Versatile Energy Scheduler Compatible with Autonomous Demand Response for Home Energy Management in Smart Grid: A System of Systems Approach
Access Status
Fulltext not available
Authors
Ameri Sianaki, Omid
Masoum, Mohammad Sherkat
Date
2014Type
Conference Paper
Metadata
Show full item recordCitation
Ameri Sianaki, O. and Masoum, M.S. 2014. Versatile Energy Scheduler Compatible with Autonomous Demand Response for Home Energy Management in Smart Grid: A System of Systems Approach, in Australasian Universities Power Engineering Conference, AUPEC 2014, Sep 28 2014. Perth, Australia: IEEE.
Source Title
Power Engineering Conference (AUPEC), 2014 Australasian Universities, IEEE Xplore
Source Conference
Australasian Universities Power Engineering Conference, AUPEC 2014
School
Department of Electrical and Computer Engineering
Collection
Abstract
The future home energy management system (HEMS) in smart grid will need to include contractual grid regulations imposed by the utility while also taking into consideration the domestic users’ comfort, preferences, budget, and security. The emerging autonomous demand response (ADR) programs have initiated steps in utilizing sophisticated software algorithms for the scheduling and optimization of HEMS. This paper proposes a system of systems approach as a versatile energy scheduling system that takes into account the components, characteristics and methodologies required for achieving an efficient level of energy consumption in the residential sector of the smart grid.
Related items
Showing items related by title, author, creator and subject.
-
Potdar, Vidyasagar; Chandan, A.; Batool, S.; Patel, N. (2018)Urban areas suffer from tremendous pressure to cope with increasing population in a city. A smart city is a technological solution that integrates engineering and information systems to assist in managing these scarce ...
-
Ahmed, Afshaar; Yasir Ali, Agha; Ahmed, Mishaal; Lateef Khan, Abdul; Ahmed, Manzar; Amin, Uzma (2022)In recent years, the dramatic increase in demand of electricity utilization has introduced various environmental and sustainability concerns for Conventional Energy Grid based on fossil fuels, which driving the global ...
-
Deilami, Sara; Naghibi, Bahman; Janfeshan, K. (2014)Future smart grids (SGs) are expected to include distributed generations (DG), plug-in electric vehicles (PEVs) and smart appliances, as well as nonlinear industrial loads that may decrease grid efficiency and deteriorate ...