CN117785722A - Development and debugging system for computer software technology - Google Patents
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Abstract
The invention relates to the technical field of intelligent factory equipment software development and test, and provides a computer software technology development and debugging system, which comprises a user login module, an interface control module and a development and debugging system, wherein the user login module is connected with the interface control module through a data transmission technology, and the interface control module is connected with the development and debugging system through the data transmission technology and is used for a user to log in to enter the development and debugging system of different interfaces according to different account grades. The data processing module is used for deep processing of the data, the data maintenance module is used for filling and updating the data, and finally the report output module is used for generating a data report, so that the automatic processing of the data is realized, the time for manually analyzing the parameter data in the debugging process of the equipment is greatly reduced, the debugging report is automatically generated, and the debugging efficiency of the equipment in an intelligent factory is improved.
Description
Technical Field
The invention relates to the technical field of intelligent factory equipment software development and test, in particular to a computer software technology development and debugging system.
Background
Along with the development of economy and the progress of science and technology and the support of policies, many enterprises select digital transformation to realize quality improvement, cost reduction and efficiency improvement. Through digital transformation, the manufacturing enterprises finally complete the realization of the digital factory. On the basis of the digital factory, the intelligent factory can be realized only by continuously upgrading the digital factory. Intelligent factories are a modern production model based on digital technology. The method adopts the means of computer technology, communication technology, automation technology and the like to digitally reform each link of a factory, thereby realizing the full digital management of the production process. The intelligent factory not only can improve production efficiency, but also can optimize production flow, reduce production cost and improve product quality, and the intelligent factory has the advantages of realizing comprehensive digital management of the production process, thereby improving production efficiency and quality and reducing production cost. Meanwhile, the intelligent factory can realize remote monitoring and diagnosis, discover and solve problems in time, and improve production reliability. In the future, intelligent factories will become a development trend of manufacturing industry, and a more intelligent and efficient production mode is realized.
The automatic production of the equipment in the intelligent factory is carried out through computer software, after the development of the computer software is finished, the computer software needs to be debugged before being applied to the control of the factory equipment, wrong instructions are prevented from being sent to the equipment, parameter data in the debugging process need to be collected one by one during the debugging, the data are analyzed by a plurality of times of professional personnel, and then the parameter adjustment is carried out one by one, so that the development and the debugging of the computer software are slow, the debugging period is long, and the automatic production process of the intelligent factory is not facilitated.
Therefore, we make improvements to this and propose a computer software technology development and debugging system.
Disclosure of Invention
The technical problems to be solved by the invention are as follows: and the device parameter data in the process of collecting and debugging is subjected to centralized processing, a debugging report is automatically generated, and the time required by development and debugging of computer software is shortened.
(II) technical scheme
In order to achieve the above purpose, the invention provides a computer software technology development and debugging system, comprising a user login module, an interface control module and a development and debugging system, wherein the user login module is connected with the interface control module through a data transmission technology, and the interface control module is connected with the development and debugging system through the data transmission technology and is used for a user to log in to the development and debugging system of different interfaces according to different account grades;
the development and debugging system comprises a data acquisition module, input equipment, a data input module, a database, a data processing module, a data query module, a report output module, output equipment and a data maintenance module, wherein the data acquisition module is used for acquiring parameter data generated during equipment debugging in an intelligent factory and inputting the parameter data into the database through the input equipment and the data input module, the database is connected with the data processing module through a data transmission technology and is used for processing the acquired parameter data, the database is also connected with the data maintenance module through the data transmission technology and is used for updating and maintaining the acquired parameter data, the data maintenance module and the data processing module are both connected with the data query module through the data transmission technology and are used for extracting keywords in the screening and sorting parameter data, and the data query module is connected with the report output module through the data transmission technology and is used for automatically generating and debugging the screened and sorted data and finally outputting the report through the report output module.
Preferably, the development and debugging system is provided with two different data management main interfaces, and when a user logs in through the user login module, the interface control module judges the grade of the user account and selects the main interfaces of the development and debugging system for personnel at different grades.
Preferably, the input device includes, but is not limited to, a keyboard, a mouse, and a storage disk.
Preferably, the output devices include, but are not limited to, printers, fax machines, and display screens.
Preferably, the data acquisition module includes a mechanical data unit, a pipeline data unit, an electrical data unit, an instrument data unit, a safety data unit and a communication data unit, where the mechanical data unit is used to acquire parameter data in a debugging process of a mechanical device in an intelligent factory, including but not limited to acquiring parameter data in a debugging process of a pump, a manipulator, a compressor, a heating and ventilation device, a generator, a normal pressure container and a pressure container, the pipeline data unit is used to acquire parameter data in a debugging process of various functional pipelines in the intelligent factory, the electrical data unit is used to acquire parameter data in a debugging process of an electrical device in the intelligent factory, including but not limited to acquiring parameter data in a debugging process of a control panel, various motors and cables, and the instrument data unit is used to acquire parameter data in a debugging process of a transmitter, a display instrument, a safety valve instrument, a manual valve instrument and an electric valve instrument in the intelligent factory, and the safety data unit is used to acquire parameter data in a safety maintenance process of a communication device in the intelligent factory, and the data unit is used to acquire parameter data in a communication device in a debugging process of the intelligent factory, including but not limited to video data in a debugging process of a broadcasting device.
Preferably, the data processing module comprises an original data cleaning unit, a data read-write acquisition unit, a data comparison analysis unit, a data association analysis unit, a data secondary processing unit, a data verification detection unit and an analysis result output unit, wherein the original data cleaning unit is used for cleaning historical debugging data, the data read-write acquisition unit is used for reading latest debugging data, the data comparison analysis unit is used for comparing and analyzing the latest debugging data with set data, the data association analysis unit is used for analyzing a data association part, the data secondary processing unit is used for carrying out data secondary processing on analysis comparison analysis data and association analysis data, the data verification detection unit is used for verifying secondary processing data, and the analysis result output unit is used for outputting verified data.
Preferably, the data maintenance module comprises a data slicing processing unit, a data mobilizing processing unit, a data adding processing unit and a data integration updating unit, wherein the data slicing processing unit is used for conducting slicing processing on acquired data and arranging the data, the data mobilizing processing unit is used for mobilizing the arranged data according to a data sequence relationship, the data adding processing unit is used for automatically identifying and filling missing data, and the data integration updating unit is used for integrally updating the mobilized and added data.
Preferably, the operation flow of developing the debug system includes the following steps:
s1, after a manager acquires parameter data in the process of debugging equipment in an intelligent factory through a data acquisition module, the acquired parameter data is uploaded to a database through an input device and a data input module;
s2, when the data processing module acquires the latest debugging parameter data from the database, carrying out deep processing on the parameter data, and uploading the processed data to the data query module;
s3, the data query module performs keyword retrieval on the uploaded data, extracts, screens and sorts the keyword data in the parameter data, and uploads the keyword data to the report output module;
and S4, automatically sorting the data after the report output module acquires the data uploaded by the data query module, generating a debugging report, and displaying the debugging report through the output equipment.
Preferably, when the step S2 is performed and the data maintenance module obtains the latest debugging parameter data in the database, the data is maintained and updated, and is uploaded to the data query module to be used as standby and comparison data.
Preferably, in the step S2, the deep processing of the data processing module data includes the following steps:
a. when the data processing module acquires the latest debugging parameter data from the database, deleting the historical debugging parameter data through the original data cleaning unit, and reading the latest debugging parameter data and the setting parameter data through the data reading and writing acquisition unit;
b. the data comparison analysis unit is used for carrying out data comparison analysis on the latest debugging parameter data and the setting parameter data read by the data read-write acquisition unit, and the data correlation analysis unit is used for analyzing the correlation of the latest debugging parameter data and the setting parameter data read by the data read-write acquisition unit;
c. and carrying out secondary processing on the data analyzed by the data comparison analysis unit and the data analyzed by the data association analysis unit through the data secondary processing unit, integrating the data into new parameter data, and uploading the new parameter data to the data query module through the analysis result output unit.
(III) beneficial effects
The computer software technology development and debugging system provided by the invention has the beneficial effects that:
parameter data of various devices in the intelligent factory in the software debugging process are collected through the data acquisition module, the parameter data are uploaded to the database through the input device and the data input module, the data are deeply processed through the data processing module, the data are conveyed to be filled and updated through the data maintenance module, the processed data are extracted, screened, classified and integrated through the data query module, finally, a data report is generated through the report output module, automatic processing of the data is achieved, missing and incomplete data are automatically filled and updated, the time for manually analyzing the parameter data in the device debugging process is greatly reduced, a debugging report is automatically generated, and management personnel only need to adjust the device parameter data according to the debugging report, so that the device debugging efficiency in the intelligent factory is improved.
Drawings
In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.
FIG. 1 is a schematic diagram of a computer software development and debugging system;
FIG. 2 is a schematic diagram of a development and debugging system of a computer software technology provided in the present application;
FIG. 3 is a schematic diagram of a data acquisition module system of a computer software development and debugging system according to the present application;
FIG. 4 is a schematic flow chart of a data processing module of a computer software development and debugging system provided by the application;
fig. 5 is a schematic flow chart of a data maintenance module of a computer software development and debugging system provided in the present application.
In the figure: 1. a user login module; 2. an interface control module; 3. developing a debugging system; 4. a data acquisition module; 5. an input device; 6. a data entry module; 7. a database; 8. a data processing module; 9. a data query module; 10. a report output module; 11. an output device; 12. a data maintenance module; 13. a mechanical data unit; 14. pipeline data units; 15. an electrical data unit; 16. a meter data unit; 17. a secure data unit; 18. a communication data unit; 19. an original data cleaning unit; 20. a data reading and writing acquisition unit; 21. a data comparison analysis unit; 22. a data association analysis unit; 23. a data secondary processing unit; 24. a data verification detection unit; 25. an analysis result output unit; 26. a data slicing processing unit; 27. a data mobilization processing unit; 28. a data addition processing unit; 29. and the data integration updating unit.
Detailed Description
The following detailed description of specific embodiments of the invention is provided in connection with the accompanying drawings and examples. The following examples are only illustrative of the present invention and are not intended to limit the scope of the invention.
As shown in fig. 1-5, this embodiment provides a computer software technology development and debugging system, which includes a user login module 1, an interface control module 2 and a development and debugging system 3, where the user login module 1 is connected with the interface control module 2 through a data transmission technology, and the interface control module 2 is connected with the development and debugging system 3 through a data transmission technology, so that a user logs in to the development and debugging system 3 of different interfaces according to different account grades;
the development and debugging system 3 comprises a data acquisition module 4, an input device 5, a data input module 6, a database 7, a data processing module 8, a data query module 9, a report output module 10, an output device 11 and a data maintenance module 12, wherein the data acquisition module 4 is used for acquiring parameter data during equipment debugging in an intelligent factory, the parameter data is input into the database 7 through the input device 5 and the data input module 6, the database 7 is connected with the data processing module 8 through a data transmission technology and is used for processing the acquired parameter data, the database 7 is also connected with the data maintenance module 12 through a data transmission technology and is used for updating and maintaining the acquired parameter data, the data maintenance module 12 and the data processing module 8 are connected with the data query module 9 through a data transmission technology and are used for extracting, screening and sorting keywords in the parameter data, the data query module 9 is connected with the report output module 10 through the data transmission technology and is used for automatically generating a debugging report for the data extracted, and sorted and finally, and the data is output through the report output module 10.
In this embodiment, the development and debugging system 3 is provided with two different data management main interfaces, when a user logs in through the user login module 1, the interface control module 2 judges the level of the user account, selects the main interfaces of the development and debugging system 3 for entering personnel at different levels, and the manager can enter the development and debugging system 3 at a high level, so that parameters can be input and can be regulated, and a worker can only enter the development and debugging system 3 at a low level, can only input parameters and cannot regulate parameters.
In the present embodiment, the input device 5 includes, but is not limited to, a keyboard, a mouse, and a storage disk.
In the present embodiment, the output device 11 includes, but is not limited to, a printer, a facsimile machine, and a display screen.
In this embodiment, the data acquisition module 4 includes a mechanical data unit 13, a pipeline data unit 14, an electrical data unit 15, an instrument data unit 16, a safety data unit 17 and a communication data unit 18, where the mechanical data unit 13 is used to acquire parameter data in a process of debugging mechanical equipment in the intelligent plant, including but not limited to acquiring parameter data in a process of debugging mechanical equipment in pumps, manipulators, compressors, heating and ventilation systems, generators, normal pressure vessels and pressure vessels, the pipeline data unit 14 is used to acquire parameter data in a process of debugging functional pipelines in the intelligent plant, the electrical data unit 15 is used to acquire parameter data in a process of debugging electrical equipment in the intelligent plant, including but not limited to acquiring parameter data in a control panel, various motors and cables, the instrument data unit 16 is used to acquire parameter data in a process of debugging mechanical equipment in the intelligent plant, including but not limited to acquiring parameter data in a process of transmitters, display meters, safety valve meters, manual valves and electric valves, the safety data unit 17 is used to acquire parameter data in a process of debugging safety maintenance equipment in the intelligent plant, and the communication data unit 18 is used to acquire parameter data in a process of debugging electrical equipment in the intelligent plant, including but not limited to broadcasting equipment.
In this embodiment, the data processing module 8 includes an original data cleaning unit 19, a data read-write acquiring unit 20, a data comparing and analyzing unit 21, a data association and analyzing unit 22, a data secondary processing unit 23, a data checking and detecting unit 24, and an analysis result output unit 25, where the original data cleaning unit 19 is used for cleaning historical debug data, the data read-write acquiring unit 20 is used for reading latest debug data, the data comparing and analyzing unit 21 is used for comparing latest debug data with set data, the data association and analyzing unit 22 is used for analyzing data association part, the data secondary processing unit 23 is used for performing data secondary processing on analysis comparison and analysis data and association and detecting unit 24 is used for checking secondary processed data, and the analysis result output unit 25 is used for outputting checked data.
In this embodiment, the data maintenance module 12 includes a data slicing processing unit 26, a data mobilizing processing unit 27, a data adding processing unit 28 and a data integration updating unit 29, where the data slicing processing unit 26 is used for slicing acquired data and arranging the data, the data mobilizing processing unit 27 is used for mobilizing the arranged data according to the data sequence relationship, the data adding processing unit 28 is used for automatically identifying and filling missing data, and the data integration updating unit 29 is used for integrally updating the mobilized and added data.
In this embodiment, the operation flow of developing the debug system 3 includes the following steps:
s1, after acquiring parameter data in the process of debugging equipment in an intelligent factory through a data acquisition module 4, a manager uploads the acquired parameter data to a database 7 through an input device 5 and a data input module 6;
s2, when the data processing module 8 acquires the latest debugging parameter data from the database 7, carrying out deep processing on the parameter data, and uploading the processed data to the data query module 9;
s3, the data query module 9 performs keyword retrieval on the uploaded data, extracts, screens and sorts the keyword data in the parameter data, and uploads the keyword data to the report output module 10;
and S4, after the report output module 10 acquires the data uploaded by the data query module 9, the data are automatically sorted, a debugging report is generated, and the debugging report is displayed through the output equipment 11.
In this embodiment, when step S2 is performed and the data maintenance module 12 obtains the latest debug parameter data in the database 7, the data is maintained and updated, and uploaded to the data query module 9 as standby and comparison data.
In this embodiment, in step S2, performing deep processing on the data of the data processing module 8 includes the following steps:
a. when the data processing module 8 acquires the latest debugging parameter data from the database 7, the original data cleaning unit 19 deletes the historical debugging parameter data, and the data read-write acquisition unit 20 reads the latest debugging parameter data and the setting parameter data;
b. the data comparison analysis unit 21 performs data comparison analysis on the latest debugging parameter data and the setting parameter data read by the data read-write acquisition unit 20, and the data correlation analysis unit 22 performs analysis on the latest debugging parameter data and the setting parameter data correlation read by the data read-write acquisition unit 20;
c. the data analyzed by the data comparison and analysis unit 21 and the data analyzed by the data association analysis unit 22 are processed secondarily by the data secondary processing unit 23, integrated into new parameter data, and uploaded to the data query module 9 by the analysis result output unit 25.
According to the invention, the data acquisition module 4 is used for collecting parameter data of various devices in the intelligent factory in the software debugging process, the parameter data are uploaded to the database 7 through the input device 5 and the data input module 6, the data are deeply processed through the data processing module 8, the data are conveyed to be filled and updated through the data maintenance module 12, the processed data are extracted, screened, classified and integrated through the data query module 9, and finally, the data report is generated through the report output module 10, so that the automatic processing of the data is realized, the missing and incomplete data are automatically filled and updated, the time for manually analyzing the parameter data in the device debugging process is greatly reduced, the debugging report is automatically generated, and a manager only needs to adjust the device parameter data according to the debugging report, thereby improving the device debugging efficiency in the intelligent factory.
The above embodiments are only for illustrating the present invention, and are not limiting of the present invention. While the invention has been described in detail with reference to the embodiments, those skilled in the art will appreciate that various combinations, modifications, and substitutions can be made thereto without departing from the spirit and scope of the invention as defined in the appended claims.
Claims (10)
1. The utility model provides a computer software technology development debugging system, includes user login module (1), interface control module (2) and development debugging system (3), its characterized in that: the user login module (1) is connected with the interface control module (2) through a data transmission technology, the interface control module (2) is connected with the development and debugging system (3) through the data transmission technology, and is used for a user to log in to the development and debugging system (3) of different interfaces according to different account grades;
the development and debugging system (3) comprises a data acquisition module (4), an input device (5), a data input module (6), a database (7), a data processing module (8), a data query module (9), a report output module (10), an output device (11) and a data maintenance module (12), wherein the data acquisition module (4) is used for acquiring parameter data during equipment debugging in an intelligent factory, the parameter data are input into the database (7) through the input device (5) and the data input module (6), the database (7) is connected with the data processing module (8) through a data transmission technology and is used for processing the acquired parameter data, the database (7) is further connected with the data maintenance module (12) through a data transmission technology and is used for updating and maintaining the acquired parameter data, the data maintenance module (12) and the data processing module (8) are both connected with the data query module (9) through the data transmission technology and are used for extracting, screening and sorting key words in the parameter data, and the data query module (9) is connected with the output module (10) through the data transmission technology and is used for automatically screening and sorting the extracted parameter data and processing the acquired parameter data, and finally outputting the report data and generating and debugging the report (10).
2. A computer software development and debugging system as in claim 1, wherein: the development and debugging system (3) is provided with two different data management main interfaces, and when a user logs in through the user login module (1), the interface control module (2) judges the grade of a user account and selects the main interfaces of the development and debugging system (3) for personnel with different grades.
3. A computer software development and debugging system as in claim 1, wherein: the input device (5) includes, but is not limited to, a keyboard, a mouse, and a memory disk.
4. A computer software development and debugging system as in claim 1, wherein: the output device (11) includes, but is not limited to, a printer, a facsimile machine, and a display screen.
5. A computer software development and debugging system as in claim 1, wherein: the data acquisition module (4) comprises a mechanical data unit (13), a pipeline data unit (14), an electrical data unit (15), an instrument data unit (16), a safety data unit (17) and a communication data unit (18), wherein the mechanical data unit (13) is used for acquiring parameter data in a mechanical equipment debugging process in the intelligent factory, the parameter data comprises, but is not limited to, acquiring parameter data in a pump type, a manipulator type, a compressor type, a heating and ventilation type, a generator type, a normal pressure container type and a pressure container type mechanical equipment debugging process, the pipeline data unit (14) is used for acquiring parameter data in various functional pipeline debugging processes in the intelligent factory, the electrical data unit (15) is used for acquiring parameter data in an electrical equipment debugging process in the intelligent factory, the parameter data comprises, but is not limited to, acquiring parameter data in a control panel, various motors and a cable debugging process, the instrument data unit (16) is used for acquiring parameter data in the intelligent factory, the parameter data comprises, but is not limited to, acquiring parameter data in a pump type, a manipulator type, a display instrument, a safety valve instrument, a manual valve instrument and an electric valve instrument, and a motor valve instrument, the safety data unit (17) are used for acquiring parameter data in the intelligent factory, the safety data in the intelligent factory is used for acquiring parameter data in the intelligent equipment debugging process, the safety data in the intelligent factory, and the parameter data in the communication equipment debugging process comprises, but is not limited to acquiring parameter data in the intelligent equipment debugging process in the electrical equipment debugging process.
6. A computer software development and debugging system as in claim 1, wherein: the data processing module (8) comprises an original data cleaning unit (19), a data reading and writing acquisition unit (20), a data comparison analysis unit (21), a data association analysis unit (22), a data secondary processing unit (23), a data verification detection unit (24) and an analysis result output unit (25), wherein the original data cleaning unit (19) is used for cleaning historical debugging data, the data reading and writing acquisition unit (20) is used for reading latest debugging data, the data comparison analysis unit (21) is used for performing comparison analysis on the latest debugging data and set data, the data association analysis unit (22) is used for analyzing a data association part, the data secondary processing unit (23) is used for performing data secondary processing on the analysis comparison analysis data and the association analysis data, the data verification detection unit (24) is used for verifying the secondary processing data, and the analysis result output unit (25) is used for outputting the verified data.
7. A computer software development and debugging system as in claim 1, wherein: the data maintenance module (12) comprises a data slicing processing unit (26), a data transferring processing unit (27), a data adding processing unit (28) and a data integration updating unit (29), wherein the data slicing processing unit (26) is used for conducting slicing processing on acquired data and arranging the data, the data transferring processing unit (27) is used for transferring the arranged data according to a data sequence relation, the data adding processing unit (28) is used for automatically identifying and filling missing data, and the data integration updating unit (29) is used for integrally updating the transferred and added data.
8. A computer software development and debugging system as in claim 1, wherein: the operation flow of the development and debugging system (3) comprises the following steps:
s1, after a manager acquires parameter data in the process of debugging equipment in an intelligent factory through a data acquisition module (4), the acquired parameter data is uploaded to a database (7) through an input device (5) and a data input module (6);
s2, when the data processing module (8) acquires the latest debugging parameter data from the database (7), carrying out deep processing on the parameter data, and uploading the processed data to the data query module (9);
s3, the data query module (9) performs keyword retrieval on the uploaded data, extracts, screens and sorts the key data in the parameter data, and uploads the key data to the report output module (10);
s4, after the report output module (10) acquires the data uploaded by the data query module (9), the data are automatically sorted, a debugging report is generated, and the debugging report is displayed through the output equipment (11).
9. The computer software development and debugging system of claim 8, wherein: and when the step S2 is carried out and the latest debugging parameter data in the database (7) is obtained by the data maintenance module (12), the data are maintained and updated and are uploaded to the data query module (9) to serve as standby and comparison data.
10. The computer software development and debugging system of claim 8, wherein: in the step S2, the deep processing of the data processing module (8) includes the following steps:
a. when the data processing module (8) acquires the latest debugging parameter data from the database (7), the historical debugging parameter data is deleted through the original data cleaning unit (19), and the latest debugging parameter data and the setting parameter data are read through the data reading and writing acquisition unit (20);
b. the data comparison analysis unit (21) is used for carrying out data comparison analysis on the latest debugging parameter data and the setting parameter data read by the data read-write acquisition unit (20), and the data correlation analysis unit (22) is used for carrying out analysis on the latest debugging parameter data and the setting parameter data correlation read by the data read-write acquisition unit (20);
c. the data analyzed by the data comparison analysis unit (21) and the data analyzed by the data association analysis unit (22) are processed secondarily by the data secondary processing unit (23) and integrated into new parameter data, and the new parameter data is uploaded to the data query module (9) by the analysis result output unit (25).
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