International audienceDemand-Response (DR) programs, whereby users of an electricity network are encouraged by economic incentives to rearrange their consumption in order to reduce production costs, are envisioned to be a key feature of the smart grid paradigm. Several recent works proposed DR mechanisms and used analytical models to derive optimal incentives. Most of these works, however, rely on a macroscopic description of the population that does not model individual choices of users. In this paper, we conduct a detailed analysis of those models and we argue that the macroscopic descriptions hide important assumptions that can jeopardize the mechanisms' implementation (such as the ability to make personalized offers and to perfectly est...
International audienceLocal energy markets (LEMs) have been proposed to mitigate the variability int...
Demand response (DR) can aid with grid integration of renewables, ensuring security of supply, and r...
We study mechanisms to incentivize demand response in smart energy systems. We assume agents that ca...
International audienceDemand-Response (DR) programs, whereby users of an electricity network are enc...
Demand-Response (DR) programs, whereby users of an electricity network are encouraged by economic in...
International audienceDemand-Response (DR) programs, whereby users of an electricity network are enc...
International audienceWe study the effect of Demand-Response (DR) in dynamic real-time electricity m...
International audienceIn Demand Response programs, price incentives might not be sufficient to modif...
We study the effect of Demand-Response (DR) in dynamic real-time electricity markets. We use a two-s...
International audienceIn this paper, we study Demand Response (DR) problematics for different levels...
Demand response (DR) is envisaged to be of significance for enhancing the flexibility of power syste...
We develop and evaluate a methodology for running manual implicit and explicit Demand Response campa...
This dissertation studies two topics in Demand Response (DR) in electricity markets, with some discu...
Demand response (DR) emerges as one of the cheapest and greenest solutions to match supply and deman...
AbstractDemand Response (DR) is a widely used technique to minimize the peak to average consumption ...
International audienceLocal energy markets (LEMs) have been proposed to mitigate the variability int...
Demand response (DR) can aid with grid integration of renewables, ensuring security of supply, and r...
We study mechanisms to incentivize demand response in smart energy systems. We assume agents that ca...
International audienceDemand-Response (DR) programs, whereby users of an electricity network are enc...
Demand-Response (DR) programs, whereby users of an electricity network are encouraged by economic in...
International audienceDemand-Response (DR) programs, whereby users of an electricity network are enc...
International audienceWe study the effect of Demand-Response (DR) in dynamic real-time electricity m...
International audienceIn Demand Response programs, price incentives might not be sufficient to modif...
We study the effect of Demand-Response (DR) in dynamic real-time electricity markets. We use a two-s...
International audienceIn this paper, we study Demand Response (DR) problematics for different levels...
Demand response (DR) is envisaged to be of significance for enhancing the flexibility of power syste...
We develop and evaluate a methodology for running manual implicit and explicit Demand Response campa...
This dissertation studies two topics in Demand Response (DR) in electricity markets, with some discu...
Demand response (DR) emerges as one of the cheapest and greenest solutions to match supply and deman...
AbstractDemand Response (DR) is a widely used technique to minimize the peak to average consumption ...
International audienceLocal energy markets (LEMs) have been proposed to mitigate the variability int...
Demand response (DR) can aid with grid integration of renewables, ensuring security of supply, and r...
We study mechanisms to incentivize demand response in smart energy systems. We assume agents that ca...