2018
DOI: 10.1016/j.energy.2018.01.056
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Synthesis of an intelligent rural village microgrid control strategy based on smartgrid multi-agent modelling and transactive energy management principles

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Cited by 57 publications
(21 citation statements)
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“…Finally, it can be observed that the SGAM is now also applied beyond Europe. Examples include application development for device management and control as well as system state monitoring for residential demand response ancillary services based on graph database modeling and high-availability web services in the USA [73], the development of an effective but efficient approach to risk assessments for Smart Grid projects in Australia [55] and modeling an off-grid rural village microgrid as a multi-agent nodal system and therefore formulating distributed market-based transactive control as a discrete-time system in South Africa/the USA [74].…”
Section: Further Projects Activities and Applicationsmentioning
confidence: 99%
“…Finally, it can be observed that the SGAM is now also applied beyond Europe. Examples include application development for device management and control as well as system state monitoring for residential demand response ancillary services based on graph database modeling and high-availability web services in the USA [73], the development of an effective but efficient approach to risk assessments for Smart Grid projects in Australia [55] and modeling an off-grid rural village microgrid as a multi-agent nodal system and therefore formulating distributed market-based transactive control as a discrete-time system in South Africa/the USA [74].…”
Section: Further Projects Activities and Applicationsmentioning
confidence: 99%
“…In (10), M G denotes the number of MT units, ς n and R n, t MT represent the SR cost and the SR capacity of MT n, respectively. In (11), ζ n and ψ n are the consumption coefficients of MT n, U n, t and S n, t are binary variables which denote the operating status and start-stop of the nth MT, κ n is the start-stop cost, P n, t…”
Section: Img Operation Costmentioning
confidence: 99%
“…As a result, such locations are either powered by fossil fuel or remain without any power supply. The use of fossil fuels is nondesirable due to the vital concerns including rising price of fuel (ie, higher cost of power supply), rapid depletion of fossil fuel reserves 4 (ie, the long‐term sustainability in power supply is at risk), environmental pollution as the fossil fuel consumption emits a large amount of pollutants resulting in greenhouse effect, global warming, and acid rain 5 …”
Section: Introductionmentioning
confidence: 99%
“…The use of fossil fuels is nondesirable due to the vital concerns including rising price of fuel (ie, higher cost of power supply), rapid depletion of fossil fuel reserves 4 (ie, the long-term sustainability in power supply is at risk), environmental pollution as the fossil fuel consumption emits a large amount of pollutants resulting in greenhouse effect, global warming, and acid rain. 5 Under these circumstances, the proper utilization of the locally available renewable energy (RE) sources in remote areas can be a cost-effective solution for a desirable clean, inexhaustible, and environmentally friendly energy supply option. 6,7 Not only the remote areas of developing nations, worldwide the contribution of RE into the national energy mix is significant and well-recognized.…”
Section: Introductionmentioning
confidence: 99%