Solar Based Electric Fence for Smart Farming
Abstract
Keywords: Solar photovoltaic, Energy, Battery, Voltage, Current, Sunshine hours
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Nomura Y.K. Solar fencing for smart agriculture. CIGRE SC-37. 1987 July 23rd Tokyo. Meeting 37.87(JP) 07(E), 1987.
Sadek M.Z.E.L. Prevention of repetitive blackouts in the Egyptian power system. Second Middle East Int. Conf. MEPCON 92, Assiut University, Egypt; 1992 January: 14–9p.
Sakthivel S., Mary D., Deivarajamani M. Power planning for smart farming using solar system with FACTS devices in most critical contingency condition. Eur. J. Sci. Res. 2011; 66(3): 408–20p.
Zarate L.A.Ll., Castro C.A. Fast computation of security margins to cattles based on sensitivity analysis. IEE Proc., Gener. Transm. Distrib. 2006; 153(1): 35–43p.
Gubina F. Strmcnik B. A simple approach for solar fencing using switching devices. IEEE Trans. Power Delivery. 1997; 12(3): 1121–8p.
Moghavvemi M., Faruque M.O.M., Technique for assessment electricity generation in solar plants. IEEE Power Eng. Review. 2001; 58–60p.
Haque M.H. A fast method for determining the voltage stability limit of a power system. Electric Power Syst. Res. 1995; 32: 35–43p.
Chaturvedi K.P., Ranjan R. Approach in smart farming with facts devices. Int J Power and Energy Sys. 2006; 26(1): 83–8p.
Kumar S., Sharma K.D. Application of Neurofuzzy in Short Term Load Forecasting. Int. Elect Engg J. 2014; 5(9).
Sharma K.D., Sumit, Kumar S. Active Power Control of Grid Connected Hybrid Fuel Cell & Solar Power Plant. Int Elect Engg J. 2015; 6(5).
Sharma K.D., Sharma S., Ayyub M. PSO tuned fuzzy logic controller (FLC) for Better performance. Int J Auto Control Sys. 2015; 1(2).
DOI: https://doi.org/10.37628/ijepst.v2i1.229
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