CN110515650B - Semantic version management method for handheld device detection file based on statistical analysis - Google Patents
Semantic version management method for handheld device detection file based on statistical analysis Download PDFInfo
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- G06F—ELECTRIC DIGITAL DATA PROCESSING
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- G06F8/70—Software maintenance or management
- G06F8/71—Version control; Configuration management
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y04—INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
- Y04S—SYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
- Y04S10/00—Systems supporting electrical power generation, transmission or distribution
- Y04S10/50—Systems or methods supporting the power network operation or management, involving a certain degree of interaction with the load-side end user applications
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Abstract
The invention relates to configuration file version identification management in the field of flow design and power automation, in particular to a semantic version management method for detecting files based on statistical analysis handheld equipment. Uploading a detection result file of the handheld device to a server, and inputting a version content description; the server analyzes and extracts the information of the newly uploaded file and stores the information into a database; extracting the version number of the detection result file of the handheld device of the previous version; comparing the detection result file of the handheld device of the previous version; acquiring current handheld device detection result file information; combining the uploading handheld device detection result file information and the version number of the previous version to generate a current complete version number; matching the newly generated version number with a handheld device detection result file; analyzing a detection result file of the handheld device; and checking the analysis result. The invention can more intuitively and clearly check the detection result, reduce personnel maintenance cost, improve production efficiency and improve the construction and maintenance of the intelligent station.
Description
Technical Field
The invention relates to configuration file version identification management in the field of flow design and electric power automation, in particular to a semantic version management method for detecting files based on a statistical analysis handheld device, and a graphical display method covering analysis results.
Background
The SCD file is used as a descriptive file of the modern intelligent substation, so that the importance of the SCD file is self-evident, and the content of the SCD file must be consistent with that of the scene so as to ensure the adjustment and operation and maintenance of the modern intelligent substation. In order to ensure the consistency of SCD files and sites, a handheld device detection flow is added, and detection result files generated by handheld device detection are collected and archived by a management and control platform. The detection result file generated after the detection is completed can be used for more intuitively displaying whether virtual terminal communication among all IEDs in the field is successful or not through analysis and graphical display of the management and control platform.
The handheld device detection tool is a portable detection tool and is mainly used for detecting whether an on-site secondary device table, a communication subnet and configuration, an example configuration of an IED, a GOOSE/SV configuration and an IED virtual terminal connection relationship are consistent with the configuration in an SCD file.
The detection result file of the handheld device can be used as a judgment basis for consistency of the SCD file filed in the management and control platform and the field downloaded configuration file, and is a feasible and effective important means for ensuring the consistency of the SCD file in the management and control platform and the field configuration file. The semantic version management of the detection result file of the handheld device is to analyze the content of the file and screen the data; and carrying out classification statistics on the analysis result to generate a semantical version number. The method ensures the basic requirement of version management and the activity of failure, simultaneously endows the version identifier with deeper meaning, is beneficial to follow-up version statistics, and is convenient for a service management and control platform to clearly display the consistency of SCD files and sites to managers through detection result files. And meanwhile, a semantic version management method is adopted for the detection result file, so that the content of the detection result can be intuitively displayed in the version number, a convenient mode is provided for intelligent station maintenance and management, and the operation and maintenance cost of the intelligent substation is reduced.
Disclosure of Invention
In order to overcome the defects in the prior art, the invention provides a semantic version management method for detecting files based on statistical analysis of handheld devices, which aims to effectively semantically manage versions of detection result files of the handheld devices in a high-efficiency, accurate and clear mode in combination with new and maintenance processes of intelligent stations and graphically display detection results. The consistency and the accuracy of the SCD file and the field device of the intelligent substation are convenient to realize, and the operation and maintenance capacity of the intelligent substation is improved.
In order to achieve the above object, the present invention is realized by the following technical scheme:
a semantic version management method for detecting files based on a statistical analysis handheld device comprises the following steps:
step 1, uploading a detection result file of the handheld device to a server, and inputting a version content description R;
step 2, the server analyzes and extracts the characteristic information H of the newly uploaded handheld device detection result file and stores the characteristic information H in a database;
step 3, the server extracts the version number of the last version handheld device detection result file, if the previous version does not exist, the following steps are not executed, and primary version identification is directly carried out: V_SubHistory\u xxx_xxx xx;
step 4, comparing the detection result file of the handheld device of the previous version to obtain a first version number and a subsuppistory version number +1;
step 5, the server obtains the file information of the detection result of the current handheld device, and the total number, the abnormal number and the untested number of the handheld device are counted;
step 6, the server combines the uploading handheld device detection result file information and the version number of the last version to generate a current complete version number;
step 7, the server matches the newly generated version number with the detection result file of the handheld device and stores the newly generated version number in a database;
step 8, the server analyzes the detection result file of the handheld device to generate an overall communication relation diagram of each IED and a detailed diagram of the virtual terminal;
and 9, the management unit, the operation and maintenance unit checks the analysis result.
The version content description R recorded when the handheld device detection result file is uploaded in the step 1 is as follows: and recording the changing content, the changing time, the changing person and the changing person unit information of the current handheld device detection result file.
The detection result file of the handheld device in the step 1 is obtained by analyzing the SCD file through the handheld device.
The feature information H of the newly uploaded handheld device detection result file in the step 2 includes:
a. the abnormal number of IEDs;
b. IED number not tested;
c. IED total number.
The format of the complete version number in the step 6 is as follows:
v_substistolountnottestcount_errcount, wherein:
the substore represents the type of the intelligent substation, and the value range is from 0 to 99;
errCount represents the abnormal IED number in the detection result file of the handheld device, and the value range is from 0 to 999;
the notTestCount represents the number of untested IEDs in the detection result file of the handheld device, and the value range is from 0 to 999;
allCount represents the number of all IEDs in the handheld device detection result file, and the value range is from 0 to 999.
In the step 8, the format of the detection result file of the handheld device is as follows:
IED: intelligent electronic device elements and manufacturer attributes, types, configuration versions thereof;
Name:IEDname;
addr: virtual terminal connection in IED;
desc: virtual terminal connection description in IED;
index: virtual terminal connection numbers in IED;
Appid:Appid;
result. Desc: describing a detection result;
result. State: detection status, (tested, untested);
result. Test: detection results (normal, abnormal).
The step 8 includes: the server acquires a handheld device detection result file, analyzes the file according to json data format, counts all analysis results in each IED, classifies and counts the detection results of each IED, and draws the detection results to an IED overall communication diagram and a virtual terminal detailed diagram according to IEDname and Applid.
The invention has the following advantages and beneficial effects:
according to the invention, through management of the version of the inspection result file of the handheld device, a higher-level meaning is provided for the version identification of the inspection result file version of the handheld device, so that inspection personnel can more intuitively and clearly check the inspection result. Version management and daily maintenance of the handheld device detection result file of the intelligent substation are convenient, fast and flexible, maintenance cost of personnel can be greatly reduced, overall production efficiency of the intelligent substation is improved, and construction and maintenance of the intelligent substation are improved.
Drawings
In order to facilitate the understanding and practice of the invention, those of ordinary skill in the art will now make further details with reference to the drawings and detailed description, it being understood that the scope of the invention is not limited to the specific description.
FIG. 1 is a flow chart of the system of the present invention;
FIG. 2 is a diagram of the IED communication relationship of the parsing result of the present invention;
fig. 3 is a detailed view of virtual terminal connections between IEDs of the present invention.
Detailed Description
The invention relates to a semantic version management method for detecting files based on a statistical analysis handheld device, which is shown in fig. 1, and fig. 1 is a flow chart of a system of the invention. The SCD configuration file is an intelligent substation total station system configuration description file, describes communication parameter information of IEC61850 devices in the intelligent substation and logic connection among the IEC61850 devices, and the intelligent substation operates according to specifications and parameters set by the SCD configuration file, and specifically comprises the following steps:
step 1, uploading a detection result file of the handheld device to a server, and inputting a version content description R;
the handheld device detection result file is obtained by analyzing the SCD file through the handheld device.
Step 2, the server analyzes and extracts the characteristic information H of the newly uploaded handheld device detection result file and stores the characteristic information H in a database;
step 3, the server extracts the version number of the last version handheld device detection result file, if the previous version does not exist, the following steps are not executed, and primary version identification is directly carried out: V_SubHistory\u xxx_xxx xx;
step 4, comparing the detection result file of the handheld device of the previous version to obtain a first version number and a subsuppistory version number +1;
step 5, the server obtains the file information of the detection result of the current handheld device, and the total number, the abnormal number and the untested number of the handheld device are counted;
step 6, the server combines the uploading handheld device detection result file information and the version number of the last version to generate a current complete version number;
step 7, the server matches the newly generated version number with the detection result file of the handheld device and stores the newly generated version number in a database;
step 8, the server analyzes the detection result file of the handheld device to generate an overall communication relation diagram of each IED and a detailed diagram of the virtual terminal;
the method specifically comprises the following steps: the server acquires a handheld device detection result file, analyzes the file according to json data format, counts all analysis results in each IED, classifies and counts the detection results of each IED, and draws the detection results to an IED overall communication diagram and a virtual terminal detailed diagram according to IEDname and Applid.
And 9, the management unit, the operation and maintenance unit checks the analysis result.
The version content description R recorded when the handheld device detection result file is uploaded in the step 1 is as follows: and recording the changing content, the changing time, the changing person and the changing person unit information of the current handheld device detection result file.
The feature information H of the newly uploaded handheld device detection result file in the step 2 includes:
a. the abnormal number of IEDs;
b. IED number not tested;
c. IED total number.
The format of the complete version number in the step 6 is as follows:
v_substistolountnottestcount_errcount, wherein:
the substore represents the type of the intelligent substation, and the value range is from 0 to 99;
errCount represents the abnormal IED number in the detection result file of the handheld device, and the value range is from 0 to 999;
the notTestCount represents the number of untested IEDs in the detection result file of the handheld device, and the value range is from 0 to 999;
allCount represents the number of all IEDs in the handheld device detection result file, and the value range is from 0 to 999.
In the step 8, the format of the detection result file of the handheld device is as follows:
IED: intelligent electronic device elements and manufacturer attributes, types, configuration versions thereof;
Name:IEDname;
addr: virtual terminal connection in IED;
desc: virtual terminal connection description in IED;
index: virtual terminal connection numbers in IED;
Appid:Appid;
result. Desc: describing a detection result;
result. State: detection status, (tested, untested);
result. Test: detection results (normal, abnormal).
Claims (9)
1. A semantic version management method for detecting files based on statistical analysis handheld equipment is characterized by comprising the following steps: comprising the following steps: step 1, uploading a detection result file of the handheld device to a server, and inputting a version content description R; step 2, the server analyzes and extracts the characteristic information H of the newly uploaded handheld device detection result file and stores the characteristic information H in a database; step 3, the server extracts the version number of the file of the detection result of the handheld device of the previous version, if the previous version does not exist, the following steps are not executed, and the primary version identification is directly carried out: V_SubHistory\u xxx_xxx xx; step 4, comparing the detection result file of the handheld device of the previous version to obtain a first version number and a subsuppistory version number +1; step 5, the server obtains the file information of the detection result of the current handheld device; step 6, the server combines the uploading handheld device detection result file information, and the method comprises the following steps: the total number, the abnormal number, the untested number and the version number of the last version generate the current complete version number; step 7, the server matches the newly generated version number with the detection result file of the handheld device and stores the newly generated version number in a database; step 8, the server analyzes the detection result file of the handheld device, analyzes the file according to json data format, counts all analysis results in each IED, sorts and counts the detection results of each IED, and draws the detection results to an IED overall communication diagram and a virtual terminal detailed diagram according to IEDname and Applid to generate each IED overall communication relation diagram and a virtual terminal detailed diagram; the file format of the detection result of the handheld device is as follows: IED: intelligent electronic device elements and manufacturer attributes, types, configuration versions thereof; name: IEDname; addr: virtual terminal connection in IED; desc: virtual terminal connection description in IED; index: virtual terminal connection numbers in IED; applid: appid; result. Desc: describing a detection result; result. State: detecting whether the state is tested or not; result. Test: the detection result is normal or abnormal; and 9, the management unit, the operation and maintenance unit checks the analysis result.
2. The semantic version management method for detecting files based on statistical analysis handheld equipment according to claim 1, wherein the semantic version management method is characterized by comprising the following steps: the version content description R recorded when the handheld device is uploaded to detect the result file is as follows: and recording the changing content, the changing time, the changing person and the changing person unit information of the current handheld device detection result file.
3. The semantic version management method for detecting files based on statistical analysis handheld equipment according to claim 1, wherein the semantic version management method is characterized by comprising the following steps: the handheld device detection result file is obtained by analyzing the SCD file through the handheld device.
4. The semantic version management method for detecting files based on statistical analysis handheld equipment according to claim 1, wherein the semantic version management method is characterized by comprising the following steps: the characteristic information H of the newly uploaded handheld device detection result file comprises:
a. The abnormal number of IEDs;
b, the number of IEDs not tested;
total number of ieds.
5. The semantic version management method for detecting files based on statistical analysis handheld equipment according to claim 1, wherein the semantic version management method is characterized by comprising the following steps: the format of the complete version number is: v_substistolountnottestcount_errcount.
6. The semantic version management method for detecting files based on statistical analysis handheld equipment according to claim 5, which is characterized by comprising the following steps: the substistory represents the type of the intelligent substation, and the value range is from 0 to 99.
7. The semantic version management method for detecting files based on statistical analysis handheld equipment according to claim 5, which is characterized by comprising the following steps: the errCount represents the abnormal IED number in the detection result file of the handheld device, and the value range is from 0 to 999.
8. The semantic version management method for detecting files based on statistical analysis handheld equipment according to claim 5, which is characterized by comprising the following steps: the notTestCount represents the number of untested IEDs in the handheld device detection result file, and the value range is from 0 to 999.
9. The semantic version management method for detecting files based on statistical analysis handheld equipment according to claim 5, which is characterized by comprising the following steps: the allCount represents the number of all IEDs in the detection result file of the handheld device, and the value range is from 0 to 999.
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