Infrared Thermal Imaging of Power Grid Fault Information Acquisition System Based on GIS

Wei Gang Zheng; Zai Lin Piao; Dong Ming Tan; Zhe Yuan Wang

doi:10.4028/www.scientific.net/AMR.791-793.1892

Paper Titles

Application and Selection to AC and DC Voltage Grades for Microgrids
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Design and Optimization of a New Micro-Hotplate for Gas Sensor
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The Research of the Real-Time Performance of Power Flow Visualization Based on Digital Power Distribution Network
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Design of Low-Voltage Power Distribution System
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Infrared Thermal Imaging of Power Grid Fault Information Acquisition System Based on GIS
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Numerical Simulation of the Effects of Operating Parameters on the Electrical Performance of DEFC
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Research on Evaluation Method of the Bridge Strengthening Effect Based on Fiber Optic Sensor
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The Design of a Low Cost CANopen Slave Node Based on STC90C514RD
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Research on the Dynamic Response of Capacitive RF-MEMS Switch
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 791-793Infrared Thermal Imaging of Power Grid Fault...

Infrared Thermal Imaging of Power Grid Fault Information Acquisition System Based on GIS

Abstract:

nfrared temperature measurement technology is an important means that early detection of equipment external overheating fault and internal insulation fault, and advanced detection methods of power equipment condition monitoring.Infrared temperature measurement technology found the hidden dangers of electrical equipment heating of the external connection points, has been widely applied in power system. With comparing the original ant colony optimization, this paper presents an improved weighted Ant Colony Optimization path planning algorithm based on Infrared image acquisition noise reduction processing and combining WCDMA network transmission mode, and constitute a visual background management system with rural power network .The system could capture power equipment infrared images and reduction noise simply, send it to the background server through the 3G network, for artificial auxiliary to predicting grid failure, scientific planning repair inspection path with improved navigation algorithm, and improve the stability of the power grid operation.

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Periodical:

Advanced Materials Research (Volumes 791-793)

Pages:

1892-1896

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.791-793.1892

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Online since:

September 2013

Authors:

Wei Gang Zheng, Zai Lin Piao, Dong Ming Tan, Zhe Yuan Wang

Keywords:

Ant Colony Optimization (ACO), Distribution Network, Infrared Image, Navigation Overhaul

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