CN108900242B - WDM product testing method, device, system, computer equipment and storage medium - Google Patents

Abstract

The invention relates to a WDM product time division multiplexing test method, a device, a system, computer equipment and a storage medium, wherein the method comprises the steps of receiving product test requests sent by a plurality of test terminals, establishing priorities for the received product test requests to obtain test request tasks, controlling the test equipment to test corresponding products to be tested according to the product test request with the highest priority in the test request tasks to obtain test results, judging product specifications of the test results obtained by testing, obtaining judgment results and outputting the judgment results. The test equipment is controlled to test the corresponding products to be tested according to the product test request with the highest priority in the established test request task, and finally the product specification judgment is carried out on the obtained test result, so that the same test equipment can test the products to be tested corresponding to the product test requests sent by the plurality of test terminals, the time division multiplexing of the test equipment is realized, and the utilization rate of the test equipment is improved.

Description

WDM product testing method, device, system, computer equipment and storage medium

Technical Field

The present application relates to the field of product testing technologies, and in particular, to a method, an apparatus, a system, a computer device, and a storage medium for testing time division multiplexing of a WDM product.

Background

The WDM (wavelength Division multiplexing) technology is used for simultaneously transmitting a plurality of wavelengths in one optical fiber, and WDM products are core passive optical devices for realizing the separation and synthesis of light wave wavelengths, and are widely applied to the fields of telecommunication operators, broadcasting and television, electric power, information safety and the like.

In a traditional WDM product test system framework, a single product test station needs to be configured with expensive test equipment such as a dedicated tunable light source and a spectrum analyzer, and in addition, an optical fiber cutter and an optical fiber fusion splicer are needed to be used for carrying out test auxiliary work in order to enable the light source to be connected into a channel to be tested. The testing process of WDM products generally comprises the steps of feeding, fiber stripping, straightening, welding, wiring, testing, blanking and the like, and the ratio of the time used for product testing to the time used for auxiliary testing is about 1 through analysis: 4, through analysis of the test flow, the expensive test equipment is found to be in an invalid state in most of time, and the utilization rate of the equipment is low.

Disclosure of Invention

In view of the above, there is a need to provide a WDM product time division multiplexing test method, apparatus, system, computer device and storage medium that can improve device utilization.

A WDM product testing method, the method comprising:

receiving product test requests sent by a plurality of test terminals, and establishing a priority for the received product test requests to obtain a test request task;

controlling the test equipment to test the corresponding product to be tested according to the product test request with the highest priority in the test request task to obtain a test result;

and judging the product specification of the test result obtained by the test to obtain a judgment result and outputting the judgment result.

A WDM product testing apparatus, the apparatus comprising:

the receiving module is used for receiving the product test requests sent by the plurality of test terminals and establishing priorities for the received product test requests to obtain test request tasks;

the test module is used for controlling the test equipment to test the corresponding product to be tested according to the product test request with the highest priority in the test request task to obtain a test result;

and the judging module is used for judging the product specification of the test result obtained by the test, obtaining the judging result and outputting the judging result.

A WDM product test system comprises a plurality of test terminals, test equipment and control terminals, wherein the plurality of test terminals are connected with the control terminals, the control terminals are connected with the test equipment,

the control terminal is used for receiving the product test requests sent by the plurality of test terminals, establishing priorities for the received product test requests to obtain test request tasks, controlling the test equipment to test the corresponding products to be tested according to the product test request with the highest priority in the test request tasks to obtain test results, and judging the product specifications of the test results obtained by testing to obtain judgment results and outputting the judgment results;

the plurality of test terminals are used for sending product test requests to the control terminal;

the test equipment is used for testing the corresponding product to be tested according to the control of the control terminal and sending the obtained test result to the control terminal.

A computer device comprising a processor and a memory, said memory storing a computer program, characterized in that the computer program, when executed by the processor, causes the processor to carry out the steps of the above-mentioned method.

A computer-readable storage medium, in which a computer program is stored which, when being executed by a processor, causes the processor to carry out the steps of the above-mentioned method.

The WDM product time division multiplexing test method, the device, the system, the computer equipment and the storage medium receive product test requests sent by a plurality of test terminals, establish priority on the received product test requests to obtain test request tasks, control the test equipment to test corresponding products to be tested according to the product test request with the highest priority in the test request tasks to obtain test results, judge product specifications of the test results obtained by testing, obtain judgment results and output the judgment results. The test request tasks are obtained by establishing priorities for the product test requests sent by the plurality of test terminals, the test equipment is controlled to test the corresponding products to be tested according to the product test request with the highest priority in the test request tasks, and finally the product specification judgment is carried out on the obtained test result, so that the products to be tested corresponding to the product test requests sent by the plurality of test terminals can be tested through the same test equipment, the time division multiplexing of the test equipment is realized, and the utilization rate of the test equipment is improved.

Drawings

FIG. 1 is a schematic flow chart of a WDM product time division multiplexing test method in one embodiment;

FIG. 2 is a schematic flow chart of a WDM product time division multiplexing test method in another embodiment;

FIG. 3 is a flow chart of a WDM product time division multiplexing test method in yet another embodiment;

FIG. 4 is a schematic flow chart of a WDM product time division multiplexing test method in yet another embodiment;

FIG. 5 is a flow chart of a WDM product time division multiplexing test method in another embodiment;

FIG. 6 is a flow chart of a WDM product time division multiplexing test method in yet another embodiment;

FIG. 7 is a block diagram of a WDM product TDM test apparatus in one embodiment;

FIG. 8 is a block diagram of a WDM product time division multiplexing test apparatus in another embodiment;

FIG. 9 is a block diagram showing a time division multiplexing test apparatus for WDM products in still another embodiment;

FIG. 10 is a block diagram showing a time division multiplexing test apparatus for WDM products in still another embodiment;

FIG. 11 is a block diagram showing the structure of a WDM product time division multiplexing test apparatus in another embodiment;

FIG. 12 is a block diagram of an embodiment of a WDM product time division multiplexing test system;

FIG. 13 is a block diagram of a WDM product time division multiplexing test system in another embodiment;

FIG. 14 is a data interface diagram of test data query analysis software in one embodiment;

FIG. 15 is a graphical interface diagram of the test data query analysis software in one embodiment;

FIG. 16 is a block diagram of a WDM product time division multiplexing test system in yet another embodiment;

FIG. 17 is a block diagram of a WDM product time division multiplexing test system in yet another embodiment;

FIG. 18 is an interface diagram of client test software in one embodiment;

FIG. 19 is a diagram of a server-side test software interface in one embodiment;

FIG. 20 is an interface diagram of specification configuration software in one embodiment;

FIG. 21 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are illustrated in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

In one embodiment, as shown in fig. 1, a WDM product testing method is provided that includes step S400, step S600, and step S700.

Step S400, receiving product test requests sent by a plurality of test terminals, and establishing priorities for the received product test requests to obtain test request tasks.

When the test terminal needs to perform product test, a product test request is sent to the control terminal, the specific type of the control terminal is not unique, a certain test terminal can be used as the control terminal, at the moment, the control terminal receives the product test request sent by the test terminal, and a corresponding product test request can be generated according to a test instruction input by a tester. Further, a server having a communication function with other test terminals and test equipment may be used as the control terminal. Taking the test terminal as the control terminal as an example, the priority is established for all the received product test requests and the generated product test requests to obtain the test request task. It can be understood that the criteria for establishing the priority is not unique, and may be establishing the priority according to the sending time of the product test request, or establishing the priority according to the request type of the product test request sent by the test terminal, or directly establishing the priority according to the sequence of all the product test requests in the control terminal, and the specific priority establishing criteria may be set according to the actual test environment and the test requirements. After establishing priorities for all received product test requests, a test request task can be obtained, and when the test equipment is controlled to test, the test is directly carried out according to the obtained test request task. It is to be understood that when the specific priority establishment criteria are not set, the product test requests may be randomly ordered, and the ordered order may be used as the priority order.

And S600, controlling the test equipment to test the corresponding product to be tested according to the product test request with the highest priority in the test request task to obtain a test result.

After establishing priorities for all product test requests according to the priority establishing standard to obtain test request tasks, controlling test equipment to test corresponding products to be tested according to the product test request with the highest priority in the test request tasks, wherein the definition of the highest priority in the test request tasks is not unique because the standards for establishing the priorities are different, and the product test request with the highest priority in the test request tasks can be the product test request with the earliest sending time in the test request tasks or the product test request in the test request tasks needs to be tested in priority according to the priority establishing standard. After a test task cycle is completed, the control terminal starts to read and execute the remaining product test requests in the test request task, that is, the product test request with the highest priority is read from the remaining product test requests, and the test equipment is controlled to test the corresponding products to be tested.

And S700, judging the product specification of the test result obtained by the test, obtaining a judgment result and outputting the judgment result.

After the test equipment tests the product to be tested, the control terminal reads the test result obtained by the test equipment, then the control terminal judges the product specification of the read test result, judges whether the specification of the product to be tested is qualified or unqualified, and outputs the obtained judgment result.

The WDM product time division multiplexing test method receives product test requests sent by a plurality of test terminals, establishes priority for the received product test requests to obtain test request tasks, controls test equipment to test corresponding products to be tested according to the product test request with the highest priority in the test request tasks to obtain test results, judges product specifications of the test results obtained through testing, obtains judgment results and outputs the judgment results. The test request tasks are obtained by establishing priorities for all product test requests, then the test equipment is controlled to test the corresponding products to be tested according to the product test request with the highest priority in the test request tasks, and finally the product specification judgment is carried out on the obtained test result, so that the products to be tested corresponding to the product test requests sent by a plurality of test terminals can be tested through the same test equipment, the time division multiplexing of the test equipment is realized, and the utilization rate of the test equipment is improved.

In one embodiment, as shown in fig. 2, after step S400 and before step S600, step S500 is further included.

And S500, reading the test specification and the test parameter judgment condition of the corresponding product to be tested in the preset database according to the product test request with the highest priority in the test request task.

Because the product test requests sent by each test terminal are different, and the products to be tested corresponding to the product test requests are different, when the test equipment is controlled to test the corresponding products to be tested, the products to be tested need to be pertinently tested and judged according to the judgment standard corresponding to the tested products, therefore, before the test equipment is controlled to test the products to be tested, the control terminal reads the test specification and the test parameter judgment condition of the corresponding products to be tested in the preset database according to the product test request with the highest priority in the test request task, and the preset database is obtained by configuring the acquired setting parameters of the products to be tested.

Correspondingly, as shown in fig. 2, step S600 includes step S620.

Step S620, according to the product test request with the highest priority in the test request task, controlling the test equipment to test the product to be tested according to the corresponding test specification and the test parameter judgment condition to obtain a test result.

The test specification and the test exposition judgment conditions of each product to be tested are possibly different, the test specification and the test parameter judgment conditions of the corresponding product to be tested in the preset database are read by the control terminal according to the product test request with the highest priority in the test request task, the read test specification and test parameter judgment conditions are sent to the test equipment, and the test equipment tests the corresponding product to be tested according to the received test specification and test parameter judgment conditions to obtain a test result. And the corresponding product to be tested is subjected to the targeted test through the corresponding test specification and the test parameter judgment condition, so that the accuracy and the reliability of the product test can be improved.

In one embodiment, as shown in FIG. 3, step S400 includes step S420.

Step S420, receiving product test requests sent by a plurality of test terminals, and establishing priorities for the received product test requests according to preset task types or/and task requirements to obtain test request tasks.

The criteria for establishing the priority are not unique, and can be established according to a preset task type or/and a task requirement, specifically, when a specific priority establishment standard is set, the priority is established for a received product test request according to the specific priority establishment standard, the preset task type comprises a queue, a stack and the like, when the preset task type is the queue, a first-in first-out principle is followed, and when the preset task type is the stack, a last-in first-out principle is followed; the task requirements include product test requests requiring a priority test or requiring a final test, and it is understood that when a specific priority establishing standard is not set, the product test requests may be randomly ordered, and the ordered order is taken as a priority order.

In one embodiment, as shown in fig. 4, step S620 includes step S622 and step S624.

In step S622, the communication address and the test port of the test device are obtained.

The communication address and the test port of the test equipment can be configured at the control terminal, the test terminal to be tested can be determined according to the product test request with the highest priority in the test request task, the communication reliability of the test equipment and the test terminal can be ensured by configuring the corresponding communication address and the corresponding test port at the control terminal, the control terminal can also display the local IP address and the test terminal IP address using the test equipment resources at the time division, an operator can directly inquire which test terminal the test equipment resources are allocated to at the control terminal, and the communication reliability of the test equipment and the test terminal is improved.

Step S624, establishing communication between the test equipment and the test terminal corresponding to the product test request with the highest priority in the test request task according to the communication address and the test port, so that the test equipment tests the product to be tested on the corresponding test terminal according to the test specification and the test parameter determination condition, and obtains a test result.

After the corresponding test specification and the corresponding test port are obtained, communication between the test equipment and the corresponding test terminal is established according to the communication address and the test port, the control terminal sends the test specification and the test parameter judgment condition corresponding to the product to be tested to the test equipment, and the test equipment tests the product to be tested on the corresponding test terminal according to the received test specification and test parameter judgment condition to obtain a test result.

In one embodiment, as shown in FIG. 5, step S700 includes step S720 and step S740.

And step S720, judging the product specification of the test result obtained by the test according to the test parameter judgment condition to obtain a judgment result.

The method comprises the steps of reading a test parameter judgment condition from a preset database, and performing targeted specification judgment on corresponding products to be tested according to the test parameter judgment condition read from the preset database, wherein the test parameter judgment condition comprises product parameters, bandwidth, loss and the like, the product parameters comprise target center wavelength, wavelength deviation and channel interval information of the products, the bandwidth is corresponding indexes of the tested products under 3 different amplitude bandwidths, the loss comprises parameter indexes of insertion loss, flatness, adjacent channel isolation, non-adjacent channel isolation and the like of a product projection end and a reflection end, comparing test results obtained by testing with all parameters of the test parameter judgment condition, and judging whether the test results are qualified or unqualified.

Step S740, displaying the judgment result, and/or saving the judgment result to a preset database.

The judgment result obtained by judging the product specification of the test result obtained by testing according to the test parameter judgment condition is displayed on a control terminal interface, an operator can directly check the test data and the judgment result of the tested product so as to facilitate the operator to carry out the next operation, the judgment result can be stored in a preset database, the real-time and visualization of the test parameter is realized, the operator can timely react to the abnormal production line through the recorded data, and the trend distribution and waveform data file display can be carried out on the stored data, so that a convenient method is provided for engineering analysis.

In one embodiment, as shown in fig. 6, before step S400, step S100 to step S300 are further included.

And S100, collecting the product model of the product to be tested and corresponding setting parameters.

An operator inputs the model of a product to be tested at a control terminal or any test terminal according to a product naming rule, and can directly set product parameters at the control terminal or any test terminal, specifically, the set parameters comprise scanning setting and test temperature setting, wherein the scanning setting comprises scanning starting wavelength, ending wavelength and scanning step length according to the product setting, the test temperature is temperature information for setting product test, and a plurality of temperature points and corresponding parameter temperature drifts can be set.

And S200, configuring the test specification and the test parameter judgment condition of the corresponding product to be tested according to the product model and the setting parameters.

If an operator sets the product model and the setting parameters through the test terminal, the test terminal needs to send the set product model and the setting parameters to the control terminal for configuration; if the operator sets the product model and the setting parameters through the control terminal, the control terminal directly acquires and configures the product model and the setting parameters set by the operator, the test specification and the test parameter judgment condition of the product to be tested are configured by acquiring the product model and the setting parameters set by the operator, and the test equipment can test according to the test specification and the test parameter judgment condition of the corresponding product when testing, so that the test accuracy is improved.

And step S300, performing correlation storage on the test specification and the test parameter judgment condition obtained by configuration and the product model of the corresponding product to be tested to obtain a preset database.

And performing correlation storage on the configured test specification and test parameter judgment condition and a product signal corresponding to a product to be tested to obtain a preset database, and when a certain product to be tested needs to be tested, directly reading the corresponding test specification and test parameter judgment condition from the stored correlation data to perform targeted test and judgment.

In one embodiment, as shown in fig. 7, a WDM product testing apparatus is provided that includes a receiving module 40, a testing module 60, and a determining module 70.

The receiving module 40 is configured to receive product test requests sent by multiple test terminals, and establish a priority for the received product test requests to obtain a test request task. When the test terminal needs to perform product test, a product test request is sent to the control terminal, the specific type of the control terminal is not unique, a certain test terminal can be used as the control terminal, and at the moment, the control terminal receives the product test request sent by the test terminal and generates a corresponding product test request according to the test instruction. Further, a server having a communication function with other test terminals and test equipment may be used as the control terminal. It can be understood that the criteria for establishing the priority is not unique, and may be establishing the priority according to the time when the test terminal sends the product test request, or establishing the priority according to the request type of the product test request sent by the test terminal, or directly establishing the priority according to the order of the received product test request in the control terminal, and the specific priority establishment criteria may be set according to the actual test environment and the test requirements.

And the test module 60 is configured to control the test equipment to test the corresponding product to be tested according to the product test request with the highest priority in the test request task, so as to obtain a test result. After establishing priorities for all received product test requests according to the priority establishing standard to obtain test request tasks, controlling test equipment to test corresponding products to be tested according to the product test request with the highest priority in the test request tasks, wherein the standards for establishing the priorities are different, so that the definition of the highest priority in the test request tasks is not unique, and after one test task cycle is completed, the control terminal starts to read and execute the remaining product test requests in the test request tasks, namely the product test request with the highest priority is read in the remaining product test requests, and the test equipment is controlled to test the corresponding products to be tested.

And the judging module 70 is configured to perform product specification judgment on the test result obtained through the test, obtain a judgment result, and output the judgment result. After the test equipment tests the product to be tested, the control terminal reads the test result obtained by the test equipment, then the control terminal judges the product specification of the read test result, judges whether the specification of the product to be tested is qualified or unqualified, and outputs the obtained judgment result.

According to the WDM product time division multiplexing test device, the test request task is obtained by establishing the priority for the product test requests sent by the plurality of test terminals, the test equipment is controlled to test the corresponding products to be tested according to the product test request with the highest priority in the test request task, and finally the product specification judgment is carried out on the obtained test result, so that the test of the products to be tested corresponding to the product test requests sent by the plurality of test terminals can be realized through the same test equipment, the time division multiplexing of the test equipment is realized, and the utilization rate of the test equipment is improved.

In one embodiment, as shown in fig. 8, the WDM product time division multiplexing test apparatus further includes a reading module 50.

The reading module 50 is configured to receive the product test requests sent by the multiple test terminals through the receiving module 40, after establishing priorities for the received product test requests to obtain test request tasks, control the test equipment to test the corresponding products to be tested according to the product test request with the highest priority in the test request tasks through the test module 60, and read the test specifications and test parameter determination conditions of the corresponding products to be tested in the preset database according to the product test request with the highest priority in the test request tasks before obtaining test results. Because the product test requests sent by each test terminal are different, and the products to be tested corresponding to the product test requests are different, when the test equipment is controlled to test the corresponding products to be tested, the products to be tested need to be pertinently tested and judged according to the judgment standard corresponding to the tested products, therefore, before the test equipment is controlled to test the products to be tested, the control terminal reads the test specification and the test parameter judgment condition of the corresponding products to be tested in the preset database according to the product test request with the highest priority in the test request task, and the preset database is obtained by configuring the acquired setting parameters of the products to be tested.

In this embodiment, the test module 60 is configured to control the test equipment to test the product to be tested according to the corresponding test specification and the test parameter determination condition according to the product test request with the highest priority in the test request task, so as to obtain a test result. The test specification and the test exposition judgment conditions of each product to be tested are possibly different, the test specification and the test parameter judgment conditions of the corresponding product to be tested in the preset database are read by the control terminal according to the product test request with the highest priority in the test request task, the read test specification and test parameter judgment conditions are sent to the test equipment, and the test equipment tests the corresponding product to be tested according to the received test specification and test parameter judgment conditions to obtain a test result.

In one embodiment, as shown in FIG. 9, the receiving module 40 includes a establishing module 42.

The establishing module 42 is configured to receive product test requests sent by multiple test terminals, and establish a priority for the received product test requests according to a preset task type or/and a task requirement to obtain a test request task. The criteria for establishing the priority is not unique, and may be established according to a preset task type or/and a task requirement, specifically, when a specific priority establishment criterion is set, the priority is established for the received product test request according to the specific priority establishment criterion, the preset task type includes a queue, a stack, and the like, the task requirement includes a product test request requiring a priority test or requiring a last test, and it can be understood that when the specific priority establishment criterion is not set, the product test requests may also be randomly ordered, and the ordered order is taken as the priority.

In one embodiment, as shown in FIG. 9, testing module 60 includes an acquisition module 62 and a communication establishment module 64.

And an obtaining module 62, configured to obtain a communication address and a test port of the test device. The communication address and the test port of the test equipment can be configured at the control terminal, the test terminal to be tested can be determined according to the product test request with the highest priority in the test request task, and the communication reliability between the test equipment and the test terminal can be ensured by configuring the corresponding communication address and the corresponding test port at the control terminal.

And the communication establishing module 64 is configured to establish communication between the test equipment and the test terminal corresponding to the product test request with the highest priority in the test request task according to the communication address and the test port, so that the test equipment tests a product to be tested on the corresponding test terminal according to the test specification and the test parameter determination condition to obtain a test result. After the corresponding test specification and the corresponding test port are obtained, communication between the test equipment and the corresponding test terminal is established according to the communication address and the test port, the control terminal sends the test specification and the test parameter judgment condition corresponding to the product to be tested to the test equipment, and the test equipment tests the product to be tested on the corresponding test terminal according to the received test specification and test parameter judgment condition to obtain a test result.

In one embodiment, as shown in FIG. 10, the determination module 70 includes a determination unit 72 and a display holding unit 74.

The judging unit 72 is configured to perform product specification judgment on the test result obtained by the test according to the test parameter judgment condition to obtain a judgment result. Because the judgment standard of each product to be tested is inconsistent, the corresponding product to be tested is subjected to targeted specification judgment according to the test parameter judgment condition read from the preset database, and specifically, the test parameter judgment condition comprises a product parameter, a bandwidth, a loss and the like.

The display and storage unit 74 is used for displaying the judgment result and/or storing the judgment result into a preset database. And displaying a judgment result obtained by judging the product specification of the test result obtained by testing according to the test parameter judgment condition on a control terminal interface, so that an operator can directly check the test data and the judgment result of the tested product, the operator can conveniently perform the next operation, and the judgment result can be stored in a preset database, thereby realizing the real-time and visualization of the test parameters.

In one embodiment, as shown in fig. 11, the WDM product testing apparatus further includes an acquisition module 10, a configuration module 20, and a preservation module 30.

The acquisition module 10 is configured to receive the product test requests sent by the multiple test terminals through the receiving module 40, establish a priority for the received product test requests, and acquire the product models and the corresponding setting parameters of the products to be tested before the test request task. An operator inputs the model of the product to be tested at the control terminal or any test terminal according to the product naming rule, and can directly set the product parameters at the control terminal or any test terminal.

And the configuration module 20 is configured to configure the test specification and the test parameter determination condition of the corresponding product to be tested according to the product model and the setting parameters. If an operator sets the product model and the setting parameters through the test terminal, the test terminal needs to send the set product model and the setting parameters to the control terminal for configuration; if the operator sets the product model and the setting parameters through the control terminal, the control terminal directly acquires and configures the product model and the setting parameters set by the operator.

And the storage module 30 is configured to associate and store the configured test specification and test parameter determination condition with the product model of the corresponding product to be tested, so as to obtain a preset database. And performing correlation storage on the configured test specification and test parameter judgment condition and a product signal corresponding to a product to be tested to obtain a preset database, and when a certain product to be tested needs to be tested, directly reading the corresponding test specification and test parameter judgment condition from the stored correlation data to perform targeted test and judgment.

In one embodiment, as shown in fig. 12, there is provided a WDM product testing system including a plurality of test terminals 100, a test device 200, and a control terminal 300, the plurality of test terminals 100 being connected to the control terminal 300, the control terminal 300 being connected to the test device 200. The control terminal 300 is configured to receive product test requests sent by the multiple test terminals, establish a priority for the received product test requests to obtain a test request task, control the test equipment to test a corresponding product to be tested according to a product test request with a highest priority in the test request task to obtain a test result, and perform product specification judgment on the test result obtained through the test to obtain a judgment result and output the judgment result; the plurality of test terminals 100 are used for sending product test requests to the control terminal 300; the test equipment 100 is configured to test a corresponding product to be tested according to control of the control terminal 300, and send an obtained test result to the control terminal 300.

The specific type of the control terminal 300 is not unique, and the test terminal 100 may be used as the control terminal, and at this time, the control terminal 300 receives the product test request sent by the test terminal 100, and may also generate a corresponding product test request according to the test instruction input by the tester. Further, a server having a communication function with other test terminals and test equipment may be used as the control terminal. In this embodiment, as shown in fig. 13, a plurality of test terminals 100 and a control terminal 300 establish a local area network for communication. Also taking test terminals as the control terminal 300 as an example, a small lan is obtained by establishing all test terminals through the switch 400 and RJ45 cables.

In an embodiment, as shown in fig. 13, the WDM product testing system further includes a database server 500, where the database server 500 is configured to store the test specification and the test parameter determination condition corresponding to each product, the test result obtained by the test device 200, and the determination result of determining the product specification of the test result. Further, the database server 500 is installed with test data query analysis software, as shown in fig. 14, and displays an interface diagram for data of the test data query analysis software, as shown in fig. 15, displays an interface diagram for a curve of the test data query analysis software, and provides a convenient method for data tracing and engineering analysis by visualizing and real-time displaying test parameters, such as trend distribution and waveform data file display, through the test data query analysis software.

In another embodiment, the control terminal 300 is further provided with a database, and the database is used for storing the test specification and the test parameter judgment condition corresponding to each product, the test result obtained by the test of the test equipment 200, and the judgment result of the product specification judgment on the test result. Further, the control terminal 300 is installed with test data query analysis software, as shown in fig. 14, and displays an interface diagram for data of the test data query analysis software, as shown in fig. 15, displays an interface diagram for a curve of the test data query analysis software, and provides a convenient method for data tracing and engineering analysis by visualizing and real-time displaying test parameters, such as trend distribution and waveform data file display, through the test data query analysis software.

In one embodiment, as shown in fig. 16, the testing apparatus 200 includes a tunable light source 220, an optical power meter 240, a first optical switch 260 and a second optical switch 280, the control terminal 300 is connected to the tunable light source 220 and the optical power meter 240 via a GPIB (General Purpose Interface Bus), and the control terminal 300 is connected to the first optical switch 260 and the second optical switch 280 via an RS 232. In one embodiment, as shown in fig. 17, laser emitted from the tunable light source 220 is switched in optical paths at a plurality of test terminals 100 through the first optical switch 260, and is connected to corresponding products to be tested, and the light is transmitted to the optical power meter 240 through the second optical switch 280, and most performance parameters are calculated by testing power values before and after the products through the optical power meter 240.

In one embodiment, the test terminal 100 is installed with client test software, the software interface is as shown in fig. 18, an operator can send a product test request to the control terminal 300 through the client test software to execute a test task, the control terminal 300 is installed with server test software, the software interface is as shown in fig. 19, and the server test software can automatically invoke corresponding test specifications and test parameter determination conditions in the preset database according to the product model. In an embodiment, the control terminal 300 is further installed with a data socket server, in this embodiment, the data socket is used as a communication mode of network programming, and before the client software accesses the data socket, the server-side test software and the data socket server need to be started first.

In one embodiment, specification configuration software is further installed in the local area network, the specification configuration software may be installed in any one of the test terminal 100 or the control terminal 300, the specification configuration software configures test specifications and test parameter determination conditions according to characteristics of WDM products, each product model needs to be configured and stored in a database, and a setting interface of the specification configuration software is as shown in fig. 20.

In one embodiment, a computer device is provided, the computer device may be a server, and the internal structure thereof may be as shown in fig. 21. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer equipment is used for storing the test specification and the test parameter judgment condition obtained by configuration, the test data obtained by testing the test equipment and the judgment result obtained by judging the product specification by the control terminal. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a vending method.

Those skilled in the art will appreciate that the architecture shown in fig. 21 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided comprising a processor and a memory, the memory storing a computer program, wherein the computer program, when executed by the processor, causes the processor to perform the steps of: receiving product test requests sent by a plurality of test terminals, and establishing a priority for the received product test requests to obtain a test request task; controlling the test equipment to test the corresponding product to be tested according to the product test request with the highest priority in the test request task to obtain a test result; and judging the product specification of the test result obtained by the test to obtain a judgment result and outputting the judgment result.

In one embodiment, the processor, when executing the computer program, further performs the steps of: and reading the test specification and the test parameter judgment condition of the corresponding product to be tested in the preset database according to the product test request with the highest priority in the test request task.

In one embodiment, the processor, when executing the computer program, further performs the steps of: and controlling the test equipment to test the product to be tested according to the corresponding test specification and the test parameter judgment condition according to the product test request with the highest priority in the test request task to obtain a test result.

In one embodiment, the processor, when executing the computer program, further performs the steps of: receiving product test requests sent by a plurality of test terminals, and establishing priorities for the received product test requests according to preset task types or/and task requirements to obtain test request tasks.

In one embodiment, the processor, when executing the computer program, further performs the steps of: acquiring a communication address and a test port of test equipment; and establishing communication between the test equipment and the test terminal corresponding to the product test request with the highest priority in the test request task according to the communication address and the test port, so that the test equipment tests the product to be tested on the corresponding test terminal according to the test specification and the test parameter judgment condition to obtain a test result.

In one embodiment, the processor, when executing the computer program, further performs the steps of: judging the product specification of the test result obtained by the test according to the test parameter judgment condition to obtain a judgment result; and displaying the judgment result and/or storing the judgment result in a preset database.

In one embodiment, the processor, when executing the computer program, further performs the steps of: collecting the product model of a product to be tested and corresponding setting parameters; configuring test specifications and test parameter judgment conditions of the corresponding product to be tested according to the product model and the setting parameters; and performing correlation storage on the test specification and the test parameter judgment condition obtained by configuration and the product model of the corresponding product to be tested to obtain a preset database.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of: receiving product test requests sent by a plurality of test terminals, and establishing a priority for the received product test requests to obtain a test request task; controlling the test equipment to test the corresponding product to be tested according to the product test request with the highest priority in the test request task to obtain a test result; and judging the product specification of the test result obtained by the test to obtain a judgment result and outputting the judgment result.

In one embodiment, the computer program when executed by the processor further performs the steps of: and reading the test specification and the test parameter judgment condition of the corresponding product to be tested in the preset database according to the product test request with the highest priority in the test request task.

In one embodiment, the computer program when executed by the processor further performs the steps of: and controlling the test equipment to test the product to be tested according to the corresponding test specification and the test parameter judgment condition according to the product test request with the highest priority in the test request task to obtain a test result.

In one embodiment, the computer program when executed by the processor further performs the steps of: receiving product test requests sent by a plurality of test terminals, and establishing priorities for the received product test requests according to preset task types or/and task requirements to obtain test request tasks.

In one embodiment, the computer program when executed by the processor further performs the steps of: acquiring a communication address and a test port of test equipment; and establishing communication between the test equipment and the test terminal corresponding to the product test request with the highest priority in the test request task according to the communication address and the test port, so that the test equipment tests the product to be tested on the corresponding test terminal according to the test specification and the test parameter judgment condition to obtain a test result.

In one embodiment, the computer program when executed by the processor further performs the steps of: judging the product specification of the test result obtained by the test according to the test parameter judgment condition to obtain a judgment result; and displaying the judgment result and/or storing the judgment result in a preset database.

In one embodiment, the computer program when executed by the processor further performs the steps of: collecting the product model of a product to be tested and corresponding setting parameters; configuring test specifications and test parameter judgment conditions of the corresponding product to be tested according to the product model and the setting parameters; and performing correlation storage on the test specification and the test parameter judgment condition obtained by configuration and the product model of the corresponding product to be tested to obtain a preset database.

According to the WDM product time division multiplexing test system, the computer equipment and the storage medium, the test request task is obtained by establishing the priority for the product test requests sent by the plurality of test terminals, the test equipment is controlled to test the corresponding products to be tested according to the product test request with the highest priority in the test request task, and finally the product specification judgment is carried out on the obtained test result, so that the test of the products to be tested corresponding to the product test requests sent by the plurality of test terminals can be realized through the same test equipment, the time division multiplexing of the test equipment is realized, and the utilization rate of the test equipment is improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. A WDM product testing method applied to a control terminal, the method comprising:

collecting the product model of a product to be tested and corresponding setting parameters;

configuring the test specification and test parameter judgment conditions of the corresponding product to be tested according to the product model and the setting parameters;

performing correlation storage on the test specification and the test parameter judgment condition obtained by configuration and the product model of the corresponding product to be tested to obtain a preset database;

receiving product test requests sent by a plurality of test terminals, and establishing a priority for the received product test requests to obtain a test request task; criteria for establishing priority include: establishing a priority according to the sending time of the product test request, establishing a priority according to the request type of the product test request or directly establishing a priority according to the sequence of all the product test requests in the control terminal;

controlling test equipment to test a corresponding product to be tested according to the product test request with the highest priority in the test request task to obtain a test result;

and judging the product specification of the test result obtained by the test to obtain a judgment result and outputting the judgment result.

2. A WDM product testing method according to claim 1, wherein said receiving product test requests sent by a plurality of test terminals, after establishing a priority for the received product test requests to obtain a test request task, said controlling test equipment to test the corresponding product to be tested according to the product test request with the highest priority in the test request task, before obtaining the test result, further comprises:

reading the test specification and the test parameter judgment condition of the corresponding product to be tested in a preset database according to the product test request with the highest priority in the test request task, wherein the preset database is obtained by configuring the acquired setting parameters of the product to be tested;

and controlling the test equipment to test the corresponding product to be tested according to the product test request with the highest priority in the test request task, wherein the test result is as follows: and controlling the test equipment to test the product to be tested according to the corresponding test specification and the test parameter judgment condition according to the product test request with the highest priority in the test request task to obtain a test result.

3. A WDM product testing method according to claim 2, wherein said receiving product test requests from a plurality of test terminals, prioritizing the received product test requests for test request tasks, comprises:

receiving product test requests sent by a plurality of test terminals, and establishing priorities for the received product test requests according to preset task types or/and task requirements to obtain test request tasks.

4. A WDM product testing method according to claim 3, wherein said controlling the testing device to test the corresponding product under test according to the test specification and the test parameter decision condition according to the product test request with the highest priority in the test request task to obtain the test result comprises:

acquiring a communication address and a test port of test equipment;

and establishing communication between the test equipment and the test terminal corresponding to the product test request with the highest priority in the test request task according to the communication address and the test port, so that the test equipment tests the product to be tested on the corresponding test terminal according to the test specification and the test parameter judgment condition to obtain a test result.

5. A WDM product testing method according to claim 2, wherein said judging the product specification of the test result obtained from the test, obtaining the judgment result and outputting it comprises:

judging the product specification of the test result obtained by the test according to the test parameter judgment condition to obtain a judgment result;

and displaying the judgment result, and/or storing the judgment result to the preset database.

6. A WDM product testing apparatus, applied to a control terminal, the apparatus comprising:

the acquisition module is used for acquiring the product model of the product to be tested and the corresponding setting parameters;

the configuration module is used for configuring the test specification and the test parameter judgment condition of the corresponding product to be tested according to the product model and the setting parameters;

the storage module is used for storing the test specification and the test parameter judgment condition obtained by configuration in a correlation manner with the product model of the corresponding product to be tested to obtain a preset database;

the receiving module is used for receiving the product test requests sent by the plurality of test terminals and establishing priorities for the received product test requests to obtain test request tasks; criteria for establishing priority include: establishing a priority according to the sending time of the product test request, establishing a priority according to the request type of the product test request, or directly establishing a priority according to the sequence of all the product test requests in the control terminal;

the test module is used for controlling the test equipment to test the corresponding product to be tested according to the product test request with the highest priority in the test request task to obtain a test result;

and the judging module is used for judging the product specification of the test result obtained by the test to obtain a judging result and outputting the judging result.

7. A WDM product testing system, characterized in that said system comprises a plurality of test terminals, test equipment and control terminals, a plurality of said test terminals being connected to said control terminals, said control terminals being connected to said test equipment,

the control terminal is used for acquiring the product model of a product to be tested and corresponding setting parameters, configuring the test specification and test parameter judgment conditions of the corresponding product to be tested according to the product model and the setting parameters, and storing the configured test specification and test parameter judgment conditions in association with the product model of the corresponding product to be tested to obtain a preset database; receiving product test requests sent by a plurality of test terminals, establishing priorities for the received product test requests to obtain test request tasks, controlling test equipment to test corresponding products to be tested according to the product test requests with the highest priority in the test request tasks to obtain test results, and performing product specification judgment on the test results obtained by testing to obtain judgment results and outputting the judgment results; criteria for establishing priority include: establishing a priority according to the sending time of the product test request, establishing a priority according to the request type of the product test request or directly establishing a priority according to the sequence of all the product test requests in the control terminal;

the plurality of test terminals are used for sending product test requests to the control terminal;

the test equipment is used for testing the corresponding product to be tested according to the control of the control terminal and sending the obtained test result to the control terminal.

8. A computer device comprising a processor and a memory, the memory storing a computer program, characterized in that the computer program, when executed by the processor, causes the processor to carry out the steps of the method according to any one of claims 1 to 5.

9. A computer-readable storage medium, in which a computer program is stored which, when being executed by a processor, causes the processor to carry out the steps of the method according to any one of claims 1 to 5.

Images