The research of quantitative analysis for SF6 and its derivatives in GIS based on infrared spectrum

Yongbiao Zhao; Qilin Zhang

doi:10.1117/12.2014016

13 March 2013 The research of quantitative analysis for SF6 and its derivatives in GIS based on infrared spectrum

Yongbiao Zhao, Qilin Zhang

Proceedings Volume 8783, Fifth International Conference on Machine Vision (ICMV 2012): Computer Vision, Image Analysis and Processing; 878313 (2013) https://doi.org/10.1117/12.2014016
Event: Fifth International Conference on Machine Vision (ICMV 12), 2012, Wuhan, China

Abstract

The concentration and types of SF₆ in Gas Insulated Switchgear (GIS) play a decisive role in the devices’ insulating property. A quantitative analysis of SF₆ and its decompositions can help to find the reason of fault. In order to find the concentration information of some special ramifications of SF₆ from the infrared spectrum of GIS’s gas, this paper proposes Particle Swarm Optimization combines with Support Vector Machine to analysis the insulating medium SF₆ and its ramifications quantitatively. This paper studies the spectrum of several ingredients that are mordant to the insulator instruments in the ramifications, such as HF and SO_2. The mixed spectrum is divided into 13 parts, and the area of every part is calculated. The centre of each part is the characteristic peaks, and contains 35 wave numbers both side. These areas are used as the inputs of Support Vector Machine; the outputs is volumes of the three gases. The Particle Swarm Optimization is used to train the Support Vector Machine. The experiment shows Support Vector Machine based on Particle Swarm Optimization is time saved and accurate, which has practical significance and application potentiality.

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Yongbiao Zhao and Qilin Zhang "The research of quantitative analysis for SF6 and its derivatives in GIS based on infrared spectrum", Proc. SPIE 8783, Fifth International Conference on Machine Vision (ICMV 2012): Computer Vision, Image Analysis and Processing, 878313 (13 March 2013); https://doi.org/10.1117/12.2014016

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KEYWORDS

Particle swarm optimization

Geographic information systems

Infrared radiation

Particles

Quantitative analysis

Analytical research

Optimization (mathematics)

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