Aggregator-activated demand response (DR) is widely recognised as a viable means for increasing the flexibility of renewable and sustainable energy systems (RSESs) necessary to accommodate a high penetration of variable renewables. To this end, by acting as DR aggregators and offering energy trading capabilities to smaller customers, energy retailers unlock additional sources of demand-side flexibility to ensure the cost-optimal operation of RSESs. Accordingly, a growing body of literature has highlighted the ways in which non-cooperative game theory could be used to reduce the gaps between modelled and real-world results for aggregator-mediated DR schemes. This paper aims to contribute to the trends of giving a realistic grounding to resea...
This study presents an electricity market composed of a single energy provider and multiple customer...
Grid modernization using advanced metering infrastructure (AMI) will continue to enhance timely comm...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...
Aggregator-activated demand response (DR) is widely recognised as a viable means for increasing the ...
While industrial demand response programmes have long been valued to support the power grid, recent ...
This paper presents a non-cooperative, zero-sum, symmetric game approach to projecting the flexible ...
Recent developments in smart grid technologies have enabled interactions between energy suppliers an...
Increasing electricity demand with inadequate power generating resources has become a key challenge ...
This paper proposes a novel modeling approach for the efficient integration of demand response (DR) ...
This paper proposes a novel modeling approach for the efficient integration of demand response (DR) ...
Smart Grids have recently gained increasing at- tention as a means to efficiently manage the houses ...
Demand-side management in smart grids has emerged as a hot topic for optimizing energy consumption. ...
Abstract — Most of the existing demand side management programs focus primarily on the interactions ...
Abstract—Demand-side management in smart grids has emerged as a hot topic for optimizing energy cons...
This study presents an electricity market composed of a single energy provider and multiple customer...
Grid modernization using advanced metering infrastructure (AMI) will continue to enhance timely comm...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...
Aggregator-activated demand response (DR) is widely recognised as a viable means for increasing the ...
While industrial demand response programmes have long been valued to support the power grid, recent ...
This paper presents a non-cooperative, zero-sum, symmetric game approach to projecting the flexible ...
Recent developments in smart grid technologies have enabled interactions between energy suppliers an...
Increasing electricity demand with inadequate power generating resources has become a key challenge ...
This paper proposes a novel modeling approach for the efficient integration of demand response (DR) ...
This paper proposes a novel modeling approach for the efficient integration of demand response (DR) ...
Smart Grids have recently gained increasing at- tention as a means to efficiently manage the houses ...
Demand-side management in smart grids has emerged as a hot topic for optimizing energy consumption. ...
Abstract — Most of the existing demand side management programs focus primarily on the interactions ...
Abstract—Demand-side management in smart grids has emerged as a hot topic for optimizing energy cons...
This study presents an electricity market composed of a single energy provider and multiple customer...
Grid modernization using advanced metering infrastructure (AMI) will continue to enhance timely comm...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...