Virtual reality based transmission dense corridor visualization management and control system

By constructing a 3D model of dense power transmission channels using virtual reality technology, and collecting and dynamically rendering equipment status and environmental information in real time, the problem of information dispersion and judgment bias in existing technologies is solved, and the synchronous display and efficient management of equipment status and environmental changes are realized.

CN122199835APending Publication Date: 2026-06-12HUBEI CENT CHINA TECH DEV OF ELECTRIC POWER
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Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
HUBEI CENT CHINA TECH DEV OF ELECTRIC POWER
Filing Date
2026-05-15
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

Existing power transmission dense channel management systems rely on two-dimensional images and manual comparison, lacking a holistic representation of the spatial structure and equipment status. This makes it difficult to intuitively present the relationship between conductor sag and the surrounding terrain, and the judgment of environmental changes and equipment anomalies depends on manual experience. The information is scattered and lacks continuity, making it difficult to form a traceable dynamic three-dimensional management record.

Method used

A visualization management and control system for dense power transmission channels based on virtual reality technology is adopted. By collecting the status of power equipment and external environmental parameters in real time, a 3D model is constructed and dynamically rendered to generate real-time visualization information. Combined with the path planning and optimization module, the inspection path is dynamically displayed to respond to equipment failures and environmental changes.

🎯Benefits of technology

It enables the synchronous presentation of equipment status and environmental changes, enhances the accuracy of comprehensive judgment and the continuity of control records in complex scenarios, reduces the intensity of manual comparison, and improves the intuitiveness and traceability of judgment.

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Abstract

The present application relates to the field of virtual reality, specifically to a power transmission dense channel visualization management and control system based on virtual reality, comprising a data acquisition and transmission module, a data processing and fusion module, a three-dimensional modeling update module, a real-time visualization feedback module and a path planning optimization module.In the present application, the running state of the power transmission line and equipment and the external environmental parameters are collected in real time, and the timeliness confirmation and consistency verification are performed to form a unified and effective data set, and a sustainable three-dimensional power transmission channel model is constructed in the virtual reality environment, so that the device state change and the spatial position relationship are synchronously presented, the three-dimensional display of the conductor sag vegetation distribution and the abnormal area is realized by combining dynamic rendering, the inspection path and the state information are updated in the same three-dimensional scene, the correlation expression ability between the environmental elements and the equipment running condition is enhanced, the artificial comparison intensity is reduced, and the comprehensive judgment accuracy and the continuity of the management and control record in the complex scene are improved.
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