This paper presents a novel game theory approach for large-scale deployment of price-responsive electrical appliances. In the proposed distributed control scheme, each appliance independently schedules its power consumption on the basis of a broadcast demand/price signal, aiming to complete its task at minimum cost. The conflicting interactions of the appliances, competing for power consumption at the cheapest hours of the day, are modelled through a differential game with a continuum of players, and efficient deployment of flexible demand is characterized as a Nash equilibrium. A novel approach is adopted to derive necessary and sufficient equilibrium conditions: intrinsic properties of the problem (price monotonicity, unidirectionality of...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...
In the emerging smart grids, production increasingly relies on a greater number of decentralized gen...
Aggregator-activated demand response (DR) is widely recognised as a viable means for increasing the ...
A novel semi-decentralized control strategy is proposed for the integration in the power system of l...
This paper proposes a novel distributed control strategy for large-scale deployment of flexible dema...
This paper presents a novel distributed control strategy for large-scale deployment of flexible dema...
This paper proposes a novel decentralized technique for efficient integration of flexible demand in ...
This paper presents a novel decentralized control strategy for integration of price-responsive loads...
This paper presents novel methodologies for efficient deployment of flexible demand. Large populatio...
© 2015 IEEE.This paper deals with flexible electrical devices that, on the basis of a broadcast pric...
Smart Grids have recently gained increasing at- tention as a means to efficiently manage the houses ...
Abstract—Smart Grids have recently gained increasing at-tention as a means to efficiently manage the...
This paper proposes a fully distributed Demand-Side Management system for Smart Grid infrastructures...
The penetration of new types of devices, such as domestic storage and electric vehicles, offers incr...
Abstract — Most of the existing demand side management programs focus primarily on the interactions ...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...
In the emerging smart grids, production increasingly relies on a greater number of decentralized gen...
Aggregator-activated demand response (DR) is widely recognised as a viable means for increasing the ...
A novel semi-decentralized control strategy is proposed for the integration in the power system of l...
This paper proposes a novel distributed control strategy for large-scale deployment of flexible dema...
This paper presents a novel distributed control strategy for large-scale deployment of flexible dema...
This paper proposes a novel decentralized technique for efficient integration of flexible demand in ...
This paper presents a novel decentralized control strategy for integration of price-responsive loads...
This paper presents novel methodologies for efficient deployment of flexible demand. Large populatio...
© 2015 IEEE.This paper deals with flexible electrical devices that, on the basis of a broadcast pric...
Smart Grids have recently gained increasing at- tention as a means to efficiently manage the houses ...
Abstract—Smart Grids have recently gained increasing at-tention as a means to efficiently manage the...
This paper proposes a fully distributed Demand-Side Management system for Smart Grid infrastructures...
The penetration of new types of devices, such as domestic storage and electric vehicles, offers incr...
Abstract — Most of the existing demand side management programs focus primarily on the interactions ...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...
In the emerging smart grids, production increasingly relies on a greater number of decentralized gen...
Aggregator-activated demand response (DR) is widely recognised as a viable means for increasing the ...