CN111669694A - Artificial intelligence automatic test system and method - Google Patents

Abstract

The invention relates to the technical field of testing devices, and particularly discloses an artificial intelligence automatic testing system and a method, wherein the artificial intelligence automatic testing system comprises a transfer device and a plurality of testing modules; the transfer device is used for enabling the terminal to be tested to be in communication connection with each test module; and each test module is used for testing the terminal to be tested after establishing communication connection with the terminal to be tested. The invention provides an artificial intelligence automatic test system and method, which can solve the problem of low detection efficiency caused by repeated plugging operation of the conventional test module.

Description

Artificial intelligence automatic test system and method

Technical Field

The invention relates to the technical field of testing devices, in particular to an artificial intelligence automatic testing system and method.

Background

At present, artificial intelligence sound boxes on the market are mainly divided into two types, wherein one type is provided with a screen, and the other type is not provided with the screen. The artificial intelligence sound box with the screen is often provided with a camera, a physical key and the like. Because the artificial intelligence audio amplifier of area screen has better man-machine interaction performance, so fix a position more high-end.

Take screen artificial intelligence audio amplifier to need carry out many tests before dispatching from the factory, for convenient debugging, take screen artificial intelligence audio amplifier all can be equipped with the debugging interface. Different test items are often performed on different test devices, and each test device is provided with a debugging plug which is plugged in the debugging interface. Therefore, to complete all test items, the tester needs to repeatedly insert and extract the debugging plug and the debugging interface, the operation is complicated, and the detection efficiency is greatly reduced.

Therefore, the existing testing device needs to be improved to solve the problem of low detection efficiency caused by repeated plugging and unplugging operations.

Disclosure of Invention

The invention aims to provide an artificial intelligence automatic test system and method, which can solve the problem of low detection efficiency caused by repeated plugging operation of the conventional test module.

In order to achieve the above objects, in one aspect, the present invention provides an artificial intelligence automated testing system, which includes a transfer device and a plurality of testing modules;

the transfer device is used for enabling the terminal to be tested to be in communication connection with each test module;

and each test module is used for testing the terminal to be tested after establishing communication connection with the terminal to be tested.

Optionally, the terminal to be tested is provided with a debugging interface, the transfer device is provided with a debugging plug, and the debugging plug is used for being plugged with the debugging interface.

Optionally, the method further includes:

the debugging plug is arranged in the accommodating space, and the accommodating space is provided with a testing station for placing the terminal to be tested.

Optionally, the surface of the terminal to be tested is marked with identification information; the artificial intelligence automatic test system also comprises a scanning device which is in communication connection with the transfer device: the transit device is used for controlling the scanning device to scan the identification information;

the scanning device is fixed in the accommodating space, and when the terminal to be tested is located at the test station, the scanning device is opposite to the identification information.

Optionally, one of the test modules is a camera video recording function detection module; the terminal to be tested is provided with a camera, and a mobile light source in communication connection with the transfer device is arranged in the accommodating space;

when the terminal to be tested is located at the testing station, the mobile light source is located in the shooting range of the camera; the camera video recording function detection module controls the mobile light source to continuously displace relative to the camera through the transfer device.

Optionally, one of the test modules is a key test module, and the other test module is a screen touch function test module;

the terminal to be tested is provided with a screen and a physical key; the artificial intelligence automatic test system also comprises a manipulator which is in communication connection with the transfer device;

the key test module controls the manipulator to slide on the screen of the terminal to be tested through the transfer device; the screen touch function testing module controls the manipulator to press a physical key of the terminal to be tested through a transfer device;

a camera device in communication connection with the transfer device is arranged in the accommodating space; when the terminal to be tested is located at the testing station, the camera device is opposite to a screen of the terminal to be tested; the camera device is used for acquiring a sliding track displayed after the screen is slid.

Optionally, one of the test modules is a Wifi connection test module, and the terminal to be tested is provided with a Wifi module; the artificial intelligence automatic test system also comprises a gateway device which is in communication connection with the transfer device;

the Wifi connection test module controls the gateway device to establish a test local area network through the transfer device, and enables the Wifi module to be connected with the test local area network.

Optionally, one of the test modules is a bluetooth connection test module, and the terminal to be tested is provided with a bluetooth module; the artificial intelligence automatic test system also comprises a Bluetooth device in communication connection with the transfer device;

the Bluetooth connection testing module controls the Bluetooth device to be connected with the Bluetooth module in a pairing mode through the transfer device.

Optionally, the transfer device includes a wireless communication module; each test module is in communication connection with the transfer device through the wireless communication module;

or, the transfer device comprises a plurality of connecting lines, and each test module is in communication connection with the transfer device through one connecting line.

In another aspect, the present invention provides an artificial intelligence automated testing method, which is applicable to any one of the artificial intelligence automated testing systems, and the method includes:

the transfer device is respectively in communication connection with the terminal to be tested and each test module;

and each test module tests the terminal to be tested through the transfer device.

The invention has the beneficial effects that: the transfer device is additionally arranged between each test module and the terminal to be tested, and because each test module can realize communication connection with the terminal to be tested through the transfer device, the terminal to be tested only needs to be connected with the transfer device during testing, and the connection between the terminal to be tested and the transfer device only needs to be disconnected after testing is finished. In the whole test process, only one-time connection operation is needed to be carried out on the terminal to be tested, repeated plugging and unplugging are not needed, and therefore the detection efficiency can be effectively improved.

Drawings

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

FIG. 1 is a schematic structural diagram of an artificial intelligence automated testing system according to an embodiment;

FIG. 2 is a flowchart of an artificial intelligence automated testing method according to an embodiment.

In the figure:

1. a box body; 101. an accommodating space;

2. a box cover;

3. a transfer device; 301. debugging a plug;

4. a power plug;

5. a terminal to be tested; 501. identification information; 502. physical keys; 503. a camera; 504. a screen;

6. a scanning device;

7. moving the light source;

8. a manipulator;

9. a gateway device;

10. a Bluetooth device;

11. a display screen;

12. an image pickup device.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the embodiments described below are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present.

Furthermore, the terms "long", "short", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention, but do not indicate or imply that the referred devices or elements must have the specific orientations, be configured to operate in the specific orientations, and thus are not to be construed as limitations of the present invention.

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

On one hand, referring to fig. 1, the embodiment provides an artificial intelligence automated testing system, which includes a box 1, a transfer device 3, and a plurality of testing modules. The inside of box 1 is equipped with accommodation space 101, and transfer device 3 is located accommodation space 101, accommodation space 101 is equipped with the test station that is used for placing terminal 5 that awaits measuring.

The transfer device 3 is used for establishing communication connection between the terminal 5 to be tested and each test module. Each of the test modules is configured to test the terminal 5 to be tested after establishing a communication connection with the terminal 5 to be tested.

The automatic test system of artificial intelligence that this embodiment provided adds transfer device 3 between each test module and the terminal 5 that awaits measuring, because each test module all can realize through transfer device 3 with the communication connection of the terminal 5 that awaits measuring, so when testing, only need make the terminal 5 that awaits measuring be connected with transfer device 3 can, after the test is accomplished, also only need break off the terminal 5 that awaits measuring and be connected between transfer device 3. In the whole test process, only one-time connection operation needs to be carried out on the terminal 5 to be tested, repeated plugging and unplugging is not needed, and therefore the detection efficiency can be effectively improved.

Preferably, the transfer device 3 is a microcomputer.

Optionally, some of the test modules are large-scale test equipment, and may be discharge characteristic curve test equipment, coupling test equipment, or Mes test equipment, for example. The discharge characteristic curve test equipment, the coupling test equipment or the Mes test equipment are all located outside the box body 1. The terminal 5 that awaits measuring is equipped with the debugging interface, transfer device 3 is equipped with the debugging plug 301 that is arranged in the holding cavity, the debugging plug 301 be used for with the debugging interface is pegged graft to make terminal 5 and transfer device 3 communication connection await measuring. The transfer device 3 further comprises a wireless communication module; each test module located outside the box body 1 is in communication connection with the transfer device 3 through the wireless communication module. Or, the transfer device 3 includes a plurality of connecting lines, and each of the test modules is in communication connection with the transfer device 3 through one of the connecting lines. Specifically, the data interaction speed of the communication connection mode of wired connection is high, the stability is high, and the method is suitable for debugging scenes; especially, the terminal 5 to be tested may crash or restart during the test process as the tested object, and the wired connection may ensure that the relay device 3 can always keep communication with the terminal 5 to be tested. The communication mode of wireless connection can avoid the problem that the connecting wire is mixed and disorderly and be difficult to arrange in order. The relay device 3 is not the object to be tested, so that its own state is stable, and it can be connected to each test module in a wired or wireless manner.

Optionally, a power plug 4 is further disposed in the accommodating space 101, and the power plug 4 is inserted into the power interface of the terminal 5 to be tested, so as to provide stable current and voltage for the terminal 5 to be tested.

It should be noted that the discharge characteristic curve testing device is mainly used for detecting the battery discharge characteristic curve of the terminal 5 to be tested and controlling the battery quality. The coupling test equipment is used for carrying out coupling test on the terminal 5 to be tested, namely, the whole machine is used for simulating an actual use environment and testing the radio frequency performance of the terminal 5 to be tested in a wireless environment. Generally, many companies will have their own manufacturing enterprise production process execution management system (i.e. the Mes system, the Mes website or the Mes software are the main carrier of the Mes system), and the product should have access to the Mes system for automatically downloading data from the Mes system. The Mes test equipment is used for testing the ability of the terminal 5 to be tested to access the Mes system, and ensuring that the terminal 5 to be tested can normally access the Mes system. It should be noted that the test procedures and methods of the discharge characteristic curve test device, the coupling test device, and the Mes test device are all the prior art, and are not the key points of this embodiment, and therefore are not described in detail.

In this embodiment, the surface of the terminal 5 to be tested is marked with identification information 501. The identification information 501 may be a two-dimensional code or a product serial number (SN code). The artificial intelligence automatic test system also comprises a scanning device 6 which is in communication connection with the transfer device 3. The relay device 3 is configured to control the scanning device 6 to scan the identification information 501. The scanning device 6 is fixed in the accommodating space 101, and when the terminal 5 to be tested is located at the testing station, the scanning device 6 is opposite to the identification information 501.

Optionally, part of the test modules are functional modules such as an integrated circuit or a software functional unit. For example, the test module may be a full function test module, a Wifi connection test module, a bluetooth connection test module, a wake-up test module, a screen 504 display function test module, a sound channel test module, a screen 504 touch function test module, a camera 503 photo function test module, a camera 503 video function test module, a key test module, and the like. Further, each function module may be integrated with the relay device 3 as a whole.

The terminal 5 to be tested is provided with a camera 503, and a mobile light source 7 in communication connection with the transfer device 3 is arranged in the accommodating space 101. When the terminal 5 to be tested is located at the test station, the mobile light source 7 is located within the shooting range of the camera 503; the camera 503 video recording function detection module controls the mobile light source 7 to continuously move relative to the camera 503 through the transfer device 3. Specifically, the movable light source 7 includes a driving mechanism connected to the relay device 3 in communication, and a lamp bead driven by the driving mechanism to move. Close case lid 2 of box 1, accommodation space 101 just becomes a inclosed dim environment, opens camera 503's video recording function this moment, then lights the lamp pearl, and actuating mechanism orders about the lamp pearl and removes after that, can record one section video that has continuous light rail on the terminal 5 that awaits measuring, if the light rail on the video is discontinuous or the light rail does not match with the removal orbit of lamp pearl, then explains that the video recording function has the problem.

In this embodiment, the terminal 5 to be tested is provided with a physical key 502; the artificial intelligence automatic test system also comprises a manipulator 8 which is in communication connection with the transfer device 3. The key test module controls the manipulator 8 to press the physical key 502 of the terminal 5 to be tested through the transfer device 3, so as to detect whether the function of the physical key 502 is abnormal. Specifically, the relay device 3 controls the manipulator 8 to regularly press the physical key 502 of the terminal 5 to be tested, and detects whether the terminal 5 to be tested detects a key operation through the debug plug 301, if so, it indicates that the physical key 502 is normal in function, otherwise, it indicates that the physical key 502 is abnormal in function.

Optionally, the terminal 5 to be tested is provided with a screen 504. The touch function test module of the screen 504 controls the manipulator 8 to slide on the screen 504 of the terminal 5 to be tested through the transfer device 3. A camera device 12 in communication connection with the transfer device 3 is arranged in the accommodating space 101; when the terminal 5 to be tested is located at the test station, the camera 12 is opposite to the screen 504 of the terminal 5 to be tested; the camera 12 is used to acquire a sliding track displayed after the screen 504 is slid. After the relay device 3 controls the robot 8 to slide on the screen 504, since the sliding path of the robot 8 is determined by the relay device 3, it is known, the camera device 12 is used to photograph the sliding track on the screen 504, and the sliding path of the robot 8 and the sliding track in the photograph are compared, if the two are matched, the touch function of the screen 504 is normal, otherwise, the touch function of the screen 504 is abnormal.

Optionally, the terminal 5 to be tested is provided with a Wifi module; the artificial intelligence automatic test system also comprises a gateway device 9 which is in communication connection with the transfer device 3. The Wifi connection test module controls the gateway device 9 to establish a test local area network through the transfer device 3, and enables the Wifi module to be connected with the test local area network. Specifically, if the Wifi module can be accessed to the test local area network, it indicates that the Wifi module functions normally, otherwise, it indicates that the Wifi module functions abnormally.

Further, the terminal to be tested 5 is provided with a bluetooth module; the artificial intelligence automatic test system also comprises a Bluetooth device 10 which is in communication connection with the transfer device 3. The Bluetooth connection testing module controls the Bluetooth device 10 to be connected with the Bluetooth module in a pairing mode through the transfer device 3. Specifically, if the bluetooth module can be successfully paired with the bluetooth device 10, it indicates that the bluetooth module is functioning normally, otherwise, it indicates that the bluetooth module is functioning abnormally.

In this embodiment, the automated artificial intelligence test system is further provided with a display screen 11 electrically connected to the transfer device 3, and the display screen 11 is fixed outside the box body 1. The test results of each test are displayed on the display screen 11, and the tester can select the test items to be executed on the display screen 11.

On the other hand, referring to fig. 2, the present embodiment provides an artificial intelligence automated testing method, which is applicable to the artificial intelligence automated testing system in the present embodiment, and includes:

s10: the transfer device 3 establishes communication connection with the terminal 5 to be tested and each test module respectively.

Specifically, S10 includes:

s101: the transfer device 3 is in communication connection with each test module in a wired or wireless mode;

s102: the terminal 5 to be tested is placed on a testing station, the power plug 4 and the debugging plug 301 are inserted into the terminal 5 to be tested, at this time, the transfer device 3 can automatically detect the bottom layer driver, the operating system, the testing software and the like of the terminal 5 to be tested, if the bottom layer driver, the operating system, the testing software and the like are installed, S103 is entered, and otherwise, the corresponding bottom layer driver, the operating system, the testing software and the like are burnt into the terminal 5 to be tested.

Specifically, the testing software is configured to execute step S20, where the operable interface of the testing software is synchronized with the cross section of the display screen 11, and each testing software is provided with a plurality of virtual testing keys for testing items; and clicking different virtual test keys, so that the test software can execute different codes to enable the artificial intelligent sound box with the screen to execute different operations, thereby meeting the test requirements of different test items.

S103: the relay device 3 controls the scanning device to acquire the identification information 501 of the terminal 5 to be tested, and then records the identification information 501.

S20: obtaining the model information of the terminal 5 to be tested according to the identification information 501, and determining the test items required to be executed in step S30 according to the model information.

Generally, each test item may be a full function test, a Wifi connection test, a bluetooth connection test, a wake-up test, a screen 504 display function test, a sound channel test, a screen 504 touch function test, a camera 503 photographing function test, a camera 503 video recording function test, a key press test, a discharge characteristic curve test, a coupling test, a Mes test, and the like.

And a database is provided in advance, test item information required to be executed by the terminal 5 to be tested with various types is recorded in the database, and the system can automatically select corresponding test items by inquiring the database according to the type information.

Optionally, the tester may also perform operations on the display screen 11 to modify the automatically selected test items.

S30: and each test module tests the terminal 5 to be tested through the transfer device 3.

Specifically, S30 includes:

s301: and the full-function test module controls the terminal to be tested 5 to perform full-function test through the transfer device 3.

The testing software sequentially performs operations such as basic information acquisition, recording, brightness adjustment, residual power query and the like on the terminal 5 to be tested, if no abnormity is found, the full-function test is qualified, otherwise, the full-function test is unqualified;

s302: the Wifi connection test module controls the terminal to be tested 5 to carry out Wifi connection test through the transfer device 3;

the Wifi connection test module sends an instruction to the transfer device 3, and the transfer device 3 controls the gateway device 9 to establish a local area network, and enables the Wifi module of the terminal 5 to be tested to be accessed to the local area network. If the access is successful, the Wifi module is normal; otherwise, the Wifi module is abnormal.

S303: the Bluetooth connection test module controls the terminal to be tested 5 to carry out Bluetooth connection test through the transfer device 3;

the Bluetooth connection test module sends an instruction to the transfer device 3, and the transfer device 3 and the Bluetooth device 10 are connected in a pairing mode. If the pairing is successful, the Bluetooth module is normal; otherwise, the Bluetooth module is abnormal.

S304: the awakening test module controls the terminal to be tested 5 to carry out awakening test through the transfer device 3;

in this embodiment, the relay device 3 is provided with a sound playing module. The awakening test module sends an instruction to the transfer device 3, the sound playing module of the transfer device 3 broadcasts awakening words to the terminal 5 to be tested, meanwhile, the number of times that the terminal 5 to be tested is awakened successfully is counted, and the awakening rate is calculated according to the broadcast number of times and the awakening number of times.

S305: the screen 504 display function test module controls the terminal 5 to be tested to perform screen 504 display function test through the transfer device 3;

the screen 504 display function test module sends an instruction to the transfer device 3, the transfer device 3 controls the terminal 5 to be tested to open the test software, the test software automatically switches pictures on the screen 504, each time the test software changes one picture, the transfer device 3 controls the camera device 12 to take a picture of the screen 504, the taken picture is compared with the picture stored in the transfer device 3 in advance, if the difference between the two pictures is small, the display function of the screen 504 is normal, otherwise, the display function of the screen 504 is abnormal.

S306: the sound channel testing module controls the terminal to be tested 5 to carry out sound channel testing through the transfer device 3;

the transfer device 3 is provided with a recording module. The sound channel testing module sends an instruction to the transfer device 3, the transfer device 3 opens the recording module and controls the terminal 5 to be tested to broadcast sound, the terminal 5 to be tested firstly uses a left sound channel to broadcast the sound of left sound channel testing, and then uses a right sound channel to broadcast the sound of right sound channel testing; the transit device 3 compares the sound recording file with an original sound file prestored in the transit device 3 through audio analysis software, analyzes the amplitude, the frequency and the like of the sound recording file and the original sound file, and if the difference is small, the sound channel broadcasting is normal; otherwise, the sound channel broadcasting is abnormal.

S307: the screen 504 touch function test module controls the terminal 5 to be tested to perform the screen 504 touch function test through the transfer device 3;

the screen 504 touch function test module sends an instruction to the transfer device 3, the transfer device 3 controls the terminal 5 to be tested to open a handwriting interface in the test software, then the manipulator 8 is controlled to slide on the screen 504, then the camera device 12 is used for taking a picture of a sliding track on the screen 504, the sliding path of the manipulator 8 and the sliding track on the picture are compared, and if the difference between the sliding path and the sliding track is small, the touch function of the screen 504 is normal; otherwise, the touch function of the screen 504 is abnormal.

S308: the camera 503 photographing function testing module controls the terminal to be tested 5 to perform camera 503 photographing function testing through the transfer device 3;

the camera 503 photographing function testing module sends an instruction to the transfer device 3, the transfer device 3 controls the terminal 5 to be tested to turn on the photographing function of the camera 503, then the mobile light source 7 is turned on, then the camera 503 is controlled to photograph, the photographed picture is compared with a picture prestored in the transfer device 3, and if the difference between the two pictures is small, the photographing function of the camera 503 is normal; otherwise, it indicates that the photographing function of the camera 503 is abnormal.

S309: the camera 503 video recording function testing module controls the terminal to be tested 5 to test the camera 503 video recording function through the transfer device 3;

the camera 503 video recording function testing module sends an instruction to the transfer device 3, the transfer device 3 controls the terminal 5 to be tested to open the video recording function of the camera 503, then the mobile light source 7 is lightened, then the camera 503 is controlled to record video, the mobile light source 7 is moved, the video recording is stopped, then whether the content displayed by the video recording file is in accordance with the actual content or not is compared, and if the difference between the content and the actual content is smaller, the video recording function of the camera 503 is normal; otherwise, the video recording function of the camera 503 is abnormal;

s310: and the key test module controls the terminal to be tested 5 to perform key test through the transfer device 3.

The key test module sends an instruction to the transfer device 3, the transfer device 3 controls the mechanical arm 8 to press the physical key 502 on the terminal 5 to be tested, and then whether the terminal 5 to be tested senses the key operation or not is detected through the debugging interface, and the sensing rate is calculated according to the pressing times of the mechanical arm 8 and the sensed pressing times.

S311: the discharging characteristic curve testing equipment tests the discharging characteristic curve of the terminal 5 to be tested through the transfer device 3 to obtain the discharging characteristic curve of the battery;

s312: the coupling test equipment performs coupling test on the terminal 5 to be tested through the transfer device 3, and detects the radio frequency performance of the antenna of the terminal 5 to be tested;

s313: the Mes test equipment performs Mes test on the terminal 5 to be tested through the transfer device 3, and detects whether the terminal 5 to be tested can normally access the Mes system.

S40: and summarizing the test results of all tests, and displaying the test results on the display screen 11 in a picture and/or text mode.

It should be noted that, because of problems such as a communication protocol, the test devices such as the partial discharge characteristic curve test device, the coupling test device, and the Mes test device do not have a function of directly communicating with the transfer device 3, a socket may be used to build client software in the test devices, and then a socket is used to build server software on the transfer device 3, so that the client software can communicate with the server software.

The terminal 5 to be tested provided by this embodiment can be an artificial intelligence sound box with a screen, a notebook, a tablet computer, a smart phone or an electronic product such as a smart watch.

The artificial intelligence automatic test system and the method provided by the embodiment do not need to repeatedly plug and unplug the debugging interface and the debugging plug 301, can automatically execute various tests, enable the debugging plug 301 and the power plug 4 to be inserted into the terminal 5 to be tested, and place the terminal 5 to be tested into a test station, and then automatically execute all subsequent test processes by the system, so that the system is simple and convenient, and the test efficiency is high.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. An artificial intelligence automatic test system is characterized by comprising a transfer device (3) and a plurality of test modules;

the transfer device (3) is used for enabling the terminal (5) to be tested to be in communication connection with each test module;

each test module is used for testing the terminal (5) to be tested after establishing communication connection with the terminal (5) to be tested.

2. The artificial intelligence automated testing system according to claim 1, wherein the terminal (5) to be tested is provided with a debugging interface, the transfer device (3) is provided with a debugging plug (301), and the debugging plug (301) is used for plugging with the debugging interface.

3. The artificial intelligence automated testing system of claim 2, further comprising:

the box body (1), the inside of box body (1) is equipped with accommodation space (101), debugging plug (301) are located in accommodation space (101), accommodation space (101) are equipped with and are used for placing the test station of terminal to be tested (5).

4. The artificial intelligence automated testing system of claim 3, wherein the surface of the terminal under test (5) is marked with identification information (501); the artificial intelligence automatic test system also comprises a scanning device (6) which is in communication connection with the transfer device (3): the transfer device (3) is used for controlling the scanning device (6) to scan the identification information (501);

the scanning device (6) is fixed in the accommodating space (101), and when the terminal (5) to be tested is located at the test station, the scanning device (6) is opposite to the identification information (501).

5. The automated artificial intelligence testing system of claim 3, wherein one of said testing modules is a camera (503) video recording function detection module; the terminal (5) to be tested is provided with a camera (503), and a mobile light source (7) in communication connection with the transfer device (3) is arranged in the accommodating space (101);

when the terminal (5) to be tested is located at the test station, the movable light source (7) is located in the shooting range of the camera (503); the camera (503) video recording function detection module controls the mobile light source (7) to continuously move relative to the camera (503) through the transfer device (3).

6. The automated artificial intelligence testing system of claim 3, wherein one of said testing modules is a key testing module and one of said testing modules is a screen (504) touch testing module;

the terminal (5) to be tested is provided with a screen (504) and a physical key (502); the artificial intelligence automatic test system also comprises a manipulator (8) in communication connection with the transfer device (3);

the key test module controls the manipulator (8) to slide on a screen (504) of the terminal to be tested (5) through a transfer device (3); the screen (504) touch function test module controls the manipulator (8) to press a physical key (502) of the terminal to be tested (5) through the transfer device (3);

a camera device (12) which is in communication connection with the transfer device (3) is arranged in the accommodating space (101); when the terminal (5) to be tested is located at the test station, the camera device (12) is opposite to the screen (504) of the terminal (5) to be tested; the camera device (12) is used for acquiring a sliding track displayed after the screen (504) is slid.

7. The artificial intelligence automated testing system according to claim 1, wherein one of the testing modules is a Wifi connection testing module, and the terminal (5) to be tested is provided with a Wifi module; the artificial intelligence automatic test system also comprises a gateway device (9) which is in communication connection with the transfer device (3);

the Wifi connection testing module controls the gateway device (9) to establish a testing local area network through the transfer device (3), and enables the Wifi module to be connected with the testing local area network.

8. The artificial intelligence automated testing system of claim 1, wherein one of the testing modules is a bluetooth connection testing module, and the terminal under test (5) is provided with a bluetooth module; the artificial intelligence automatic test system also comprises a Bluetooth device (10) in communication connection with the transfer device (3);

the Bluetooth connection testing module controls the Bluetooth device (10) to be connected with the Bluetooth module in a pairing mode through the transfer device (3).

9. The artificial intelligence automated test system according to claim 1, wherein the relay device (3) includes a wireless communication module; each test module is in communication connection with the transfer device (3) through the wireless communication module;

or, the transfer device (3) comprises a plurality of connecting lines, and each test module is in communication connection with the transfer device (3) through one connecting line.

10. An artificial intelligence automatic test method applied to the artificial intelligence automatic test system according to any one of claims 1 to 9, comprising:

the transfer device (3) is respectively in communication connection with a terminal (5) to be tested and each test module;

and each test module tests the terminal (5) to be tested through the transfer device (3).

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