Integration of renewable energy sources in microgrids can be achieved via demand response programs, which change the electric usage in response to changes in the availability and price of electricity over time. This paper presents a novel control algorithm for joint demand response management and thermal comfort optimization in microgrids equipped with renewable energy sources and energy storage units. The proposed work aims at covering two main gaps in current state-of-the-art demand response programs. The first gap is integrating the objective of matching energy generation and consumption with the occupant behavior and with the objective of guaranteeing thermal comfort of the occupants. The second gap is developing a scalable and robust d...
This work reports a contribution, in a model predictive control multi-agent systems context, introdu...
The world is shifting toward cleaner and more sustainable power generation to face the challenges of...
This paper presents a demand response (DR) framework that utilizes the flexibility inherent to the t...
Microgrids equipped with small-scale renewable-energy generation systems and energy storage units of...
Electrical smart microgrids equipped with small-scale renewable-energy generation systems are emergi...
This paper optimizes the thermodynamic behavior of buildings through demand response (DR) by operati...
This paper presents a direct load control based demand side management (DSM) algorithm that performs...
This paper presents a demand response (DR) framework that intertwines thermodynamic building models ...
This paper presents a demand response (DR) framework that intertwines thermodynamic building models ...
The penetration rates of intermittent renewable energies such as wind and solar energy have been inc...
This paper presents a mixed integer non-linear programming model to optimize, in a centralized fashi...
According to importance of demand response programs in last decades, many efforts have been made to ...
This paper deals with the problem of minimizing the electricity bill of smart buildings equipped wit...
Increasing energy demand and more strict environmental regulations have led to a turn to renewable e...
This work reports a contribution, in a model predictive control multi-agent systems context, introdu...
This work reports a contribution, in a model predictive control multi-agent systems context, introdu...
The world is shifting toward cleaner and more sustainable power generation to face the challenges of...
This paper presents a demand response (DR) framework that utilizes the flexibility inherent to the t...
Microgrids equipped with small-scale renewable-energy generation systems and energy storage units of...
Electrical smart microgrids equipped with small-scale renewable-energy generation systems are emergi...
This paper optimizes the thermodynamic behavior of buildings through demand response (DR) by operati...
This paper presents a direct load control based demand side management (DSM) algorithm that performs...
This paper presents a demand response (DR) framework that intertwines thermodynamic building models ...
This paper presents a demand response (DR) framework that intertwines thermodynamic building models ...
The penetration rates of intermittent renewable energies such as wind and solar energy have been inc...
This paper presents a mixed integer non-linear programming model to optimize, in a centralized fashi...
According to importance of demand response programs in last decades, many efforts have been made to ...
This paper deals with the problem of minimizing the electricity bill of smart buildings equipped wit...
Increasing energy demand and more strict environmental regulations have led to a turn to renewable e...
This work reports a contribution, in a model predictive control multi-agent systems context, introdu...
This work reports a contribution, in a model predictive control multi-agent systems context, introdu...
The world is shifting toward cleaner and more sustainable power generation to face the challenges of...
This paper presents a demand response (DR) framework that utilizes the flexibility inherent to the t...