This paper explores an idea of demand-supply balance for smart grids in which consumers are expected to play a significant role. The main objective is to motivate the consumer, by maximizing their benefit both as a seller and a buyer, to trade their surplus energy with the grid so as to balance the demand at the peak hour. To that end, a Stackelberg game is proposed to capture the interactions between the grid and consumers, and it is shown analytically that optimal energy trading parameters that maximize customers' utilities are obtained at the solution of the game. A novel distributed algorithm is proposed to reach the optimal solution of the game, and numerical examples are used to assess the properties and effectiveness of the proposed ...
Abstract—Demand-side management in smart grids has emerged as a hot topic for optimizing energy cons...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...
Abstract—The future power grid will incorporate the informa-tion and communications technology (ICT)...
This paper explores an idea of demand-supply balance for smart grids in which consumers are expected...
This paper proposes an energy management technique for a consumer-to-grid system in smart grid. The ...
This paper explores an idea of demand-supply balance for smart grids in which consumers are expected...
Demand-response (DR) is regarded as a promising solution for future power grids. Here we use a Stack...
The smart grid is becoming one of the fundamental cyber-physical systems due to the employment of in...
This study presents an electricity market composed of a single energy provider and multiple customer...
This paper proposes a Stackelberg game approach to maximize the profit of the electricity retailer (...
Smart Grids have recently gained increasing at- tention as a means to efficiently manage the houses ...
Abstract — Most of the existing demand side management programs focus primarily on the interactions ...
In the smart grid, demand-side management (DSM) is an important mechanism for improving the reliabil...
In this paper, we study the Stackelberg game-based evolutionary game with two players, generators an...
We propose a new game theoretical equilibrium model to analyze residential users\u27 electricity con...
Abstract—Demand-side management in smart grids has emerged as a hot topic for optimizing energy cons...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...
Abstract—The future power grid will incorporate the informa-tion and communications technology (ICT)...
This paper explores an idea of demand-supply balance for smart grids in which consumers are expected...
This paper proposes an energy management technique for a consumer-to-grid system in smart grid. The ...
This paper explores an idea of demand-supply balance for smart grids in which consumers are expected...
Demand-response (DR) is regarded as a promising solution for future power grids. Here we use a Stack...
The smart grid is becoming one of the fundamental cyber-physical systems due to the employment of in...
This study presents an electricity market composed of a single energy provider and multiple customer...
This paper proposes a Stackelberg game approach to maximize the profit of the electricity retailer (...
Smart Grids have recently gained increasing at- tention as a means to efficiently manage the houses ...
Abstract — Most of the existing demand side management programs focus primarily on the interactions ...
In the smart grid, demand-side management (DSM) is an important mechanism for improving the reliabil...
In this paper, we study the Stackelberg game-based evolutionary game with two players, generators an...
We propose a new game theoretical equilibrium model to analyze residential users\u27 electricity con...
Abstract—Demand-side management in smart grids has emerged as a hot topic for optimizing energy cons...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...
Abstract—The future power grid will incorporate the informa-tion and communications technology (ICT)...