Previous research and development where been carried out in the field of electric meter such as Remote wireless Energy measurement from Meter, Electricity meter based on RFID, GSM based Electric Metering System. But none of found to be an effective tool to eliminate the problems associated with power demand. The current project work is carried to solve the problems associated with power demand by designing an energy meter that effectively handle the power consumed by the consumer with the power available on that time. Giving the flexibility to the consumer to determine which devices or loads to be operated in a particular time which reduces the misuse of the power and effective power saved can be given to other places or industries for the better of the country’s growth. Prototype hardware is developed to demonstrate the efficient of the system.

J. Byun, I. Hong, and S. Park, Intelligent cloud home energy managementsystem using household appliance priority based scheduling basedon prediction of renewable energy capability IEEE Trans. Consum.Electron., vol. 58, no. 4, pp. 1194–1201, Nov. 2012.

J. Han, C. S. Choi, and I. Lee, “More efficient home energy managementsystem based on ZigBee communication and infrared remote controls,” IEEE Trans. Consum. Electron., vol. 57, no. 1, pp. 85–89, Feb. 2011.

M. Kuzlu, M. Pipattanasomporn, and S. Rahman, “Hardware demonstration of a home energy management system for demand responseapplications,” IEEE Trans. Smart Grid, vol. 3, no. 4, pp. 1704–1711, Dec. 2012.

M. Pipattanasomporn, M. Kuzlu, and S. Rahman, “An algorithm forintelligent home energy management and demand response analysis,”IEEE Trans. Smart Grid, vol. 3, no. 4, pp. 2166–2173, Dec. 2012.

P. Zhao, S. Suryanarayanan, and M. G. Simões, “An energy management system for building structures using a multi-agent decision-making control methodology,” IEEE Trans. Ind. Appl., vol. 49, no. 1, pp. 322–330,Jan. 2013.

F. Paradiso, F. Paganelli, A. Luchetta, D. Giuli, and P.astrogiovanni, “ANN-based appliance recognition from low-frequency energy monitoringdata,” in Proc. 2013 IEEE 14th Int. Symp.Workshops World Wireless, Mobile Multimedia Netw., Madrid, Spain, pp. 1–6.

M. S. Tsai and Y. H. Lin, “Modern development of an adaptivenon-intrusive appliance load monitoring system in electricity energyconservation,” Appl. Energy, vol. 96, pp. 55–73, Aug. 2012.

Y. H. Lin and M. S. Tsai, “Development of an improved time-frequency analysis-based non- intrusive load monitor for load demand identification,” IEEE Trans. Instrum. Meas., vol. 63, no. 6, pp. 1470–1483, Jun. 2013.

Y. H. Lin and M. S. Tsai, “Non- intrusive load monitoring by novel neuro-fuzzy classification considering uncertainties,” IEEE Trans. Smart Grid, vol. 5, no. 5, pp. 2376–2384, Aug. 2014.

Y. H. Lin and M. S. Tsai, “Application of neuro-fuzzy pattern recognitionfor non-intrusive appliance load monitoring in electricity energy