ABSTRACT
Cyber-Physical Energy System (CPES) has been seen as the new paradigm of tight integration of power systems, embedded systems, control, and communication. CPES is capable of improving power grid reliability, efficiency, and performance by managing the supply and demand functionalities of the power systems effectively and intelligently. In this demo, we present an energy management system prototype for home and microgrid levels (both from residential domain), implemented over a fog computing platform. The prototype is capable of supporting interoperability, scalability, ease of deployment, cost effectiveness, open architecture, plug-n-play, and local and remote monitoring in a single package to fulfill the mandates by US Department of Energy (DOE) [1].
- U.S. Department of Energy Energy Efficiency and Renewable Energy Golden Service Center. Financial Assistant Funding Oppurtunity Announcement. 28 March 2013. "DE-FOA-0000822: "Turn Key" Open Source Software Solutions for Energy Management of Small to Medium Sized Buildings"., 2014.Google Scholar
- Mohammad Abdullah Al Faruque and Fereidoun Ahourai. A Model-Based Design of Cyber-Physical Energy Systems. 19th Asia and South Pacific Design Automation Conference (ASP-DAC), pages 97--104, 2014.Google Scholar
- Korosh Vatanparvar, Quan Chau, and Mohammad Abdullah Al Faruque. Home Energy Management as a Service over Networking Platforms. IEEE PES Conference on Innovative Smart Grid Technologies (ISGT), 2015.Google ScholarCross Ref
- Korosh Vatanparvar and Mohammad Abdullah Al Faruque. Design Space Exploration for the Profitability of a Rule-Based Aggregator Business Model Within a Residential Microgrid. IEEE Transactions on Smart Grid, 2014.Google Scholar
- Flavio Bonomi, Rodolfo Milito, Jiang Zhu, and Sateesh Addepalli. Fog Computing and Its Role in the Internet of Things. Proceedings of the 1st Mobile Cloud Computing Workshop, pages 13--16, 2012. Google ScholarDigital Library
Index Terms
- Energy management as a service over fog computing platform
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