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CN-121999660-A - Comprehensive practical training system for uninterrupted operation and control method thereof

CN121999660ACN 121999660 ACN121999660 ACN 121999660ACN-121999660-A

Abstract

The invention discloses a comprehensive practical training system for uninterrupted operation and a control method thereof, wherein the system comprises a physical practical training subsystem, a virtual simulation subsystem and a central control subsystem, wherein the physical practical training subsystem is used for providing a physical practical operation scene of uninterrupted operation, collecting first operation related data of a student under the scene, the virtual simulation subsystem is used for constructing a three-dimensional virtual training environment which is synchronous with the physical practical operation scene in a mapping mode, collecting second operation related data of the student under the environment, and the central control subsystem is used for receiving and fusing the first operation related data and the second operation related data, and generating control instructions for the physical practical training subsystem and guide instructions for the virtual simulation subsystem respectively based on the fused data so as to realize the guidance of the operation of the student and the feedback control of the scene. The invention can comprehensively simulate various operation scenes including extreme weather and fault working conditions, and has higher training efficiency and better training effect.

Inventors

  • YANG SONG
  • ZOU JIANGHUA
  • LIU JIAN
  • LUO YAN
  • LIU JIN
  • TAN JIN
  • XIONG SHILEI
  • YUAN XIAOSONG

Assignees

  • 贵州电网有限责任公司遵义供电局

Dates

Publication Date
20260508
Application Date
20260203

Claims (10)

  1. 1. The utility model provides a real standard system of uninterrupted operation synthesis which characterized in that includes: The physical training subsystem is used for providing a physical practical operation scene of uninterrupted operation and collecting first operation related data of a student under the scene; The virtual simulation subsystem is used for constructing a three-dimensional virtual training environment which is synchronous with the mapping of the physical real playground scene and collecting second operation related data of a student under the environment; And the central control subsystem is used for receiving and fusing the first operation related data and the second operation related data, and generating a control instruction for the physical training subsystem and a guide instruction for the virtual simulation subsystem respectively based on the fused data so as to realize the feedback control of guidance and scenes of the operation of a student.
  2. 2. The system of claim 1, wherein the central control subsystem comprises: The configuration management module is used for setting and issuing practical training parameters to the physical practical training subsystem and the virtual simulation subsystem so as to carry out cooperative configuration on the physical practical operation scene and the three-dimensional virtual training environment; The data fusion center is used for receiving and fusing the first operation related data and the second operation related data; And the evaluation feedback module is used for analyzing based on the data fused by the data fusion center so as to generate the control instruction and the guide instruction.
  3. 3. The system of claim 2, wherein the physical training subsystem comprises: The reconfigurable circuit unit is used for adjusting the circuit structure and the equipment layout under the physical practical playground based on the practical training parameters of the central control subsystem; the intelligent tool unit is used for collecting the taking state of the working tool in the physical practical playground and part of the first operation related data generated when a learner operates the tool; And the environment monitoring unit is used for collecting environment state information and student operation images in the physical practical operation scene as a part of the first operation related data.
  4. 4. A system according to claim 3, wherein the reconfigurable circuit unit comprises: the fault injection device is used for generating a preset fault phenomenon in the line under the physical operation scene based on the practical training parameters of the central control subsystem; and the state feedback component is used for collecting real-time electrical parameters of the line and working equipment state information and feeding the real-time electrical parameters and the working equipment state information back to the central control subsystem as a part of the first operation related data.
  5. 5. The system of claim 1, wherein the virtual simulation subsystem comprises: The scene rendering unit is used for generating the three-dimensional virtual training environment based on the training parameters of the central control subsystem; the interaction capturing unit is used for collecting operation actions and track data of a student in the three-dimensional virtual training environment to form second operation related data and uploading the second operation related data to the central control subsystem; and the guiding prompt unit is used for receiving the guiding instruction of the central control subsystem and displaying operation guidance or risk prompts in the three-dimensional virtual training environment.
  6. 6. The system of claim 5, wherein the virtual simulation subsystem further comprises: The augmented reality module is used for cooperating with the physical training subsystem to operate and superposing virtual information into a real operation visual field of a student; And the hybrid training coordinator is used for coordinating the step-by-step execution and data connection of the same training task in the physical real operation scene and the three-dimensional virtual training environment.
  7. 7. The system of claim 2, wherein the assessment feedback module comprises: the real-time analysis unit is used for analyzing the operation of a student in real time based on the data fused by the data fusion center, identifying violations or risks and triggering early warning so as to form the guide instruction; The comprehensive evaluation unit is used for analyzing the whole operation process based on the data fused by the data fusion center and generating a multi-dimensional skill evaluation result so as to form the guide instruction and the control instruction; And the personalized recommendation unit is used for making a subsequent training plan of the student according to the historical training data and the current evaluation result of the comprehensive evaluation unit.
  8. 8. The system of claim 2, further comprising a digital twinning disk module coupled to the data fusion center for reconstructing a complete training process into an interactable three-dimensional model supporting multi-view playback and critical node labeling, wherein the input data of the digital twinning disk module comprises the first operation related data and the second operation related data.
  9. 9. The system of claim 1, further comprising a standardized job management module coupled to the central control subsystem and the virtual simulation subsystem, the job management module comprising: The rule database is used for storing structured operation rules and risk point information; the step verifier is used for verifying whether the current operation step of a student meets the requirement of a procedure or not based on the information of the procedure database, and sending a verification result to the virtual simulation subsystem to generate a prompt; And the compliance recorder is used for recording the verification result of the step verifier and generating a compliance report which is fed back to the central control subsystem based on the recorded result.
  10. 10. The uninterrupted power operation comprehensive practical training control method applied to the uninterrupted power operation comprehensive practical training system as claimed in any one of claims 1 to 9 is characterized by comprising the following steps: The central control subsystem receives the training configuration instruction and generates unified training parameters; The training parameters are simultaneously sent to two subsystems, namely a physical training subsystem and a virtual simulation subsystem, so that the two subsystems are initialized to the same training scene; In the training process, the central control subsystem synchronously receives operation data from the two subsystems; the central control subsystem performs fusion analysis on the received operation data to generate real-time feedback information, and feeds the feedback information back to the corresponding subsystems of the two subsystems; After training is finished, a training evaluation report is generated based on the whole process data and the student files are updated.

Description

Comprehensive practical training system for uninterrupted operation and control method thereof Technical Field The invention relates to the technical training field of power systems, in particular to a comprehensive practical training system for uninterrupted operation and a control method thereof. Background The uninterrupted operation is a key technology for guaranteeing reliable power supply of a power grid and improving the service quality of power supply. However, the professional skill training associated therewith has long faced serious challenges: 1) The limitations of the traditional physical training mode are prominent. The existing uninterrupted operation training mainly relies on fixed physical training lines and real (or step-down simulation) equipment. The mode has the problems of limited places, high cost, high safety risk, single solidification of a scene, incapability of safely simulating extreme and fault working conditions and the like. Meanwhile, the training effect is seriously dependent on personal experience of a instructor, the assessment subjectivity is strong, and standardized and large-scale talent training and skill authentication are difficult to realize. 2) With the development of VR (virtual reality) technology, part of training institutions introduce VR simulation systems for theoretical teaching or basic simulation, but generally form an independent VR training mode, which is separated from physical training operation, so that simulation contents are not tightly combined with actual operation rules, and training effects cannot be effectively migrated to a real working scene. Disclosure of Invention The invention provides a comprehensive practical training system for uninterrupted operation and a control method thereof, which can comprehensively simulate various operation scenes including extreme weather and fault working conditions, and has higher training efficiency and better training effect. On one hand, the invention provides a comprehensive practical training system for uninterrupted operation, which comprises the following components: The physical training subsystem is used for providing a physical practical operation scene of uninterrupted operation and collecting first operation related data of a student under the scene; The virtual simulation subsystem is used for constructing a three-dimensional virtual training environment which is synchronous with the mapping of the physical real playground scene and collecting second operation related data of a student under the environment; And the central control subsystem is used for receiving and fusing the first operation related data and the second operation related data, and generating a control instruction for the physical training subsystem and a guide instruction for the virtual simulation subsystem respectively based on the fused data so as to realize the feedback control of guidance and scenes of the operation of a student. Further, the central control subsystem includes: The configuration management module is used for setting and issuing practical training parameters to the physical practical training subsystem and the virtual simulation subsystem so as to carry out cooperative configuration on the physical practical operation scene and the three-dimensional virtual training environment; The data fusion center is used for receiving and fusing the first operation related data and the second operation related data; And the evaluation feedback module is used for analyzing based on the data fused by the data fusion center so as to generate the control instruction and the guide instruction. Further, the physical training subsystem includes: The reconfigurable circuit unit is used for adjusting the circuit structure and the equipment layout under the physical practical playground based on the practical training parameters of the central control subsystem; the intelligent tool unit is used for collecting the taking state of the working tool in the physical practical playground and part of the first operation related data generated when a learner operates the tool; And the environment monitoring unit is used for collecting environment state information and student operation images in the physical practical operation scene as a part of the first operation related data. Further, the reconfigurable circuit unit includes: the fault injection device is used for generating a preset fault phenomenon in the line under the physical operation scene based on the practical training parameters of the central control subsystem; and the state feedback component is used for collecting real-time electrical parameters of the line and working equipment state information and feeding the real-time electrical parameters and the working equipment state information back to the central control subsystem as a part of the first operation related data. Further, the virtual simulation subsystem includes: The scene rendering unit is used for generating