CN115526460B - Intelligent production test system for security monitoring cameras - Google Patents

Abstract

The invention relates to the technical field of production and manufacturing management, in particular to an intelligent production test system for a security monitoring camera, which comprises a node acquisition module, a test item generation module and a test operation module; the node acquisition module is used for acquiring the test flow nodes input by the user and generating a flow node library; the test item generation module is used for sequencing the test flow nodes in the flow node library and generating a test item library; the test operation module is used for testing the equipment to be tested according to the sequence of the test flow nodes in the test item library. By adopting the scheme, the production efficiency can be improved, and the test flow can be standardized.

Description

Intelligent production test system for security monitoring cameras

Technical Field

The invention relates to the technical field of production and manufacturing management, in particular to an intelligent production test system for a security monitoring camera.

Background

The appearance of security monitoring equipment brings great convenience to the life of people, and people can realize range monitoring through installing security monitoring cameras and other equipment, so that the security monitoring equipment has a small effect on guaranteeing personal safety and property safety. At present, the demands of people for the monitoring equipment are increasing, and the demands for the high-quality monitoring equipment are also increasing, but the existing production and processing modes cannot meet the demands for high quality and high yield.

In the production process of the security monitoring camera, the failure of any part can lead to poor photographic effect of the equipment, in order to meet the market demand and ensure that the quality of the product delivered reaches the standard, the product can be tested generally after the product is manufactured, the existing test mode is usually that a worker tests the product according to paper operation flow instructions, the test procedure is generally operated by the experience of each worker, the test mode has the problem of non-uniform test flow, and the condition that test items are omitted easily occurs to workers with unfamiliar test flow, so that the product quality test reliability is poor. Therefore, it is needed to provide a production intelligent management system capable of improving production efficiency and standardizing production flow, which plays a promoting role in guaranteeing quality of outgoing products.

Disclosure of Invention

The intelligent production test system for the security monitoring cameras can improve production efficiency and standardize production flow, and plays a role in guaranteeing quality of outgoing products.

In order to achieve the above object, the basic scheme of the present invention is as follows:

an intelligent production test system for a security monitoring camera comprises a node acquisition module, a test item generation module and a test operation module;

the node acquisition module is used for acquiring the test flow nodes input by the user and generating a flow node library;

the test item generation module is used for sequencing the test flow nodes in the flow node library and generating a test item library;

the test operation module is used for testing the equipment to be tested according to the sequence of the test flow nodes in the test item library.

The principle and the advantages of the invention are as follows: and sequencing the test flow nodes in the flow node library, and generating a test item library, so that the equipment to be tested can be tested directly according to the sequence of the test flow nodes in the test item library. By adopting the scheme, the problem that the testing process adopted by each staff is not uniform in the product testing process can be effectively avoided, so that the standardability of the testing process is effectively improved, meanwhile, the simplicity of testing operation is improved for the staff unfamiliar with the testing process, the incomplete testing process caused by the unfamiliar with the testing process is prevented, the purpose of comprehensively testing before the delivery of products is guaranteed is achieved, and the qualification rate of the delivered products is improved. And adopt this scheme, the staff who is responsible for the test no longer need the manual sequencing and the control of each test flow, but directly treat the test equipment through the test operation module and test, promoted the intellectuality of test procedure, promoted staff's work efficiency simultaneously, promoted production efficiency.

In conclusion, by adopting the scheme, the production efficiency can be improved, the production flow can be standardized, and the quality of products delivered from factories can be promoted.

Further, the test item generation module comprises an equipment model acquisition module and a node ordering module;

the equipment model acquisition module is used for acquiring the model of equipment to be tested;

the node ordering module is used for ordering the nodes of the test flow according to the model of the equipment to be tested and generating a test item library; the test item library comprises the model number of the equipment to be tested and the corresponding test item flow;

the test operation module is used for operating the corresponding test item flow according to the model of the equipment to be tested, and testing the equipment to be tested.

The beneficial effects are that: different test requirements may exist for different types of devices to be tested, so in the scheme, different test flow node sequences are performed for different types of devices to be tested, so that the test flow meets the test requirements of different types of devices to be tested.

Further, the test operation module comprises an information acquisition module, an equipment screening module and a list generation module;

the information acquisition module is used for acquiring login information;

the device screening module is used for generating a test authority according to the login information; the test authority comprises the model of the equipment to be tested;

the list generation module is used for generating a device list according to the test authority.

The beneficial effects are that: according to the login information, the test permission is generated, so that the permission of staff responsible for the test work of the equipment to be tested of different types can be divided, and the safety of the system is improved.

Further, the test operation module further comprises an acquisition module and an operation module;

the acquisition module is used for acquiring a selection result of a user in the equipment list;

and the operation module is used for testing the equipment to be tested according to the selection result of the user in the equipment list.

The beneficial effects are that: and testing the equipment to be tested, which needs to be tested, according to the testing requirements of users, namely staff.

The system further comprises a test result generation module, wherein the test result generation module comprises a result generation module, a time recording module and a recording storage module;

the result generation module is used for generating a test result according to the test condition of the test operation module;

the time recording module is used for acquiring the starting time and the ending time of the test;

the record storage module is used for storing test records, wherein the test records comprise login information, test results, start time and end time of the test.

The beneficial effects are that: logging information, test results, start time and end time of the test are checked, so that test records of all staff can be conveniently reviewed.

Further, the system also comprises an extraction module, wherein the extraction module comprises a request acquisition module and a record extraction module;

the request acquisition module is used for acquiring a query request of a user;

the record extracting module is used for extracting the test record in the record storage module according to the query request of the user.

The beneficial effects are that: when the test records of the staff are required to be reviewed, the corresponding test records in the record storage module can be extracted according to the query request of the user.

The system further comprises a test tool updating module, wherein the test tool updating module comprises a tool acquisition module, a tool storage module, a personnel information acquisition module, a permission generation module and a list generation module;

the tool acquisition module is used for acquiring a tool folder; the tool folder comprises a plurality of tool installation packages;

the tool storage module is used for storing the tool folder and generating a tool update library;

the personnel information acquisition module is used for acquiring personnel information;

the right generation module is used for generating tool use rights according to the personnel information;

the list generation module is used for extracting the tool folders in the tool update library according to the tool use permission and generating a tool use list.

The beneficial effects are that: and storing the tool folder and generating a tool update library, so that when a worker needs to apply the test tool to perform test operation, a tool use list corresponding to the authority of the worker can be obtained, and a required test tool is selected from the tool use list to complete test work.

Further, the tool folder further comprises version information corresponding to the tool installation package.

The beneficial effects are that: in the prior art, the update of the test tool usually requires each staff to search resources to download the test tool, so that the tool version of each test station is inconsistent easily, and the test problem caused by the tool version difference is caused. By adopting the scheme, the user can acquire the tool folder containing the tool installation packages, and know whether the current installed version is the latest version or not by checking all the tool installation packages and the corresponding version information in the tool folder, so that the convenience of tool installation is improved.

Further, the test tool updating module further comprises a tool selection acquisition module and a tool downloading module;

the tool selection acquisition module is used for acquiring a selection result of a user in a tool use list;

and the tool downloading module is used for downloading the tool installation package according to the selection result of the user in the tool use list.

The beneficial effects are that: and downloading the tool installation package according to the requirement of the user, so as to improve the intelligence of the system.

Further, the test tool updating module further comprises an updating requirement obtaining module;

the update requirement acquisition module is used for acquiring the update requirement of the tool installation package; the update requirements include recommended updates and forced updates;

and the tool downloading module is used for downloading the tool installation package according to the updating requirement of the tool installation package.

The beneficial effects are that: according to the update requirement of the tool installation package, the tool installation package is downloaded, so that when a tool does not need to be subjected to version unification, a user can still use the tool version familiar to the user, and when a tool needs to be subjected to version unification, the tool installation package is downloaded by default, and the intelligent tool version control function is realized.

Drawings

Fig. 1 is a logic block diagram of an intelligent production test system for a security monitoring camera according to an embodiment of the present invention.

Fig. 2 is a logic block diagram of a test tool update module in an intelligent production test system for a security monitoring camera according to an embodiment of the present invention.

Detailed Description

The following is a further detailed description of the embodiments:

example 1:

example 1 is substantially as shown in figure 1:

the intelligent production test system for the security monitoring camera comprises a node acquisition module, a test item generation module, a test operation module, a test result generation module and an extraction module.

The node acquisition module is used for acquiring the test flow nodes recorded by the user and generating a flow node library. In this embodiment, a user makes test flow nodes of an IPC test tool according to the needs of a device to be tested, where the test flow nodes include a main code flow test function and a sub code flow test function.

The test item generation module is used for sequencing the test flow nodes in the flow node library and generating a test item library. Specifically, the test item generation module comprises an equipment model acquisition module and a node ordering module.

The device model obtaining module is configured to obtain a model of a device to be tested, where in this embodiment, the model of the device to be tested is recorded by a user using a management tool.

The node ordering module is used for ordering the nodes of the test flow according to the model of the equipment to be tested and generating a test item library; the test item library comprises the model number of the equipment to be tested and the corresponding test item flow. In this embodiment, the user selects the required test flow nodes for each type of device to be tested by using the management tool, and sorts the test flow nodes, so that the functional preparation of the intelligent flow test function is completed.

And then entering an operation link of the test, wherein the operation link completes the automatic test of the equipment to be tested through the test operation module.

And the test operation module tests the equipment to be tested according to the sequence of the test flow nodes in the test item library. Specifically, the test operation module operates the corresponding test item flow according to the model of the equipment to be tested. The test operation module comprises an information acquisition module, an equipment screening module, a list generation module, an acquisition module and an operation module.

The information acquisition module is used for acquiring login information, and in this embodiment, login information of a user is acquired from the comprehensive software client. The device screening module is used for generating a test authority according to the login information; the test permission comprises the types of the equipment to be tested which can be tested, so that different users enjoy the test permission on the equipment to be tested with different types. The list generation module is used for generating a device list according to the test authority. The acquisition module is used for acquiring a selection result of a user in the equipment list.

The operation module is used for testing the equipment to be tested according to the selection result of the user in the equipment list. Specifically, according to the selection result of the user, the test item flow of the equipment to be tested with the corresponding model is called, and the equipment to be tested is tested in sequence according to the sequence of each test flow node in the test item flow.

The operation flow of the operation link is as follows, the user links the IPC (inter-process communication), and opens the testing tool, and the manual operation step can be completed after the IPC type to be tested is manually set. The testing tool automatically pulls the testing process nodes of the selected equipment to be tested from the server, and lights up the corresponding testing project processes in the testing tool. The user opens the automatic test button, and the manual operation link is completed.

After the automatic test button is opened, the test tool enters an intelligent test mode, broadcasts search information of the equipment to be tested in the local area network is published, and the equipment to be tested returns basic configuration information (including basic information such as network configuration information and version number) of the equipment to be tested after receiving the broadcast information. After monitoring the broadcast information returned by the device to be tested, the testing tool adds the device into a cache list, compares whether the IP of the device and the IP of the PC according to the test are in the same network segment (the devices in different network segments cannot perform rtsp mapping and cannot receive UDP private information), and automatically distributes the IP of the same network segment as the PC for the devices. And completing the configuration work before the equipment test.

After the preparation of the distribution network is completed, the test tool starts to automatically test the node operation. If the subcode stream test node is used, the tool can acquire the equipment code stream information through the private protocol module, acquire the subcode stream address from the equipment code stream information, decode the picture and sound of rtsp (real-time streaming protocol) stream audio and video of the subcode stream, and can test at most 9 IPC equipment simultaneously. And other test flow nodes can sequentially acquire information or trigger the functions of hardware functions such as memory cards, horns, lamp panels, IR cards, PIR (passive infrared detectors) identification and the like of the selected equipment to be tested, and after all the test flow nodes are completed, the test is terminated.

The test result generation module comprises a result generation module, a time recording module and a recording storage module.

The result generation module is used for generating a test result according to the test condition of the test operation module; the test condition of the test operation module comprises test data after the operation of each test flow node is finished; the test result comprises test efficiency, product percent of pass, product reject factor proportion and product test efficiency bottleneck.

In this embodiment, the result generating module adopts a BP neural network algorithm model, where the model includes an input layer, a hidden layer, and an output layer, the input layer includes a plurality of units, each unit corresponds to test data of one test flow node, the output layer is a bottleneck of test efficiency, product qualification rate, product reject factor ratio, and product test efficiency, and test data of all test flow nodes is input to the input layer through the BP neural network algorithm model, so as to obtain a test result.

The time recording module is used for acquiring the starting time and the ending time of the test.

The record storage module is used for storing test records, wherein the test records comprise login information, test results, start time and end time of the test. In this embodiment, the record storage module uses a storage bucket.

The extraction module comprises a request acquisition module and a record extraction module. The request acquisition module is used for acquiring a query request of a user; the record extraction module is used for extracting the test record in the record storage module according to the query request of the user.

Therefore, after all automatic flow tests of one device to be tested are completed, the test tool can record the test results, the starting time and the ending time of the device to be tested at each node. When the test tool is opened each time, the test record which is not uploaded can be automatically obtained from the test record storage folder and sent to the server, so that the automatic backup function of the test flow result is realized.

When the statistical information is needed, a user can use a management tool to input appointed staff and appointed date range, and the management tool can pull equipment test records under the condition of limited staff and date range from a server. Through the test result, the starting time and the ending time of each test flow node of test record, a user can obtain the production test efficiency of a certain day and a certain staff, the product percent of pass and the product unqualified factor proportion, the product test efficiency is bottleneck, the improvement scheme is put forward in a targeted way, the benign circulation optimization node operation of the system is promoted, and the optimization improvement of the production efficiency is realized.

As shown in fig. 2, the device further comprises a test tool updating module, wherein the test tool updating module comprises a tool acquisition module, a tool storage module, a personnel information acquisition module, a permission generation module, a list generation module, a tool selection acquisition module and a tool downloading module. In this embodiment, when a user needs to test a device to be tested, the user needs to open a test tool first.

The tool acquisition module is used for acquiring a tool folder; the tool folder comprises a plurality of tool installation packages and version information corresponding to the tool installation packages. In this embodiment, the user selects the tool folder to be uploaded, adds the personnel use authority, sets the update type (test version or formal version), and inputs the update information and the tool description to complete all manual operations. And automatically completing the following operations after uploading the tool folder: and automatically extracting basic information of the test tool, automatically compressing the selected tool folder, and automatically uploading the acquired updated file information and file package to the server.

The tool storage module is used for storing a tool folder and generating a tool update library; in this embodiment, the tool folders are packaged and uploaded to the bucket links.

The personnel information acquisition module is used for acquiring personnel information; specifically, a user logs in an account, and personnel information is obtained through the user's login account. The right generation module is used for generating tool use rights according to the personnel information. The list generation module is used for extracting the tool folders in the tool update library according to the tool use permission and generating a tool use list. The tool selection acquisition module is used for acquiring a selection result of a user in the tool use list.

The update requirement acquisition module is used for acquiring the update requirement of the tool installation package; the update requirements include recommended updates and forced updates.

And the tool downloading module is used for downloading the tool installation package according to the selection result of the user in the tool use list and the updating requirement of the tool installation package. Specifically, after the user manually selects the required test tool, the production integrated software client automatically requests version information and update requirements of the selected test tool from the server. By comparing the sequence of the local test tool version and each tool installation package in the tool folder, whether the current version of the local installation is the latest version, whether the current version is the latest version or not and the latest version number information can be determined. In addition, when the tool installation package is uploaded, the update requirements of recommendation update and forced update are set, so that version recommendation and forced update functions can be realized, if the update requirement of the current test tool is recommendation update, the server returns recommendation update information, the user is not forced to update the tool version, the user is only prompted to recommend an update mark, a download button is opened, the user can normally open the tool, and the download button can be manually clicked to download the installation package; if the update requirement of the current test tool is forced update, the forced update information is returned, the production integrated software client receives the forced update information and then closes the opening button of the test tool (the inside of each tool can also prevent a user from directly opening the test tool through an executable program by a verification function), and after prompting the version outdated information of the test tool, the production integrated software client automatically downloads an installation package for the user and updates the test tool. Thereby realizing an intelligent tool version control function.

In order to solve the possible unstable problem of the update of the test tool version, the production comprehensive software can manually roll back the tool version, so that the fault tolerance of the release of the tool software is improved. After the test tool is opened, the login result of the production integrated software can be automatically transmitted into the opened test tool, so that the information interaction with the server can be performed without secondary login, and the login operation before the use of the test tool is reduced.

Example 2:

embodiment 2 has the same basic principle as embodiment 1, except that the test item generation module in embodiment 2 includes a historical test qualification acquisition module, a node qualification association acquisition module, and a node ordering module;

the historical test qualification acquisition module is used for acquiring historical test qualification data of each test flow node; specifically, after the test of each test flow node is completed, test data will be output, and according to the test data, whether the device to be tested is qualified in the test flow node can be judged.

The node qualified correlation acquisition module is used for acquiring the correlation between the historical test qualified data of each test flow node; specifically, on the premise that any test flow node is failed, the ratio of failed other test flow nodes is calculated, so that the relevance of the qualified data among the test flow nodes is calculated.

The node ordering module is used for ordering the test flow nodes according to the historical test qualified data of each test flow node and the relevance between the historical test qualified data of each test flow node. Specifically, the test flow nodes are initially ordered according to the historical test qualified data of each test flow node, and then the initial ordering is finely adjusted according to the relevance among the historical test qualified data of each test flow node. In this embodiment, the preliminary ranking is performed according to the qualification rate of the history test from low to high, and then the ranking of the test flow nodes with the relevance higher than the relevance threshold value with the first three test flow nodes in the preliminary ranking is increased by one bit to obtain the final ranking result.

And the test operation module is used for counting the qualification condition corresponding to the operated test flow nodes when each test flow node is operated in sequence, calculating the qualification percentage of the equipment to be tested in the current test flow node after the operated test flow node exceeds one third, terminating the operation of the test flow node when the qualification percentage is lower than a percentage threshold value, and sending a prompt to a user. Therefore, the method can effectively avoid the condition that the number of test flow nodes is too small, the calculated data quantity is too small, the calculated result is too one-sided, and the product test can be finished under the condition that the product qualification is too bad, so that the test efficiency is improved.

The foregoing is merely exemplary of the present invention, and the specific structures and features well known in the art are not described in any way herein, so that those skilled in the art will be able to ascertain all prior art in the field, and will not be able to ascertain any prior art to which this invention pertains, without the general knowledge of the skilled person in the field, before the application date or the priority date, to practice the present invention, with the ability of these skilled persons to perfect and practice this invention, with the help of the teachings of this application, with some typical known structures or methods not being the obstacle to the practice of this application by those skilled in the art. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present invention, and these should also be considered as the scope of the present invention, which does not affect the effect of the implementation of the present invention and the utility of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (10)

1. An intelligent production test system of security monitoring camera, its characterized in that: the system comprises a node acquisition module, a test item generation module and a test operation module;

the node acquisition module is used for acquiring the test flow nodes input by the user and generating a flow node library;

the test item generation module is used for sequencing the test flow nodes in the flow node library and generating a test item library;

the test operation module is used for testing the equipment to be tested according to the sequence of the test flow nodes in the test item library;

the test item generation module comprises a historical test qualification acquisition module, a node qualification association acquisition module and a node ordering module;

the historical test qualification acquisition module is used for acquiring historical test qualification data of each test flow node;

the node qualified correlation acquisition module is used for acquiring the correlation between the historical test qualified data of each test flow node;

the node ordering module is used for ordering the test flow nodes according to the historical test qualified data of each test flow node and the relevance among the historical test qualified data of each test flow node;

the test operation module is used for:

linking inter-process communication (IPC), opening a testing tool, and setting an IPC type to be tested; the testing tool automatically pulls the testing process node of the selected equipment to be tested from the server, and lights the corresponding testing project process in the testing tool;

opening an automatic test button, enabling a test tool to enter an intelligent test mode, adding the equipment into a cache list after the test tool monitors broadcast information returned by the equipment to be tested, comparing whether the IP of the equipment and the IP of the PC according to the test are in the same network segment, automatically distributing the IP of the same network segment as the PC for the equipment, and completing configuration work before the equipment test;

after the preparation of the distribution network is completed, the testing tool starts to automatically test the node operation; the test tool obtains equipment code stream information through the private protocol module, obtains a subcode stream address from the equipment code stream information, and decodes a real-time streaming protocol stream audio and video of the subcode stream to make a picture and make a sound;

and when each test flow node is operated in sequence, counting the qualification condition corresponding to the operated test flow node, after the operated test flow node exceeds one third, calculating the qualification percent of the equipment to be tested in the current test flow node, and when the qualification percent is lower than a percent threshold value, terminating the operation of the test flow node and sending a prompt to a user.

2. The intelligent production test system of the security monitoring camera according to claim 1, wherein: the test item generation module comprises an equipment model acquisition module and a node ordering module;

the equipment model acquisition module is used for acquiring the model of equipment to be tested;

the node ordering module is used for ordering the nodes of the test flow according to the model of the equipment to be tested and generating a test item library; the test item library comprises the model number of the equipment to be tested and the corresponding test item flow;

the test operation module is used for operating the corresponding test item flow according to the model of the equipment to be tested, and testing the equipment to be tested.

3. The intelligent production test system of the security monitoring camera according to claim 2, wherein: the test operation module comprises an information acquisition module, an equipment screening module and a list generation module;

the information acquisition module is used for acquiring login information;

the device screening module is used for generating a test authority according to the login information; the test authority comprises the model of the equipment to be tested;

the list generation module is used for generating a device list according to the test authority.

4. The intelligent production test system for the security monitoring camera according to claim 3, wherein: the test operation module further comprises an acquisition module and an operation module;

the acquisition module is used for acquiring a selection result of a user in the equipment list;

and the operation module is used for testing the equipment to be tested according to the selection result of the user in the equipment list.

5. The intelligent production test system for the security monitoring camera according to claim 3, wherein: the system also comprises a test result generation module, wherein the test result generation module comprises a result generation module, a time recording module and a recording storage module;

the result generation module is used for generating a test result according to the test condition of the test operation module;

the time recording module is used for acquiring the starting time and the ending time of the test;

the record storage module is used for storing test records, wherein the test records comprise login information, test results, start time and end time of the test.

6. The intelligent production test system of the security monitoring camera according to claim 5, wherein: the system also comprises an extraction module, wherein the extraction module comprises a request acquisition module and a record extraction module;

the request acquisition module is used for acquiring a query request of a user;

the record extracting module is used for extracting the test record in the record storage module according to the query request of the user.

7. The intelligent production test system of the security monitoring camera according to claim 1, wherein: the system comprises a testing tool updating module, a user interface module and a user interface module, wherein the testing tool updating module comprises a tool acquisition module, a tool storage module, a personnel information acquisition module, a permission generation module and a list generation module;

the tool acquisition module is used for acquiring a tool folder; the tool folder comprises a plurality of tool installation packages;

the tool storage module is used for storing the tool folder and generating a tool update library;

the personnel information acquisition module is used for acquiring personnel information;

the right generation module is used for generating tool use rights according to the personnel information;

the list generation module is used for extracting the tool folders in the tool update library according to the tool use permission and generating a tool use list.

8. The intelligent production test system of the security monitoring camera according to claim 7, wherein: the tool folder also comprises version information corresponding to the tool installation package.

9. The intelligent production test system of the security monitoring camera according to claim 7, wherein: the test tool updating module further comprises a tool selection acquisition module and a tool downloading module;

the tool selection acquisition module is used for acquiring a selection result of a user in a tool use list;

and the tool downloading module is used for downloading the tool installation package according to the selection result of the user in the tool use list.

10. The intelligent production test system of the security monitoring camera according to claim 9, wherein: the test tool updating module further comprises an updating requirement acquisition module;

the update requirement acquisition module is used for acquiring the update requirement of the tool installation package; the update requirements include recommended updates and forced updates;

and the tool downloading module is used for downloading the tool installation package according to the updating requirement of the tool installation package.