiple initial signals according to multiple attenuation parameters, respectively, to obtain multiple attenuated signals corresponding to the multiple attenuation parameters; wherein one attenuation parameter corresponds to one attenuated signal.

Further, in an embodiment of the present application, the sending unit 18 is configured to generate a plurality of initial signals corresponding to the target signal source according to the configuration information, so that the terminal to be tested sends the first detection instruction to the terminal to be tested after performing service processing based on the plurality of initial signals and before performing attenuation processing on the plurality of initial signals and obtaining a plurality of attenuated signals corresponding to the plurality of initial signals.

Further, in an embodiment of the present application, the receiving unit 19 is configured to receive a first detection response returned by the terminal to be tested; and the first detection response carries a first identifier and a first service parameter corresponding to the first access signal.

Further, in an embodiment of the present application, the sending unit 18 is further configured to perform attenuation processing on the multiple initial signals, and send the second detection instruction to the terminal to be tested again after obtaining multiple attenuated signals corresponding to the multiple initial signals and before obtaining the handover parameter and the service quality parameter corresponding to the terminal to be tested.

Further, in this embodiment of the application, the receiving unit 19 is further configured to receive the second detection response returned by the terminal to be tested; and the second detection response carries a second identifier and a second service parameter corresponding to the second access signal.

Further, in an embodiment of the present application, the obtaining unit 15 is specifically configured to determine the handover parameter according to the first identifier and the second identifier; and determining the service quality parameter according to the first service parameter and the second service parameter.

Further, in an embodiment of the present application, the obtaining unit 15 is further specifically configured to determine that a switching state corresponding to the terminal to be tested is switched if the first identifier is different from the second identifier, and determine an attenuation value corresponding to the first access signal according to the first identifier; and determining the first identifier, the second identifier, the switching state and the attenuation value as the switching parameter.

Further, in an embodiment of the present application, the generating unit 16 is specifically configured to determine that the test result is that the terminal to be tested satisfies a preset handover policy if the attenuation value satisfies a preset handover threshold and the service quality parameter satisfies a preset quality evaluation threshold; and the preset switching strategy is used for determining the antenna switching quality.

In an embodiment of the present application, further, fig. 7 is a schematic diagram of a composition structure of the test system 10 provided by the present application, as shown in fig. 7, the test system 10 provided by the embodiment of the present application may further include a processor 110, a memory 111 storing executable instructions of the processor 110, and further, the recommendation device 10 may further include a communication interface 112, and a bus 113 for connecting the processor 110, the memory 111, and the communication interface 112.

In an embodiment of the present Application, the Processor 110 may be at least one of an Application Specific Integrated Circuit (ASIC), a Digital Signal Processor (DSP), a Digital Signal Processing Device (DSPD), a ProgRAMmable Logic Device (PLD), a Field ProgRAMmable Gate Array (FPGA), a Central Processing Unit (CPU), a controller, a microcontroller, and a microprocessor. It is understood that the electronic devices for implementing the above processor functions may be other devices, and the embodiments of the present application are not limited in particular. The test system 10 may further comprise a memory 111, which memory 111 may be connected to the processor 110, wherein the memory 111 is adapted to store executable program code comprising computer operating instructions, and the memory 111 may comprise a high speed RAM memory and may further comprise a non-volatile memory, such as at least two disk memories.

In the embodiment of the present application, the bus 113 is used to connect the communication interface 112, the processor 110, and the memory 111 and the intercommunication among these devices.

In an embodiment of the present application, the memory 111 is used for storing instructions and data.

Further, in an embodiment of the present application, the processor 110 is configured to determine a target signal source; the target signal source is any frequency band signal corresponding to any standard signal; acquiring configuration information of a terminal to be tested, and generating a plurality of initial signals corresponding to the target signal source according to the configuration information so that the terminal to be tested performs service processing based on the plurality of initial signals; performing attenuation processing on the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals; wherein one initial signal corresponds to one attenuated signal; when the terminal to be tested performs the service processing based on the attenuated signals, acquiring a switching parameter and a service quality parameter corresponding to the terminal to be tested; and generating a test result corresponding to the target signal source according to the switching parameter and the service quality parameter.

In practical applications, the Memory 111 may be a volatile Memory (volatile Memory), such as a Random-Access Memory (RAM); or a non-volatile Memory (non-volatile Memory), such as a Read-Only Memory (ROM), a flash Memory (flash Memory), a Hard Disk (Hard Disk Drive, HDD) or a Solid-State Drive (SSD); or a combination of the above types of memories and provides instructions and data to the processor 110.

In addition, each functional module in this embodiment may be integrated into one recommendation unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a hardware mode, and can also be realized in a software functional module mode.

Based on the understanding that the technical solution of the present embodiment essentially or a part contributing to the prior art, or all or part of the technical solution, may be embodied in the form of a software product stored in a storage medium, and include several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) or a processor (processor) to execute all or part of the steps of the method of the present embodiment. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The embodiment of the application provides a test system, which determines a target signal source; the target signal source is any frequency band signal corresponding to any standard signal; acquiring configuration information of a terminal to be tested, and generating a plurality of initial signals corresponding to a target signal source according to the configuration information so that the terminal to be tested performs service processing based on the plurality of initial signals; carrying out attenuation processing on the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals; wherein one initial signal corresponds to one attenuated signal; when the terminal to be tested performs service processing based on a plurality of attenuated signals, acquiring a switching parameter and a service quality parameter corresponding to the terminal to be tested; and generating a test result corresponding to the target signal source according to the switching parameter and the service quality parameter. That is to say, in the embodiment of the present application, the test system obtains the antenna switching test result of the terminal to be tested by testing the switching parameter and the service quality parameter of the terminal to be tested when performing service processing on any frequency band signal corresponding to any standard signal, so that not only can the terminal to be tested be comprehensively coverage tested, but also the antenna switching process of the terminal to be tested and the quantitative test of the service quality before and after switching can be realized, and the test efficiency is high and the accuracy is good.

An embodiment of the present application provides a computer-readable storage medium, on which a program is stored, and the program, when executed by a processor, implements the testing method as described above.

Specifically, the program instructions corresponding to a testing method in the present embodiment may be stored on a storage medium such as an optical disc, a hard disc, a usb disk, etc., and when the program instructions corresponding to a testing method in the storage medium are read or executed by an electronic device, the method includes the following steps:

determining a target signal source; the target signal source is any frequency band signal corresponding to any standard signal;

acquiring configuration information of a terminal to be tested, and generating a plurality of initial signals corresponding to the target signal source according to the configuration information so that the terminal to be tested performs service processing based on the plurality of initial signals;

performing attenuation processing on the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals; wherein one initial signal corresponds to one attenuated signal;

when the terminal to be tested performs the service processing based on the attenuated signals, acquiring a switching parameter and a service quality parameter corresponding to the terminal to be tested;

and generating a test result corresponding to the target signal source according to the switching parameter and the service quality parameter.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of a hardware embodiment, a software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of implementations of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart block or blocks in the flowchart and/or block diagram block or blocks.

The above description is only a preferred embodiment of the present application, and is not intended to limit the scope of the present application.

Claims (20)

1. A method of testing, the method comprising:

determining a target signal source; the target signal source is any frequency band signal corresponding to any standard signal;

acquiring configuration information of a terminal to be tested, and generating a plurality of initial signals corresponding to the target signal source according to the configuration information so that the terminal to be tested performs service processing based on the plurality of initial signals; the configuration information is an indication field or a specific identification for representing the number of the antennas of the terminal to be tested;

performing attenuation processing on the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals; wherein one initial signal corresponds to one attenuated signal;

when the terminal to be tested performs the service processing based on the attenuated signals, reading an internal log of the terminal to be tested, and acquiring a switching parameter and a service quality parameter corresponding to the terminal to be tested;

and generating a test result corresponding to the target signal source according to the switching parameter and the service quality parameter.

2. The method according to claim 1, wherein the obtaining the configuration information of the terminal to be tested includes:

sending a test request to the terminal to be tested;

receiving a test response returned by the terminal to be tested; wherein the test response carries the configuration information.

3. The method according to claim 1, wherein the generating a plurality of initial signals corresponding to the target signal source according to the configuration information so that the terminal to be tested performs service processing based on the plurality of initial signals includes:

mapping the target signal source into the plurality of initial signals according to the configuration information;

sending a control instruction to the terminal to be tested; the control instruction carries a signal mark of the target signal source;

receiving a control response returned by the terminal to be tested; and the control response characterizes that the terminal to be tested completes the access of the plurality of initial signals based on the signal marks.

4. The method of claim 1, wherein the attenuating the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals comprises:

respectively carrying out attenuation processing on the plurality of initial signals according to a plurality of attenuation parameters to obtain a plurality of attenuated signals; wherein one attenuation parameter corresponds to one attenuated signal.

5. The method according to claim 1, wherein the generating a plurality of initial signals corresponding to the target signal source according to the configuration information so that the terminal to be tested performs service processing based on the plurality of initial signals, and before performing attenuation processing on the plurality of initial signals and obtaining a plurality of attenuated signals corresponding to the plurality of initial signals, the method further includes:

sending a first detection instruction to the terminal to be detected;

receiving a first detection response returned by the terminal to be detected; and the first detection response carries a first identifier and a first service parameter corresponding to the first access signal.

6. The method according to claim 5, wherein after the attenuating the plurality of initial signals to obtain a plurality of attenuated signals corresponding to the plurality of initial signals and before the obtaining of the handover parameter and the service quality parameter corresponding to the terminal to be tested, the method further comprises:

sending a second detection instruction to the terminal to be detected again;

receiving a second detection response returned by the terminal to be detected; and the second detection response carries a second identifier and a second service parameter corresponding to the second access signal.

7. The method according to claim 6, wherein the obtaining of the handover parameter and the service quality parameter corresponding to the terminal to be tested comprises:

determining the switching parameter according to the first identifier and the second identifier;

and determining the service quality parameter according to the first service parameter and the second service parameter.

8. The method of claim 7, wherein the determining the handover parameter according to the first identifier and the second identifier comprises:

if the first identifier is different from the second identifier, determining that the switching state corresponding to the terminal to be tested is switched, and determining an attenuation value corresponding to the first access signal according to the first identifier;

determining the first identifier, the second identifier, the switching state, and the attenuation value as the switching parameter.

9. The method according to claim 8, wherein the generating a test result corresponding to the target signal source according to the handover parameter and the quality of service parameter comprises:

if the attenuation value meets a preset switching threshold value and the service quality parameter meets a preset quality evaluation threshold value, determining that the test result is that the terminal to be tested meets a preset switching strategy; and the preset switching strategy is used for determining the antenna switching quality.

10. A test system, characterized in that the test system comprises: a determining unit, an acquiring unit, a generating unit and a processing unit,

the determining unit is used for determining a target signal source; the target signal source is any frequency band signal corresponding to any standard signal;

the acquiring unit is used for acquiring the configuration information of the terminal to be tested; the configuration information is an indication field or a specific identification for representing the number of the antennas of the terminal to be tested;

the generating unit is configured to generate a plurality of initial signals corresponding to the target signal source according to the configuration information, so that the terminal to be tested performs service processing based on the plurality of initial signals;

the processing unit is configured to perform attenuation processing on the multiple initial signals to obtain multiple attenuated signals corresponding to the multiple initial signals; wherein one initial signal corresponds to one attenuated signal;

the obtaining unit is further configured to, when the terminal to be tested performs the service processing based on the attenuated signals, read an internal log of the terminal to be tested, and obtain a switching parameter and a service quality parameter corresponding to the terminal to be tested;

the generating unit is further configured to generate a test result corresponding to the target signal source according to the handover parameter and the service quality parameter.

11. The test system of claim 10,

the acquiring unit is specifically configured to send a test request to the terminal to be tested; receiving a test response returned by the terminal to be tested; wherein the test response carries the configuration information.

12. The test system of claim 10,

the generating unit is specifically configured to map the target signal source into the plurality of initial signals according to the configuration information; sending a control instruction to the terminal to be tested; wherein the control instruction carries a signal sign of the target signal source; receiving a control response returned by the terminal to be tested; and the control response characterizes that the terminal to be tested completes the access of the plurality of initial signals based on the signal marks.

13. The test system of claim 10,

the processing unit is specifically configured to perform attenuation processing on the plurality of initial signals according to a plurality of attenuation parameters, so as to obtain a plurality of attenuated signals; wherein one attenuation parameter corresponds to one attenuated signal.

14. The test system of claim 10, wherein the system further comprises a transmitting unit and a receiving unit,

the sending unit is configured to generate a plurality of initial signals corresponding to the target signal source according to the configuration information, so that after the terminal to be tested performs service processing based on the plurality of initial signals, and before the plurality of initial signals are attenuated and a plurality of attenuated signals corresponding to the plurality of initial signals are obtained, a first detection instruction is sent to the terminal to be tested;

the receiving unit is used for receiving a first detection response returned by the terminal to be detected; and the first detection response carries a first identifier and a first service parameter corresponding to the first access signal.

15. The test system of claim 14,

the sending unit is further configured to perform attenuation processing on the multiple initial signals, and send a second detection instruction to the terminal to be detected again after obtaining multiple attenuated signals corresponding to the multiple initial signals and before obtaining a switching parameter and a service quality parameter corresponding to the terminal to be detected;

the receiving unit is further configured to receive a second detection response returned by the terminal to be detected; and the second detection response carries a second identifier and a second service parameter corresponding to the second access signal.

16. The test system of claim 15,

the obtaining unit is specifically configured to determine the handover parameter according to the first identifier and the second identifier; and determining the service quality parameter according to the first service parameter and the second service parameter.

17. The test system of claim 16,

the obtaining unit is further specifically configured to determine that a switching state corresponding to the terminal to be tested is switched if the first identifier is different from the second identifier, and determine an attenuation value corresponding to the first access signal according to the first identifier; and determining the first identifier, the second identifier, the switching state and the attenuation value as the switching parameter.

18. The test system of claim 17,

the generating unit is specifically configured to determine that the test result is that the terminal to be tested meets a preset switching policy if the attenuation value meets a preset switching threshold and the service quality parameter meets a preset quality evaluation threshold; and the preset switching strategy is used for determining the antenna switching quality.

19. A test system comprising a processor, a memory storing instructions executable by the processor, the instructions when executed by the processor implementing the method of any one of claims 1-9.

20. A computer-readable storage medium, on which a program is stored, for use in a test system, wherein the program, when executed by a processor, implements the method of any one of claims 1-9.

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