Article ID Journal Published Year Pages File Type
705341 Electric Power Systems Research 2013 14 Pages PDF
Abstract

With increasing blackouts owing to vegetation encroachments for transmission lines right-of-ways, it has become imperative for electric utilities to review their vegetation management practices to avoid incidents of un-intended encroachments. In this paper, advantages and limitations of existing techniques for inspecting transmission lines is presented. Regarding the clearance of un-intended vegetation for transmission lines right-of-ways, the surveillance of transmission lines is performed periodically through visual inspection, or by airborne system. The geographical information system (GIS) containing the geo-referenced data of assets, lands, wherefrom the transmission lines pass are essential tools for the improvement of transmission lines maintenance. Air-borne LiDAR scanners, videography, and aerophotogranometry are now available for surveillance applications. These tools, because of their accuracy in spatial resolution, can be applied to track not only invasions, but also monitor the vegetation surrounding the transmission lines right-of-ways. The paper discusses concept of utilizing multispectral satellite stereo images to recover 3D-digital elevation model (DEM) of transmission lines right-of-ways to identify dangerous vegetation that can strike the power lines to cause blackouts. Further, a new wireless multimedia sensor networks (WMSNs) based method is proposed which is cost effective, less time consuming and more accurate for the automated power line inspection against vegetation encroachments.

► We have discussed how transmission lines are affected by vegetation encroachments. ► We have surveyed how blackouts at massive level occurred in various parts of the world due to vegetation encroachments. ► Since we are from Malaysia so we have discussed this issue regarding Malaysia in detail. ► We thoroughly discussed various techniques for encroachment monitoring of transmission lines. ► The comparison and accuracy of traditional methods, and techniques that can be addressed in future are also discussed.

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Physical Sciences and Engineering Energy Energy Engineering and Power Technology
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