In this manuscript a novel strategy for distributed and autonomous demand-side energy management among users of a low-voltage micro-grid is developed. Its derivation is based on: a) modelling the energy consumption scheduling of the shiftable loads that belong to a given user as a noncooperative two-player game of incomplete information, in which the user itself plays against an opponent collecting all the other users of the same micro-grid; b) assuming that each user is endowed with statistical information about its behavior and that of its opponent, so that it can choose actions maximising its expected utility. Numerical results evidence the efficacy of the proposed strategy when employed to manage the charging of electric vehicles in a m...
Demand-side management, together with the integration of distributed energy generation and storage, ...
To achieve a high level of reliability and robustness in power systems, the grid is usually designed...
To achieve a high level of reliability, efficiency, and robustness in electric systems, the concept ...
In this manuscript a novel strategy for distributed and autonomous demand-side energy management amo...
In this manuscript a novel strategy for distributed and autonomous demand-side energy management amo...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...
Abstract — Most of the existing demand side management programs focus primarily on the interactions ...
Abstract: Smart metering infrastructure allows for two-way communication and power transfer. Based o...
Widespread availability of electricity is a hallmark of civilization. A reliable electricity supply ...
The electricity supply industry has been facing significant challenges in terms of meeting the proje...
Increasing electricity demand with inadequate power generating resources has become a key challenge ...
As the electrical infrastructure is rapidly reaching its maximum capacity, the smart grid becomes a ...
Global warming is endangering the Earth’s ecosystem. It is imperative for humanity to limit greenhou...
Abstract—Demand-side management, together with the integra-tion of distributed energy generation and...
International audienceIn this paper, we study Demand Response (DR) problematics for different levels...
Demand-side management, together with the integration of distributed energy generation and storage, ...
To achieve a high level of reliability and robustness in power systems, the grid is usually designed...
To achieve a high level of reliability, efficiency, and robustness in electric systems, the concept ...
In this manuscript a novel strategy for distributed and autonomous demand-side energy management amo...
In this manuscript a novel strategy for distributed and autonomous demand-side energy management amo...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...
Abstract — Most of the existing demand side management programs focus primarily on the interactions ...
Abstract: Smart metering infrastructure allows for two-way communication and power transfer. Based o...
Widespread availability of electricity is a hallmark of civilization. A reliable electricity supply ...
The electricity supply industry has been facing significant challenges in terms of meeting the proje...
Increasing electricity demand with inadequate power generating resources has become a key challenge ...
As the electrical infrastructure is rapidly reaching its maximum capacity, the smart grid becomes a ...
Global warming is endangering the Earth’s ecosystem. It is imperative for humanity to limit greenhou...
Abstract—Demand-side management, together with the integra-tion of distributed energy generation and...
International audienceIn this paper, we study Demand Response (DR) problematics for different levels...
Demand-side management, together with the integration of distributed energy generation and storage, ...
To achieve a high level of reliability and robustness in power systems, the grid is usually designed...
To achieve a high level of reliability, efficiency, and robustness in electric systems, the concept ...