Part of the book series:Lecture Notes on Data Engineering and Communications Technologies ((LNDECT,volume 7))
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Abstract
Home energy management within the traditional grid is difficult, so Smart Grid (SG) is introduced by upgrading the traditional grid, i.e., adding the Information Technology (IT) and Sensors Network (SN) to traditional grids. SG manages the Demand of electricity and help in solving the electricity load management problem. Demand Side response has two parts monitoring the electricity and notify consumers about its pricing scheme and bill, this can be done using smart meters. In smart metering system homes are integrated with Energy Management Controller (EMC) which uses Demand Side Management (DSM) systems based on a optimization technique. In this paper a system is proposed which manages the load by shifting from peak hours to off peak hours, reduce electricity bill, reduce waiting time and reduce Peak to Average Ratio (PAR). For simulations we use classification consist of 3 classes of appliances, Time of Use (ToU) as our pricing signal and Social Spider Optimization (SSO) our technique. The simulations results show the achievements of the system.
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Authors and Affiliations
COMSATS Institute of Information Technology, Islamabad, 44000, Pakistan
Mujeeb Ur Rehman, Tamour Bilal, Muhammad Awais, Muhammad Junaid, Asma Zahra & Nadeem Javaid
- Mujeeb Ur Rehman
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- Tamour Bilal
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- Muhammad Awais
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- Muhammad Junaid
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- Asma Zahra
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- Nadeem Javaid
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Correspondence toNadeem Javaid.
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Editors and Affiliations
Department of Information and Communication Engineering, Faculty of Information Engineering, Fukuoka Institute of Technology, Fukuoka, Japan
Leonard Barolli
Rissho University, Tokyo, Japan
Tomoya Enokido
Hosei University, Tokyo, Japan
Makoto Takizawa
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Ur Rehman, M., Bilal, T., Awais, M., Junaid, M., Zahra, A., Javaid, N. (2018). A Social Spider Optimization Based Home Energy Management System. In: Barolli, L., Enokido, T., Takizawa, M. (eds) Advances in Network-Based Information Systems. NBiS 2017. Lecture Notes on Data Engineering and Communications Technologies, vol 7. Springer, Cham. https://doi.org/10.1007/978-3-319-65521-5_69
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