CN109150331B - Satellite multi-transmission channel index parallel automatic test system - Google Patents

Abstract

The invention provides a satellite multi-transmission channel index parallel automatic test system, which comprises: the system comprises a parallel test scheduling computer, a test management and control computer, a link box and test resources; the parallel test scheduling computer completes the generation of a parallel test sequence according to the shortest total time principle according to the test tasks and the test resource conditions; the test management and control computer is used for analyzing the parallel test sequence, generating a parallel test instruction queue, and finishing the control and allocation of the link box and the test resources according to the time beat of the instruction queue; the inside of the link box is provided with a switch matrix which is used for completing the link switching between each data transmission channel and the test resource; the test resources are the general names of the test devices and are used for completing specific index tests. The invention can utilize a set of test resources to complete the parallel and automatic test of a plurality of data transmission channel indexes, thereby saving the test resources and effectively shortening the test time.

Description

Satellite multi-transmission channel index parallel automatic test system

Technical Field

The invention relates to the field of satellite data transmission channel index parallel testing, in particular to a testing system which uses a set of testing equipment to complete automatic testing of a plurality of data transmission channel indexes in a link switching mode.

Background

The satellite data transmission channel index test comprises the steps of testing the transmitting frequency, the power, the frequency stability, the phase noise, the clutter, the harmonic suppression, the spectrum characteristic, the EIRP, the error rate and the like, and the required instruments and equipment generally comprise a frequency spectrograph, a power meter, a frequency meter, a noise source and the like. Since a common satellite has a plurality of data transmission channels, the conventional test method is to test the test items one by one in series for each channel, and the method has the defect that the required time is multiplied. If a plurality of channels are tested in parallel, a plurality of sets of test equipment are needed, and the test cost is too high. How to rapidly complete the index test of a plurality of data transmission channels under the condition of not increasing test equipment has important significance for reducing cost and improving test efficiency.

Disclosure of Invention

The invention aims to solve the problem that efficiency and cost cannot coexist in the existing data transmission index test, and provides a multi-channel data transmission index parallel automatic test system.

The invention is realized by the following technical scheme:

a satellite multi-transmission channel index parallel automatic test system comprises: the system comprises a parallel test scheduling computer, a test management and control computer, a link box and test resources.

The parallel test scheduling computer is used for generating a parallel test sequence and comprises a test task information input module, a test resource information input module and a parallel test sequence generation module;

the test management and control computer can generate an instruction sequence according to the parallel test sequence and send the instruction sequence to the link box and each test device through the network interface, so that the link box and the test devices are controlled.

The link box is used for matching and switching between the data transmission channel and the test resource and is realized through an internal switch matrix.

A test resource is a collection of test instruments, such as a spectrometer, a power meter, a frequency meter, a noise source, etc., that are needed to complete all test items.

The test task entry module is used for entry of test task information of each data transmission channel, and comprises test items of each data transmission channel, test resources occupied by each test item and occupied duration information.

The test resource information input module is used for inputting all test resource information, including names and ID numbers of various test resources (channel numbers output by corresponding link boxes).

The parallel test sequence generation module can automatically generate a parallel test sequence based on an intelligent optimization algorithm (such as a genetic algorithm, an ant colony algorithm, a particle swarm algorithm and the like) according to test tasks, test resource conditions and a certain optimization rule (such as shortest test time). The parallel test sequence is a plurality of groups of parallel test program sets, each group of test program sets corresponds to a plurality of traditional channel test steps, and the steps prescribe actions such as link switching, equipment control operation and the like corresponding to the channel according to the time sequence.

All the test resources and the link boxes are uniformly controlled by the test management and control computer. The system completes the link switching and instrument resource using operation required by the test and automatically completes the operation according to the parallel test sequence by the control computer.

The invention can utilize a set of test resources to complete the parallel and automatic test of a plurality of data transmission channel indexes, thereby saving the test resources and effectively shortening the test time.

Drawings

Other features, objects, and advantages of the invention will become apparent upon reading the following description in conjunction with the accompanying drawings in which:

fig. 1 is a block diagram of a satellite data transmission channel index parallel automatic test system.

FIG. 2 is a diagram illustrating parallel test execution.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that variations and modifications can be made by persons skilled in the art without departing from the spirit of the invention. All falling within the scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a satellite data transmission channel index parallel automated testing system, including: the system comprises a parallel test scheduling computer, a test management and control computer, a link box and test resources;

the parallel test scheduling computer is used for generating a parallel test sequence and comprises a test task information input module, a test resource information input module and a parallel test sequence generation module.

The test task entry module is used for entry of test task information of each data transmission channel, and comprises test items of each data transmission channel, test resources occupied by each test item and occupied duration information.

The test resource information input module is used for inputting all test resource information, including names and ID numbers of various test resources (channel numbers output by corresponding link boxes).

The parallel test sequence generation module can automatically generate a parallel test sequence based on an intelligent optimization algorithm (such as a genetic algorithm, an ant colony algorithm, a particle swarm algorithm and the like) according to test tasks, test resource conditions and a certain optimization rule (such as shortest test time). The parallel test sequence is a plurality of groups of parallel test program sets, each group of test program sets corresponds to a plurality of traditional channel test steps, and the steps prescribe actions such as link switching, equipment control operation and the like corresponding to the channel according to the time sequence.

The test management and control computer can generate an instruction sequence according to the parallel test sequence and send the instruction sequence to the link box and each test device through the network interface, so that the link box and the test devices are controlled.

The link box is used for matching and switching between the data transmission channel and the test resource and is realized through an internal switch matrix.

A test resource is a collection of test instruments, such as a spectrometer, a power meter, a frequency meter, a noise source, etc., that are needed to complete all test items.

Fig. 2 is a schematic diagram of a parallel test flow operation. Each test process shown in the figure corresponds to the test of one data transmission channel. Under each test beat, under the condition of ensuring that the test resources are not conflicted, the test resources are distributed to each data transmission channel to finish different test projects, and the data transmission channels which are not distributed to the test resources wait. The test resource allocation and the test item sequencing in each beat are allocated by adopting an optimization algorithm according to a certain constraint condition (such as the minimum total test time). The parallel test flow is operated according to the above mode until all the test items are finished.

Specific embodiments of the invention have been described above. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes and modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention.

Claims (3)

1. A satellite multi-transmission channel index parallel automatic test system is characterized by comprising: the system comprises a parallel test scheduling computer, a test management and control computer, a link box and test resources;

the parallel test scheduling computer is used for generating a parallel test sequence and comprises a test task information input module, a test resource information input module and a parallel test sequence generation module;

the test management and control computer can generate an instruction sequence according to the parallel test sequence and send the instruction sequence to the link box and each test device through a network interface to realize the control of the link box and the test devices;

the link box is used for matching and switching between the data transmission channel and the test resource and is realized through an internal switch matrix;

testing resources, namely a set of testing instruments required for completing all testing projects;

the test task information input module is used for inputting test task information of each data transmission channel, and comprises test items of each data transmission channel, test resources occupied by each test item and occupied duration information;

the test resource information input module is used for inputting all test resource information, including names and ID numbers of various test resources;

the parallel test sequence generation module can automatically generate a parallel test sequence according to a certain optimization rule according to test tasks and test resource conditions; the parallel test sequence is a plurality of groups of parallel test program sets, each group of test program sets corresponds to a plurality of traditional channel test steps, and the steps prescribe link switching and equipment control operation actions corresponding to the channel according to the time sequence.

2. The system of claim 1, wherein all the test resources and the link boxes are uniformly controlled by the test management and control computer.

3. The system according to claim 1, wherein the system performs link switching and instrument resource utilization operations required for testing, and is automatically performed by the control computer according to the parallel test sequence.

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