STUDY OF OVERHEAD POWER LINE CORRIDORS ON THE TERRITORY OF PSKOV REGION (RUSSIA) BASED ON SATELLITE SOUNDING DATA

Sergei Mikhalap, Sergei Trashenkov, Vera Vasilyeva


Last modified: 23.05.2019

Abstract

Overhead power lines (OPL) form the basis of a power grid. Reliable energy supply depends on no-failure operation of these long-length elements of energy infrastructure. More than 12,000 km out of 45,000 km of OPL in Pskov region (Russia) pass through forests. This study investigates the possibilities of using satellite-sensing data to assess the conditions of corridors for OPL with different voltage levels. Authors evaluated compliance of actual data with requirements of national standards. The dynamics of vegetation and local topography based on synthetic aperture radar data and multispectral images were taken into account.

Keywords


GIS; NDVI; overhead power lines; satelite sounding data

References


[1]     L. Matikainen et al., “Remote sensing methods for power line corridor surveys,” ISPRS J. Photogramm. Remote Sens., vol. 119, pp. 10–31, 2016.

[2]     T. Bretterklieber, M. Neumayer, M. Flatscher, A. Becke, and G. Brasseur, “Model Based Monitoring of Ice Accretion on Overhead Power Lines.”

[3]     I. Dominik and M. Iwaniec, “Low Frequency Damage Analysis of Electric Pylon Model by Fuzzy Logic Application,” vol. 32, no. 3, pp. 239–251, 2013.

[4]     T. Yin, H. F. Lam, H. M. Chow, and H. P. Zhu, “Dynamic reduction-based structural damage detection of transmission tower utilizing ambient vibration data Dynamic reduction-based structural damage detection of transmission tower utilizing ambient vibration data,” Eng. Struct., vol. 31, no. 9, pp. 2009–2019, 2009.

[5]     I. Y. Shurrab, A. El-hag, K. Assaleh, and R. Ghunem, “Partial Discharge On-Line Monitoring of Outdoor Insulators,” pp. 391–394, 2012.

[6]     A. Banik, “Condition Monitoring of Overhead line Insulator By measuring Surface Leakage Current,” 2014.

[7]     G. Ma, C. Li, S. Member, J. Jiang, and J. Liang, “A Passive Optical Fiber Anemometer for Wind Speed Measurement on High-Voltage Overhead Transmission Lines,” vol. 61, no. 2, pp. 539–544, 2012.

[8]     J. Bernardino, “Bird collisions with power lines : State of the art and priority areas for research Bird collisions with power lines : State of the art and priority areas for,” Biol. Conserv., vol. 222, no. April, pp. 1–13, 2018.

[9]     C. E. Commission, “BIRD STRIKE INDICATOR FIELD DEPLOYMENT AT THE AUDUBON NATIONAL,” 2008.

[10]   J. Ahmad, A. S. Malik, L. Xia, and N. Ashikin, “Vegetation encroachment monitoring for transmission lines right-of-ways: A survey,” Electr. Power Syst. Res., vol. 95, pp. 339–352, 2013.

[11]   Ю. Соколов, “Об уроках массовых нарушений на сетях электроснабжения регионов Российской Федерации в декабре 2010 — январе 2011 гг. , вызванные гололедно-изморозевыми явлениями,” Стратегия гражданской защиты проблемы и исследования., vol. 2, no. 2, pp. 81–97, 2011.

[12]   M. M. Loranty et al., “Vegetation indices do not capture forest cover variation in Upland Siberian larch forests,” Remote Sens., vol. 10, no. 11, 2018.