International audienceThis paper presents a method for the energy management of a set of smart homes, in which batteries, thermal storage and demand response are considered as flexibilities in order to achieve minimum operation costs. To cope with the uncertainty of load forecast, a two-stage stochastic optimization process is proposed, in which the first stage decision is the committed energy to be purchased, and the second stage returns the devices’ set-points. This methodology has been developed in the context of the Horizon 2020 project SENSIBLE as part of the tasks related to the use case, Flexibility and Demand Side Management in Market Participation
International audienceEnergy storage and demand response (DR) resources, in combination with intermi...
Current increases in the demand for electricity require sustainable energy management measures and h...
In this paper, a novel real-time rolling horizon optimization framework for the optimal operation of...
International audienceThis paper presents a method for the energy management of a set of smart homes...
This thesis discusses the operational coordination of electrical appliances and devices in a smart h...
International audienceThis paper presents an optimization model for Home Energy Management Systems f...
International audienceThe present work proposes a stochastic approach for Day-Ahead operation of Hom...
International audienceThis paper presents an optimization model for energy management in smart build...
International audienceThis paper proposes an optimization model to participate in day-ahead energy m...
Energy demand is growing broadly across all the main sectors, mainly to meet the consumption require...
This paper utilises a two-stage demand response-enabled energy management algorithm for a typical Tu...
In the context of increasing renewable electricity sources and decentralized electricity generation,...
In Australia, the penetration of rooftop photovoltaic (PV) systems with storage is expected to incre...
This paper utilises a two-stage demand response-enabled energy management algorithm for a typical Tu...
This paper proposes an optimal bidding strategy for autonomous residential energy management systems...
International audienceEnergy storage and demand response (DR) resources, in combination with intermi...
Current increases in the demand for electricity require sustainable energy management measures and h...
In this paper, a novel real-time rolling horizon optimization framework for the optimal operation of...
International audienceThis paper presents a method for the energy management of a set of smart homes...
This thesis discusses the operational coordination of electrical appliances and devices in a smart h...
International audienceThis paper presents an optimization model for Home Energy Management Systems f...
International audienceThe present work proposes a stochastic approach for Day-Ahead operation of Hom...
International audienceThis paper presents an optimization model for energy management in smart build...
International audienceThis paper proposes an optimization model to participate in day-ahead energy m...
Energy demand is growing broadly across all the main sectors, mainly to meet the consumption require...
This paper utilises a two-stage demand response-enabled energy management algorithm for a typical Tu...
In the context of increasing renewable electricity sources and decentralized electricity generation,...
In Australia, the penetration of rooftop photovoltaic (PV) systems with storage is expected to incre...
This paper utilises a two-stage demand response-enabled energy management algorithm for a typical Tu...
This paper proposes an optimal bidding strategy for autonomous residential energy management systems...
International audienceEnergy storage and demand response (DR) resources, in combination with intermi...
Current increases in the demand for electricity require sustainable energy management measures and h...
In this paper, a novel real-time rolling horizon optimization framework for the optimal operation of...