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Abstract
The accurate estimation of deposits adhering on insulators is critical to prevent pollution flashovers which cause huge costs worldwide. The traditional evaluation method of insulator contaminations (IC) is based sparse manual in-situ measurements, resulting in insufficient spatial representativeness and poor timeliness. Filling that gap, we proposed a novel evaluation framework of IC based on remote sensing and data mining. Varieties of products derived from satellite data, such as aerosol optical depth (AOD), digital elevation model (DEM), land use and land cover and normalized difference vegetation index were obtained to estimate the severity of IC along with the necessary field investigation inventory (pollution sources, ambient atmosphere and meteorological data). Rough set theory was utilized to minimize input sets under the prerequisite that the resultant set is equivalent to the full sets in terms of the decision ability to distinguish severity levels of IC. We found that AOD, the strength of pollution source and the precipitation are the top 3 decisive factors to estimate insulator contaminations. On that basis, different classification algorithm such as mahalanobis minimum distance, support vector machine (SVM) and maximum likelihood method were utilized to estimate severity levels of IC. 10-fold cross-validation was carried out to evaluate the performances of different methods. SVM yielded the best overall accuracy among three algorithms. An overall accuracy of more than 70% was witnessed, suggesting a promising application of remote sensing in power maintenance. To our knowledge, this is the first trial to introduce remote sensing and relevant data analysis technique into the estimation of electrical insulator contaminations.
Highlights
Flashovers happened in high-voltage electric power transmission systems caused huge losses to society with estimates of 80-100 billion dollars in the USA[1]
Each reduction set is the same with each other with respect to decisive ability. It may not be well explained from perspective of physics because the principle of rough set is based on data mining
A novel insulator contaminations (IC) level evaluation framework using remotely sensed data as key driving factor was proposed in this work to facilitate objective and effective assessment on IC levels in doi:10.5194/isprsarchives-XLI-B8-73-2016
Summary
Flashovers happened in high-voltage electric power transmission systems caused huge losses to society with estimates of 80-100 billion dollars in the USA[1]. Contaminated insulators are considered as a critical factor which is responsible for flashovers[2].According to statistics from the power industry of China, the contamination flashover ranked second in the occurrences of power accidents and ranked first in the cost of power accidents in 2001[3]. Along with the booming economy both the scale and the voltage of the operating power grid increase significantly in China. The damage caused by contamination flashover would be definitely more serious without any measures. The accurate estimation of deposits adhering on insulators is critical to prevent pollution flashovers which cause huge costs worldwide. The traditional evaluation method of insulator contaminations is based on sparse manual in-situ measurements which are time consuming and highly rely on experiences, resulting in insufficient spatial representativeness and poor timeliness
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