The problem of power consumption sounding an audible siren, only the solution is just a modern system would help. The "smart house" concept is a sample of what can be done with home automation these days, and why it's worth doing. The fundamental goal of Smart House is to provide integrated wiring for all current home services and to include provisions for home automation technology. Smart House is promoted for the following major home automation applications: entertainment, lighting, HVAC control, interface between an existing security system and a Smart House control panel. I have been effectively proving by considering both energy consumption and generation. By using of controlling system automatic performances are performed in the Smart house. This system utilizes different sensors to control household appliances. This system also provides the ability to perform automation on smart load controls based on utility signals to the user, customer‘s preference and load priority signals received from

HMs. It provides user to know the Demand of the appliances using wireless technology Bluetooth. Consideration of any power cuts or failing of main supplies will switch to the solar system .

Data from PJM’s hourly load data” J. E. Runnels and M. D. Whyte, “Evaluation of demand-side management,” Proc. IEEE, vol. 73, no. 10, pp. 1489–1495, Oct. 1985.

C.W. Gellings, “The concept of demand-side management for electric utilities,” Proc. IEEE, vol. 73, pp. 1468–1470, Oct. 1985.

Federal Energy Regulatory Commission, “Assessment of demand response and advanced metering”

M. Pipattanasomporn, M. Kuzlu, and S. Rahman, “An algorithm for intelligent home energy management and simulation for demand response analysis,” IEEE Trans. Smart Grid, accepted for publication.

M. A. Piette, D.Watson, N.Motegi, S. Kiliccote, and E. Linkugel, “Automated demand response strategies and commissioning commercial building controls,” in Proc. 14th Natl. Conf. Building Commissioning, San Francisco, CA, Apr. 2006.

D. Han and J. Lim, “Design and implementation of smart home energy management systems based on ZigBee,” IEEE Trans. Consum. Electron., vol. 56, no. 3, pp. 1417–1425, 2010.

Y. S. Son, T. Pulkkinen, K. Y. Moon, and C. Kim, “Home energy management system based on power line communication,” IEEE Trans. Consum. Electron., vol. 56, pp. 1380–1386, 2010.

J. Li, J. Y. Chung, J. Xiao, J.W. Hong, and R. Boutaba, “On the design and implementation of a home energy management system,” in Proc. 6th Int. Symp.Wireless Pervasive Comput. (ISWPC), Feb. 23–25, 2011, pp. 1–6.

J. Han, C. S. Choi, W. K. Park, and I. Lee, “Green home energy management system through comparison of energy usage between the same kinds of home appliances,” in Proc. 15h IEEE Int. Symp. Consum. Electron. (ISCE), 2011, pp. 1–4.

M. Erol-Kantarci and H. T. Mouftah, “Wireless sensor networks for cost efficient residential energy management in the smart grid,” IEEE Trans. Smart Grid, vol. 2, no. 2, pp. 314–325, 2011.