2017
DOI: 10.1016/j.apenergy.2017.06.007
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A multi-agent based energy management solution for integrated buildings and microgrid system

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Cited by 252 publications
(138 citation statements)
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“…Anvari-Moghaddam et al [70] presented an energy management system for a microgrid that includes houses and buildings. The optimization process for the energy management system involves the coordination of management in distributed generation (DG) and response to the demand.…”
Section: Energy Management Based On Multi-agent Systemsmentioning
confidence: 99%
“…Anvari-Moghaddam et al [70] presented an energy management system for a microgrid that includes houses and buildings. The optimization process for the energy management system involves the coordination of management in distributed generation (DG) and response to the demand.…”
Section: Energy Management Based On Multi-agent Systemsmentioning
confidence: 99%
“…In addition, the research results of Adam's research team in the field of integrated energy systems are also worth learning, especially in operation management and scheduling of energy systems, the regional interconnection of energy systems, and risk research. In terms of operation management and scheduling of energy systems, an ontology‐driven multi‐agent based energy management system is proposed for monitoring and optimal control of an integrated homes/buildings and microgrid system, 14,15 an efficient strategy is developed to control local operation of each microgrid including the amount of energy to be requested from the main grid and the optimal charging/discharging patterns of batteries along with the transferred power among microgrids considering system's technical constraints, 16 a novel multi‐objective bidding strategy framework is proposed for a wind‐thermal photovoltaic system in the deregulated electricity market, 17 an optimization framework is developed for optimal operation of a CHP system in an uncertain environment considering demand response actions, 18 a conventional waste‐driven combined heat and power cycle is combined with a large‐scale absorption chiller to not only create a strong yet reliable synergy between the three energy sectors of cold, heat, and power, but also to improve the plant performance in terms of energy and sustainability indices 19 . In terms of risk research, a risk‐constrained scheduling optimization model is presented for a grid‐connected hybrid microgrid including demand response, electric vehicles, variable wind power generation, and dispatchable generation units, 20 a hierarchical stochastic energy management system is proposed for operation management of interconnected microgrids, 21 a novel stochastic model is presented from a microgrid operator perspective for energy and reserve scheduling considering risk management strategy 22 .…”
Section: Introductionmentioning
confidence: 99%
“…Also, a distributed P/EMS suffers from degradation of performance on small/medium networks, increased use of database space, and complex use and administration. Multi-agent system (MAS) is one of the best illustrations for a distributed scheme [44]. …”
Section: Distributed P/emsmentioning
confidence: 99%