CN115442588A - Smart television information source detection system and method based on smart production line - Google Patents

Abstract

The invention discloses an intelligent television information source detection system and method based on an intelligent production line, wherein the system comprises: the system comprises an intelligent production line track, an intelligent television, a detection device, a test platform and an MES server; the intelligent production line track is used for conveying the intelligent television to an information source detection station; the detection device is used for carrying out information source detection on the intelligent television and uploading collected information source detection data to the test platform; the testing platform is used for sending a detection instruction to the detection device, analyzing the information source detection data to obtain a detection result, and uploading the detection result and target data in the detection process to the MES server; and the MES server is used for receiving and storing the detection result of the information source detection of the intelligent television and target data. The intelligent television signal source detection system based on the intelligent production line can automatically complete signal source detection tests such as image, sound and shell vibration detection of a signal source channel of an intelligent television.

Description

Smart television information source detection system and method based on smart production line

Technical Field

The invention relates to the technical field of intelligent product testing, in particular to an intelligent television information source detection system and method based on an intelligent production line.

Background

The intelligent television is based on an Internet application technology, is provided with an open type operating system and a chip, is provided with a full-open type platform, is provided with an operating system, can automatically install and uninstall various application software when a user enjoys common television content, continuously expands and upgrades functions, can realize a bidirectional man-machine interaction function, integrates various functions such as audio and video, entertainment, data and the like, and meets the television product with diversified and personalized requirements of the user.

In the process of intelligent television production, the TV can carry out a series of production detection after producing the line equipment and accomplish, detect still to stop in traditional manual stage at production line TV information source passageway at present, need the manual work to connect all channel signal, then switch the information source passageway one by one, still need the manual work to pat the backshell to whether the detection TV can normally work after the equipment to and the TV takes place that the machine shakes and can normally work at the in-process of switching signal. The detection content at this stage mainly aims at the image, sound and picture synchronization, picture display effect, sound playing effect and the like when the information source signal is decoded.

In the prior art, the current part of intelligent production lines realize automation of switching of information source channels, but still need to judge whether the information source channel is being output, whether the sound of the information source channel is normal or not and whether the image and the sound of the information source channel are synchronous or not through manual beating to trigger the vibration of a television (shell vibration detection), and need two persons to cooperate to confirm the detection result of information source decoding of the intelligent television during beating the vibration, so that the problem that the information source channel detection of the intelligent television cannot be automatically completed in the prior art exists.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

The invention mainly aims to provide an intelligent television information source detection system and method based on an intelligent production line, and aims to solve the problem that information source channel detection of an intelligent television cannot be automatically completed after the intelligent television is assembled on the production line in the prior art.

In order to achieve the above object, the present invention provides an intelligent television signal source detection system based on an intelligent production line, which includes:

the system comprises an intelligent production line track, an intelligent television, a detection device, a test platform and an MES server; the test platform is respectively connected with the intelligent production line track, the intelligent television, the detection device and the MES server;

the intelligent production line track is used for conveying the intelligent television to an information source detection station;

the detection device is used for carrying out information source detection on the intelligent television and uploading collected information source detection data to the test platform;

the testing platform is used for sending a detection instruction to the detection device, analyzing the information source detection data to obtain a detection result, and uploading the detection result and target data in the detection process to the MES server;

and the MES server is used for receiving and storing a detection result and target data of the information source detection of the intelligent television.

Optionally, the smart television signal source detection system based on the smart production line, wherein the target data includes serial number information of the smart television, a detection station, detection time, a version of a test platform, a test scheme, and a test item.

Optionally, in the smart television signal source detection system based on the smart production line, the smart production line rail is provided with a signal source detection station, a test station, a device platform and a detection state warning lamp;

the information source detection station is used for fixing the intelligent television transported by the intelligent production line to a specified position;

the test station is provided with a first information source connection conversion board card;

the device platform is connected with the intelligent television, and is provided with a second information source connection conversion board card which is used for completing the butt joint of the second information source connection conversion board card and the first information source connection conversion board card and sending the butt joint state to the intelligent television;

the intelligent television sends the docking state to the test platform;

the detection state warning lamp is used for performing abnormity reminding when the first information source connection conversion board card and the second information source connection conversion board card are abnormally butted.

Optionally, the smart television information source detection system based on intelligent production line, wherein the docking state includes: the first information source connection conversion board card and the second information source connection conversion board card are normally in butt joint, and the first information source connection conversion board card and the second information source connection conversion board card are abnormal in port butt joint.

Optionally, the smart television signal source detection system based on the smart production line, wherein the detection device includes a smart racket shaft, a shooting device and a recording device;

the intelligent clapper is connected with the test platform and used for simulating artificial shell vibration test on the intelligent television;

the shooting device is connected with the test platform and used for shooting video data of channel information source decoding when the intelligent television carries out simulated artificial shell vibration test and sending the video data to the test platform;

the recording device is connected with the test platform and used for recording audio data of channel information source decoding when the intelligent television carries out simulated artificial shell vibration test and sending the audio data to the test platform.

Optionally, the smart television signal source detection system based on the smart production line, wherein the test parameters of the simulated artificial shell vibration test include a slapping angle, a slapping force and a slapping frequency.

Optionally, in the intelligent television signal source detection system based on the intelligent production line, the test platform includes an AI image module and an AI voice module;

the AI image module is used for analyzing the video data to obtain a first analysis result;

the AI voice module is used for analyzing the audio data to obtain a second analysis result;

and the test platform judges whether the detection passes according to the first analysis result and the second analysis result, and uploads the judged detection result and target data in the detection process to the MES server.

In addition, the invention also provides an intelligent television signal source detection method based on the intelligent production line, wherein the intelligent television signal source detection method based on the intelligent production line comprises the following steps: when the intelligent television is conveyed to the information source detection station by the intelligent production line track, the intelligent production line track controls the first information source connection conversion board card and the second information source connection conversion board card to complete butt joint, and sends a signal to be tested to the test platform, and the test platform sends a test instruction to the shooting device, the recording device and the intelligent shooting rod;

the intelligent television decodes the channel information source based on the test instruction, and the shooting device and the recording device respectively acquire video data and audio data of the information source decoding when the intelligent shooting rod tests the intelligent television based on the test instruction;

the shooting device and the recording device respectively upload the video data and the audio data to the test platform, the test platform analyzes and marks the video data and the audio data to obtain a detection result, and the detection result is uploaded to an MES server.

Optionally, the smart television signal source detection method based on the smart production line further includes:

when the test platform receives a signal to be tested, the test platform sends a detection environment instruction to the shooting device, the recording device and the intelligent racket rod, and confirms the connection state among the shooting device, the recording device and the intelligent racket rod.

Optionally, the intelligent television signal source detection method based on the intelligent production line further includes:

if the first information source connection conversion board card and the second information source connection conversion board card are not butted, the intelligent production line track performs connection retry on the first information source connection conversion board card and the second information source connection conversion board card;

if the butt joint state is still abnormal after the three times of retries are finished, the detection state indicating lamp informs to carry out manual obstacle elimination detection, and the MES server sends the result of the manual obstacle elimination detection to the test platform for storage;

and the test platform synchronizes the port abnormal information of the information source connection conversion board card and the troubleshooting guide in the window of the intelligent television.

The invention discloses an intelligent television information source detection system and method based on an intelligent production line, wherein the intelligent television information source detection system based on the intelligent production line comprises the following components: the system comprises an intelligent production line track, an intelligent television, a detection device, a test platform and an MES server; the test platform is respectively connected with the intelligent production line track, the intelligent television, the detection device and the MES server; the intelligent production line track is used for conveying the intelligent television to an information source detection station; the detection device is used for carrying out information source detection on the intelligent television and uploading collected information source detection data to the test platform; the testing platform is used for sending a detection instruction to the detection device, analyzing the information source detection data to obtain a detection result, and uploading the detection result and target data in the detection process to the MES server; and the MES server is used for receiving and storing the detection result of the information source detection of the intelligent television and target data. The intelligent television signal source detection system based on the intelligent production line can automatically complete signal source detection tests such as image, sound and shell vibration detection of the signal source channel of the intelligent television.

Drawings

FIG. 1 is a schematic diagram of an intelligent production line-based intelligent television signal source detection system according to the present invention;

FIG. 2 is a schematic diagram of an intelligent television signal source detection device based on an intelligent production line in the present invention;

FIG. 3 is a flowchart of a smart television signal source detection method based on smart production line according to a preferred embodiment of the present invention;

fig. 4 is a schematic overall flow chart of the intelligent production line-based intelligent television signal source detection method according to the preferred embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1, the smart television signal source detection system based on the smart production line according to the preferred embodiment of the present invention includes: the intelligent production line comprises an intelligent production line track 1, an intelligent television 2, a detection device 3, a test platform 4 and an MES server 5; the test platform 4 is connected with the intelligent production line track 1, the intelligent television 2, the detection device 3 and the MES server 5 respectively.

The intelligent production line track 1 is used for conveying the intelligent television 2 to an information source detection station 101; the detection device 3 is used for carrying out information source detection on the intelligent television 2 and uploading collected information source detection data to the test platform 4; the test platform 4 is used for sending a detection instruction to the detection device 3, analyzing the information source detection data to obtain a detection result, and uploading the detection result and target data in the detection process to the MES server 5; the MES server 5 is configured to receive and store a detection result and target data (i.e., serial number information, detection station, detection time, version of a test platform, test scheme, and test item of the smart television) detected by the information source of the smart television 2.

The intelligent production line track 1 is provided with an information source detection station 101, a test station 102, a device platform 103 and a detection state warning lamp 104; the information source detection station 101 is used for fixing the intelligent television 2 transported by the intelligent production line track 1 to an appointed position; the test station 102 is provided with a first information source connection conversion board card 201; the device platform 103 is connected with the intelligent television 2, and is provided with a second information source connection conversion board card 202, which is used for completing the butt joint of the second information source connection conversion board card 202 and the first information source connection conversion board card 201, and sending the butt joint state to the intelligent television 2; the intelligent television 2 sends the butt joint state to the test platform 4; the detection state warning light 104 is configured to perform an exception prompt when the first information source connection conversion board 201 and the second information source connection conversion board 202 are abnormally connected.

Specifically, the equipment that will detect the station on the production line of wisdom is installed in advance and is debugged, and will 4 connection network of test platform, the equipment of installation include: the system comprises an intelligent production line track 1, a detection device 3, a test platform 4 and an MES server 5; after the intelligent television 2 finishes the previous station detection, the intelligent production line track 1 transports the intelligent television 2 to the information source detection station 101, a second information source connection conversion board 202 of the device platform 103 finishes the butt joint with a first information source connection conversion board 201 of the test station 102 through positioning (the purpose of the information source connection conversion board is to reduce manual wire plugging and wire pulling, and a channel information source line of the intelligent television 2 is automatically butt jointed with information source equipment through two information source connection conversion boards, wherein the channel information source line comprises ports such as AV, TV, HDMI1, HDMI2, HDMIN, SPDIF, a wired network and a power supply), and the butt joint state of the first information source connection conversion board 201 and the second information source connection conversion board 202 (for example, the butt joint state comprises that the first information source connection conversion board 201 is normally butt jointed with the second information source connection conversion board 202 and the butt joint of the first information source connection conversion board 201 and the second information source connection conversion board 202 is abnormal); and the intelligent television 2 sends the docking state to the test platform 4.

If the port of the first information source connection conversion board 201 is abnormally connected with the port of the second information source connection conversion board 202, the intelligent production line track 1 retries the connection of the first information source connection conversion board 201 and the second information source connection conversion board 202; if the butt joint state is still abnormal after the three retries, the detection state indicator lamp 104 is changed into red to inform manual obstacle elimination detection, and the intelligent production line rail 1 sends the result of the manual obstacle elimination detection to the test platform 4 for storage; and the test platform 4 synchronizes the port abnormal information of the information source connection conversion board card and the troubleshooting guide in the window of the intelligent television 2.

Further, the test platform 4 calls a corresponding test scheme according to the production test requirement of the production line, and sends a test instruction of a detection item (for example, an image, sound, and sound-picture synchronous test instruction of HDMI in a detection [ shell shock ] scene) to the smart television 2 and the detection device 3 to perform data acquisition of information source detection according to the test scheme-test strategy of the detection item; the detection device 3 comprises an intelligent racket rod 301, a shooting device 302 and a recording device 303; for example, the smart shaft 301 may be an adjustable shaft, the camera 302 may be a high definition camera, and the recording device 303 may be a pickup microphone.

Specifically, the smart television 2 is connected to the test platform 4, and the smart television 2 is configured to adjust a channel to an HDMI channel, decode a channel information source of the HDMI channel, and return a result of whether HDMI channel switching is successful; the intelligent clap stick 301 is connected with the test platform 4 and is used for simulating an artificial shell vibration test on the intelligent television 2 (the test parameters of the simulated artificial shell vibration test comprise a clapping angle (for example, 0-360 degrees), a clapping force (for example, 1-5, the larger the number is, the larger the force is), and the clapping times (for example, 1-10 times)); for example: the intelligent slap rod 301 slaps the rear shell of the smart television 2, wherein the slap angle is 30 degrees, the slap force is 3, the slap frequency is 2 times or the slap angle is 75 degrees, the slap force is 5, and the slap frequency is 2 times; the shooting device 302 is connected with the test platform 4 and is used for shooting video data of channel information source decoding when the intelligent television 2 performs simulated artificial shell vibration test and sending the video data to the test platform 4; for example: the shooting device 302 firstly records a video (for example, 5 seconds) of the intelligent shooting rod 301 during operation, then shoots pictures (for example, two pictures are shot at an interval of 1 second) after the intelligent shooting rod 301 finishes operation, and sends the video and the pictures to the test platform 4 after the shooting is finished; the recording device 303 is connected to the test platform 4, and is configured to record audio data decoded by a channel information source when the smart television 2 performs a simulated artificial shell-shake test, and send the audio data to the test platform 4, for example: the recording device 303 records the sound of the intelligent racket rod 301 during operation, records the sound of the intelligent racket rod 301 after the intelligent racket rod 301 finishes operating, and sends the recorded audio file to the test platform 4.

Further, the test platform 4 includes an AI image module 401 and an AI voice module 402; the AI image module 401 is configured to analyze the video data to obtain a first analysis result; the AI voice module 402 is configured to analyze the audio data to obtain a second analysis result; the test platform 4 determines whether the detection is passed according to the first analysis result, for example, whether an image exists in the HDMI1 is detected, and then whether the HDMI1 source mark to the image (for example, a source video mark HDMI1 corner mark, etc.) which locks the smart television 2 is captured by the shooting device 302; the test platform 4 determines whether the detection passes according to the second analysis result, for example, determines whether the HDMI1 has sound, captures the occurrence of a speaker (for example, broadcasting an HDMI1 left channel and an HDMI right channel in the source video), and the test platform 4 uploads the determined detection result and the target data in the detection process to the MES server 5.

The target data comprise serial number information of the intelligent television, detection stations, detection time, versions of a test platform, test schemes and test items.

Further, as shown in a schematic diagram of the intelligent production line-based intelligent television signal source detection device in fig. 2, the diagram includes an intelligent production line track 1, an intelligent television 2, a test platform 4, an MES server 5, a signal source detection station 101, a first signal source connection conversion board 201 on a test station 102, a second signal source connection conversion board 202 on a device platform 103, a detection state warning light 104, an adjustable racket bar 301, a high definition camera 302, a pickup microphone 303, an AI image module 401 and an AI voice module 402; the intelligent television 2 is placed on the intelligent production line track 1, the intelligent production line track 1 comprises an information source detection station 101, a test station 102 and a device platform 103, and the device platform 103 is connected with the intelligent television 2 through a connection port network; the smart television 2, the high-definition camera 302, the pickup microphone 303 and the adjustable racket bar 301 are all connected to the test platform 4, the AI image module 401 and the AI voice module 402 are built in the test platform, and the MES server 5 is connected to the test platform 4.

Further, based on the smart television signal source detection system based on smart production line shown in fig. 1, the smart television signal source detection method based on smart production line of the smart television signal source detection system based on smart production line according to the preferred embodiment of the present invention is shown in fig. 3, and the smart television signal source detection method based on smart production line includes the following steps:

s10, when the intelligent television is conveyed to an information source detection station by the intelligent production line track, the intelligent production line track controls a first information source connection conversion board card and a second information source connection conversion board card to complete butt joint, a signal to be tested is sent to the test platform, and the test platform sends a test instruction to a shooting device, a recording device and an intelligent shooting rod;

s20, decoding a channel information source by the intelligent television based on the test instruction, and acquiring video data and audio data of the information source decoding when the intelligent shooting rod tests the intelligent television by the shooting device and the recording device respectively based on the test instruction;

and S30, uploading the video data and the audio data to the test platform by the shooting device and the recording device respectively, analyzing and marking the video data and the audio data by the test platform to obtain a detection result, and uploading the detection result to an MES server.

Further, when the test platform receives a signal to be tested, the test platform sends a detection environment instruction to the shooting device, the recording device and the intelligent racket rod, and confirms the connection state among the shooting device, the recording device and the intelligent racket rod.

Further, if the first information source connection conversion board card and the second information source connection conversion board card are not butted, the intelligent production line track performs connection retry on the first information source connection conversion board card and the second information source connection conversion board card;

if the docking state is still abnormal after the three retries are finished, a detection state indicator lamp informs of carrying out manual fault elimination detection, and the MES server sends the result of the manual fault elimination detection to the test platform for storage;

and the test platform synchronizes the port abnormal information of the information source connection conversion board card and the troubleshooting guide in the window of the intelligent television.

Further, as shown in fig. 4, the whole process of the preferred embodiment of the smart tv source detection based on smart production line of the present invention is as follows:

s1, installing and debugging equipment of a detection station on an intelligent production line;

s2, after the equipment is debugged, when the intelligent production line rail transports the television to an information source detection station, an information source connection conversion board card on the rail device platform is automatically butted with an information source connection conversion board card of a test station through positioning;

s3, after the information source connection conversion board card is butted, the intelligent production line system sends a signal to be tested to a test platform;

s4, after receiving an equipment in-place signal of the intelligent production line system, the test platform sends a detection environment test instruction and confirms the connection state of the camera, the microphone and the intelligent shooting rod;

step S5, after the test platform receives that the information source connection conversion board card is normal and the detection environment is normal, the test platform calls a corresponding test scheme according to the production test requirement of a production line and sends a test instruction of a detection item to equipment for executing the intelligent television and detecting the environment related to the test scheme-the test strategy of the detection item;

s6, the equipment of the intelligent television execution and related detection environment acquires data of test item test results and uploads the acquired data to a test platform;

s7, the test platform calls a related detection tool to perform result analysis on the uploaded data and outputs a detection result;

and S8, after the test of the detection item is finished, the next procedure is started.

In summary, the present invention provides an intelligent television signal source detection system and method based on an intelligent production line, where the intelligent television signal source detection system based on the intelligent production line includes: the system comprises an intelligent production line track, an intelligent television, a detection device, a test platform and an MES server; the intelligent production line track is used for conveying the intelligent television to an information source detection station; the detection device is used for carrying out information source detection on the intelligent television and uploading collected information source detection data to the test platform; the testing platform is used for sending a detection instruction to the detection device, analyzing the information source detection data to obtain a detection result, and uploading the detection result and target data in the detection process to the MES server; and the MES server is used for receiving and storing the detection result of the information source detection of the intelligent television and target data. The intelligent television signal source detection system based on the intelligent production line can automatically complete signal source detection tests such as image, sound and shell vibration detection of the signal source channel of the intelligent television.

In summary, the invention can bring the following beneficial effects: according to the intelligent television signal source detection system based on the intelligent production line, the detection efficiency and the detection quality of the intelligent television on the intelligent production line are improved, the standardization of the detection environment of the production line is improved, the investment of workers on the intelligent production line is reduced (namely, the production cost is reduced), the problem of inconsistent detection environment caused by operation of the workers is reduced, and the production efficiency and the detection efficiency of the intelligent production line are greatly improved.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or intelligent terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or intelligent terminal. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or intelligent terminal that comprises the element.

Of course, it will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by instructing relevant hardware (such as a processor, a controller, etc.) through a computer program, and the program can be stored in a computer readable storage medium, and when executed, the program can include the processes of the embodiments of the methods described above. The computer readable storage medium may be a memory, a magnetic disk, an optical disk, etc.

It will be understood that the invention is not limited to the examples described above, but that modifications and variations will occur to those skilled in the art in light of the above teachings, and that all such modifications and variations are considered to be within the scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a smart television information source detecting system based on line is produced to wisdom, its characterized in that, smart television information source detecting system based on line is produced to wisdom includes: the system comprises an intelligent production line track, an intelligent television, a detection device, a test platform and an MES server; the test platform is respectively connected with the intelligent production line track, the intelligent television, the detection device and the MES server;

the intelligent production line track is used for conveying the intelligent television to an information source detection station;

the detection device is used for carrying out information source detection on the intelligent television and uploading collected information source detection data to the test platform;

the testing platform is used for sending a detection instruction to the detection device, analyzing the information source detection data to obtain a detection result, and uploading the detection result and target data in the detection process to the MES server;

and the MES server is used for receiving and storing the detection result of the information source detection of the intelligent television and target data.

2. The intelligent television information source detection system based on the intelligent production line as claimed in claim 1, wherein the target data comprise serial number information of the intelligent television, detection stations, detection time, version of a test platform, test schemes and test items.

3. The intelligent television information source detection system based on the intelligent production line as claimed in claim 1, wherein the intelligent production line track is provided with an information source detection station, a test station, a device table and a detection state warning lamp;

the information source detection station is used for fixing the intelligent television transported by the intelligent production line to a specified position;

the test station is provided with a first information source connection conversion board card;

the device platform is connected with the intelligent television, and is provided with a second information source connection conversion board card which is used for completing the butt joint of the second information source connection conversion board card and the first information source connection conversion board card and sending the butt joint state to the intelligent television;

the intelligent television sends the docking state to the test platform;

the detection state warning lamp is used for performing abnormity reminding when the first information source connection conversion board card and the second information source connection conversion board card are abnormally butted.

4. The intelligent television signal source detection system based on intelligent production line as claimed in claim 3, wherein the docking state comprises: the first information source connection conversion board card and the second information source connection conversion board card are normally in butt joint, and the first information source connection conversion board card and the second information source connection conversion board card are abnormal in port butt joint.

5. The intelligent television signal source detection system based on intelligent production line as claimed in claim 1, wherein the detection device comprises an intelligent racket bar, a shooting device and a recording device;

the intelligent clapper is connected with the test platform and used for simulating artificial shell vibration test on the intelligent television;

the shooting device is connected with the test platform and used for shooting video data of channel information source decoding when the intelligent television carries out simulated artificial shell vibration test and sending the video data to the test platform;

the recording device is connected with the test platform and used for recording audio data of channel information source decoding when the intelligent television carries out simulated artificial shell vibration test and sending the audio data to the test platform.

6. The intelligent television signal source detection system based on intelligent production line as claimed in claim 5, wherein the test parameters of the simulated artificial shell quake test include the slap angle, the slap strength and the slap times.

7. The intelligent television signal source detection system based on intelligent production line of claim 5, wherein the test platform comprises an AI image module and an AI voice module;

the AI image module is used for analyzing the video data to obtain a first analysis result;

the AI voice module is used for analyzing the audio data to obtain a second analysis result;

and the test platform judges whether the detection passes according to the first analysis result and the second analysis result, and uploads the judged detection result and target data in the detection process to the MES server.

8. An intelligent production line-based intelligent television signal source detection method based on the intelligent production line-based intelligent television signal source detection system of any one of claims 1 to 7, wherein the intelligent production line-based intelligent television signal source detection method comprises the following steps:

when the intelligent television is conveyed to the information source detection station by the intelligent production line track, the intelligent production line track controls the first information source connection conversion board card and the second information source connection conversion board card to complete butt joint, and sends a signal to be tested to the test platform, and the test platform sends a test instruction to the shooting device, the recording device and the intelligent shooting rod;

the intelligent television decodes the channel information source based on the test instruction, and the shooting device and the recording device respectively acquire video data and audio data of the information source decoding when the intelligent shooting rod tests the intelligent television based on the test instruction;

the shooting device and the recording device respectively upload the video data and the audio data to the test platform, the test platform analyzes and marks the video data and the audio data to obtain a detection result, and the detection result is uploaded to an MES server.

9. The intelligent television signal source detection method based on intelligent production line of claim 8, wherein the intelligent television signal source detection method based on intelligent production line further comprises:

when the test platform receives a signal to be tested, the test platform sends a detection environment instruction to the shooting device, the recording device and the intelligent racket rod, and confirms the connection state among the shooting device, the recording device and the intelligent racket rod.

10. The intelligent television signal source detection method based on intelligent production line as claimed in claim 8, wherein the intelligent television signal source detection method based on intelligent production line further comprises:

if the first information source connection conversion board card and the second information source connection conversion board card are not butted, the intelligent production line track conducts connection retry on the first information source connection conversion board card and the second information source connection conversion board card;

if the butt joint state is still abnormal after the three times of retries are finished, the detection state indicating lamp informs to carry out manual obstacle elimination detection, and the MES server sends the result of the manual obstacle elimination detection to the test platform for storage;

and the test platform synchronizes the port abnormal information of the information source connection conversion board card and the troubleshooting guide in the window of the intelligent television.

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