CN105203867A - Simulation test method and device for quality detection of online monitoring apparatus - Google Patents

Abstract

The invention relates to a simulation test method and equipment for quality verification of an online monitoring device, wherein the method includes steps: S1: generating and saving a test case; S2: inputting test input and execution conditions of the test case to the online monitoring device; S3: Receive the output of the online monitoring device under the given test input and execution conditions, and combine the expected results of the corresponding test cases to judge the reliability of the online monitoring device. Compared with the prior art, the present invention inputs the test input and execution conditions of test cases to the online monitoring device, and judges the online The reliability of the monitoring device greatly improves the standardization and standardization of the online monitoring device.

Description

Simulation test method and equipment for quality verification of on-line monitoring device

technical field

The invention relates to the field of online monitoring device testing, in particular to a simulation test method and equipment for quality verification of an online monitoring device.

Background technique

With the development of automatic monitoring technology, each power station has been basically equipped with online monitoring devices, but there are mainly the following problems in the operation of online monitoring devices:

1. Some devices have high false alarm rate.

2. Some devices have high failure rate, short service life and heavy maintenance workload.

3. Some devices have poor real-time performance.

4. The quality problems of software and hardware are prominent.

5. Technical standards are not perfect.

6. Insufficient utilization and analysis of online monitoring data.

There is no convenient and fast method for how to improve the use effect and operational reliability of the online monitoring device of substation equipment, give full play to the role of the monitoring device, and ensure the safe and stable operation of the main equipment, which will bring a lot of inconvenience to the subsequent maintenance.

Contents of the invention

The object of the present invention is to provide a simulation test method and equipment for quality verification of an online monitoring device in order to overcome the above-mentioned defects in the prior art.

The purpose of the present invention can be achieved through the following technical solutions:

A simulation test method for quality verification of an online monitoring device, comprising the steps of:

S1: Generate and save test cases;

S2: Input the test input and execution conditions of the test case to the online monitoring device;

S3: Receive the output of the online monitoring device under given test input and execution conditions, and combine the expected results of the corresponding test cases to judge the reliability of the online monitoring device.

Described step S2 specifically comprises the steps:

S21: Obtain test input, execution conditions and expected results of a specified test case;

S22: Input the test input and execution conditions of the test case into the online monitoring device;

S23: Forward the expected result of the test case to the test evaluation device.

Described step S3 specifically comprises the steps:

S31: Receive the output of the online monitoring device under given test input and execution conditions based on the I2 protocol;

S32: receiving an expected result of the test case;

S33: According to the output of the online monitoring device, combined with the expected results of the corresponding test cases, judge the reliability of the online monitoring device.

Described step S33 specifically comprises the steps:

S331: According to the output of the online monitoring device, combined with the expected results of the corresponding test cases, verify the effectiveness of the online monitoring device;

S332: Check the continuity of the output of the online monitoring device;

S333: Display the verification result to the remote network device in the form of a visual chart.

A simulation testing device for quality verification of an online monitoring device, comprising:

Test case library, used to generate and save test cases;

The use case execution device is connected with the input terminal of the online monitoring device and the test case library, and is used to input the test input and execution conditions of the test case to the online monitoring device;

The test evaluation device is connected with the output terminal of the online monitoring device and the use case execution device, and is used to receive the output of the online monitoring device under the given test input and execution conditions, and combine the expected results of the corresponding test cases to judge the reliability of the online monitoring device sex.

The use case execution device includes:

The use case acquisition module, together with the test case library, is used to obtain the test input, execution conditions and expected results of the specified test case;

The use case loading module is connected with the use case acquisition module, and is used to input the test input and execution conditions of the test case to the online monitoring device;

The expected result forwarding module is respectively connected with the use case acquisition module and the test evaluation device, and is used to forward the expected result of the test case to the test evaluation device.

The test evaluation device includes:

The result input module is connected to the online monitoring device based on the I2 protocol, and is used to receive the output of the online monitoring device under given test input and execution conditions;

The expected result receiving module is connected with the use case execution device and used to receive the expected result of the test case;

The data verification module is respectively connected with the result input module and the expected result receiving module, and is used to judge the reliability of the online monitoring device according to the output of the online monitoring device and the expected result of the corresponding test case.

The data verification module includes:

The validity verification unit is connected to the result input module and the expected result receiving module respectively, and is used to verify the validity of the online monitoring device according to the output of the online monitoring device and the expected result of the corresponding test case;

A continuity check unit, connected to the result input module, used to check the continuity of the output of the online monitoring device;

The result display unit is respectively connected with the validity verification unit and the continuity verification unit, and is used to display the verification result to the remote network device in the form of a visual chart.

Compared with the prior art, the present invention has the following advantages:

1) Input the test input and execution conditions of the test cases to the online monitoring device, and judge the reliability of the online monitoring device according to the output of the online monitoring device under the given test input and execution conditions, combined with the expected results of the corresponding test cases, greatly Improve the standardization and standardization of online monitoring devices.

2) Because databases generally have the problem of high difficulty in platform migration, the task of forwarding expected results is configured in the use case execution device to facilitate future function and architecture upgrades.

3) The judgment of reliability is based on the verification of validity and continuity, and the reliability of the judgment result is high.

Description of drawings

Fig. 1 is a schematic flow chart of the main steps of the inventive method;

Fig. 2 is the structural representation of equipment of the present invention;

Among them: 1. Test case library, 2. Use case execution device, 3. Test evaluation device, 4. Online monitoring device.

Detailed ways

The present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments. This embodiment is carried out on the premise of the technical solution of the present invention, and detailed implementation and specific operation process are given, but the protection scope of the present invention is not limited to the following embodiments.

A simulation test method for quality verification of an online monitoring device, as shown in Figure 1, comprising steps:

S1: Generate and save test cases;

S2: Input the test input and execution conditions of the test case to the online monitoring device 4;

S3: Receive the output of the online monitoring device 4 under given test input and execution conditions, and combine the expected results of the corresponding test cases to judge the reliability of the online monitoring device 4 .

Step S2 specifically includes steps:

S21: Obtain test input, execution conditions and expected results of a specified test case;

S22: Input the test input and execution conditions of the test case into the online monitoring device 4;

S23: Forward the expected result of the test case to the test evaluation device 3 .

Step S3 specifically includes steps:

S31: Receive the output of the online monitoring device 4 under given test input and execution conditions based on the I2 protocol;

S32: receiving an expected result of the test case;

S33: Judging the reliability of the online monitoring device 4 according to the output of the online monitoring device 4 combined with the expected results of the corresponding test cases.

Step S33 specifically includes steps:

S331: According to the output of the online monitoring device 4, combined with the expected results of the corresponding test cases, verify the validity of the online monitoring device 4;

S332: Check the continuity of the output of the online monitoring device 4;

S333: Display the verification result to the remote network device in the form of a visual graph.

As shown in Figure 2, the test equipment corresponding to the above method includes a sequentially connected test case library 1, a use case execution device 2 and a test evaluation device 3, and the use case execution device 2 is connected to the input end of the online monitoring device 4, and the test evaluation device 3 Both are connected to the output end of the online monitoring device 4, the test case library 1 generates and saves the test case, the use case execution device 2 inputs the test input and execution conditions of the test case to the online monitoring device 4, the test evaluation device 3 receives the online monitoring device 4 The reliability of the online monitoring device 4 is judged based on the output under the given test input and execution conditions, combined with the expected result of the corresponding test case.

The use case execution device 2 includes a use case acquisition module, a use case loading module and an expected result forwarding module, the use case acquisition module is connected with the test case library 1, the use case loading module is connected with the use case acquisition module, and the expected result forwarding module is respectively connected with the use case acquisition module and the test evaluation device 3 connections, the use case acquisition module obtains the test input, execution conditions and expected results of the specified test case, the test input and execution conditions of the test case are input to the online monitoring device 4 by the use case loading module, and the test case is forwarded by the expected result forwarding module The expected results are forwarded to the test evaluation device 3 .

The test evaluation device 3 includes a result input module, an expected result receiving module and a data verification module. The result input module is connected to the online monitoring device 4 based on the I2 protocol, the expected result receiving module is connected to the use case execution device 2, and the data verification module is respectively connected to the result The input module is connected to the expected result receiving module, the result input module receives the output of the online monitoring device 4 under given test input and execution conditions, the expected result receiving module receives the expected result of the test case, and the data verification module uses the online monitoring device 4 output, combined with the expected results of the corresponding test cases, to judge the reliability of the online monitoring device 4.

The data verification module includes a validity verification unit, a continuity verification unit and a result display unit. The validity verification unit is connected to the result input module and the expected result receiving module respectively, and the continuity verification unit is connected to the result input module. The result The display unit is respectively connected to the validity verification unit and the continuity verification unit. The validity verification unit verifies the validity and continuity of the online monitoring device 4 according to the output of the online monitoring device 4 and the expected results of the corresponding test cases. The verification unit is used to verify the continuity of the output of the online monitoring device 4, and the result display unit is used to display the verification results to remote network devices in a visual chart.

In addition, the test evaluation device 3 also includes a data monitoring module and a resource management module. The data monitoring module is connected to the result input module, and the resource management module is connected to the online monitoring device 4 based on the I2 protocol. The data monitoring module is based on different electrical equipment tree nodes or Real-time or historical data query of the output data of the connected online monitoring module 4 in the time interval, and the output data of the online monitoring module 4 or the historical curve of the output data can be displayed in the form of a chart. The resource management module provides a complete relationship between electrical equipment The model maintenance interface performs maintenance operations on primary equipment, online monitoring devices 4, and monitoring items required for system display or analysis through WEB, and supports threshold maintenance of monitoring items at the same time.

In addition, there are multiple on-line monitoring devices 4 in this embodiment, including lightning arrester insulation monitoring devices, capacitive equipment insulation monitoring devices, sulfur hexafluoride gas moisture and pressure detection devices, iron core ground current detection devices, micro-water detection devices, oil Medium dissolved gas detection device and vibration spectrum detection device, etc.

The data monitoring module includes a monitoring data display unit, a data trend prediction unit and a data download unit. Both the monitoring data display unit and the data download unit are connected to the result input module, the data trend prediction unit is connected to the data display unit, and the data download unit is a remote network device The download service of the output data of the online monitoring device 4 is provided, the monitoring data display unit displays the output data of the online monitoring device 4 , and the data trend prediction unit predicts its trend according to the output data of the online monitoring device 4 .

Claims (8)

1. for an emulation test method for on-Line Monitor Device quality arbitration, it is characterized in that, comprise step:

S1: generate and preserve test case;

S2: to test input and the executive condition of on-Line Monitor Device input test use-case;

S3: receive the output of on-Line Monitor Device under given test input and executive condition, and in conjunction with the expected results of corresponding test case, judge the reliability of on-Line Monitor Device.

2. a kind of emulation test method for on-Line Monitor Device quality arbitration according to claim 1, it is characterized in that, described step S2 specifically comprises step:

S21: obtain the test input of nominative testing use-case, executive condition and expected results;

S22: the test input of test case and executive condition are inputed to on-Line Monitor Device;

S23: the expected results of test case is forwarded to test evaluation device.

3. a kind of emulation test method for on-Line Monitor Device quality arbitration according to claim 1, it is characterized in that, described step S3 specifically comprises step:

S31: receive the output of on-Line Monitor Device under given test input and executive condition based on I2 stipulations;

S32: the expected results receiving test case;

S33: according to the output of on-Line Monitor Device, in conjunction with the expected results of corresponding test case, judges the reliability of on-Line Monitor Device.

4. a kind of emulation test method for on-Line Monitor Device quality arbitration according to claim 3, it is characterized in that, described step S33 specifically comprises step:

S331: according to the output of on-Line Monitor Device, in conjunction with the expected results of corresponding test case, the validity of verification on-Line Monitor Device;

S332: the continuity that verification on-Line Monitor Device exports;

S333: the mode of check results by Visual Chart is shown to remote network equipment.

5. for a simulated test device for on-Line Monitor Device quality arbitration, it is characterized in that, comprising:

Test case library, for generating and preserving test case;

Use-case actuating unit, is connected with the input end of on-Line Monitor Device and test case library, for the test input of on-Line Monitor Device input test use-case and executive condition;

Test evaluation device, be connected with the output terminal of on-Line Monitor Device and use-case actuating unit, for receiving the output of on-Line Monitor Device under given test input and executive condition, and in conjunction with the expected results of corresponding test case, judge the reliability of on-Line Monitor Device.

6. a kind of simulated test device for on-Line Monitor Device quality arbitration according to claim 5, is characterized in that, described use-case actuating unit comprises:

Use-case acquisition module, with test case library, for obtaining the test input of nominative testing use-case, executive condition and expected results;

Use-case load-on module, is connected with use-case acquisition module, for the test input of test case and executive condition are inputed to on-Line Monitor Device;

Expected results forwarding module, is connected with use-case acquisition module and test evaluation device respectively, for the expected results of test case is forwarded to test evaluation device.

7. a kind of simulated test device for on-Line Monitor Device quality arbitration according to claim 5, is characterized in that, described test evaluation device comprises:

Result load module, is connected with on-Line Monitor Device based on I2 stipulations, for receiving the output of on-Line Monitor Device under given test input and executive condition;

Expected results receiver module, is connected with use-case actuating unit, for receiving the expected results of test case;

Data check module, is connected with result load module and expected results receiver module respectively, for the output according to on-Line Monitor Device, in conjunction with the expected results of corresponding test case, judges the reliability of on-Line Monitor Device.

8. a kind of simulated test device for on-Line Monitor Device quality arbitration according to claim 7, is characterized in that, described data check module comprises:

Validity check unit, is connected with result load module and expected results receiver module respectively, for the output according to on-Line Monitor Device, in conjunction with the expected results of corresponding test case, and the validity of verification on-Line Monitor Device;

Continuity verification unit, is connected with result load module, for verifying the continuity that on-Line Monitor Device exports;

Result display unit, is connected with validity check unit and continuity verification unit respectively, for the mode of check results by Visual Chart being shown to remote network equipment.