In the Demand Side Management (DSM) context, residential customers have the potential for reducing costs and relieving the grid with non-thermostatic appliances. These appliances might be optimally scheduled by a central entity, taking into account user preferences. However, the user might not be able to communicate its preferences “a-priori”, leaving to the central entity the task of understanding preferences that should be learnt without causing discomfort to the user. With this premise, this study aims at exploring a DSM program that learns the acceptance of realistic simulated users to shift in time of home appliances, such as washing machines and dishwashers, analysing the benefits that arise from their inclusion. To this end, the prop...
In the digitalization era, the increasing number of connected appliances and the rise of artificial ...
To achieve a high level of reliability and robustness in power systems, the grid is usually designed...
Energy flexibility will play a key role in the proper functioning of energy systems, introducing a s...
In the Demand Side Management (DSM) context, residential customers have the potential for reducing c...
AbstractA crucial part of the total electricity demand is energy consumption in the residential sect...
This paper proposes a solution based on Multi Agent System to study a residential Demand Side Manage...
This paper proposes a new demand response scheduling framework for an array of households, which are...
Demand Side Management (DSM) is a means to gain more control over energy demand to address some of t...
The residential sector is a major contributor to the global energy demand. The energy demand for the...
Participation in residential energy demand response programs requires an active role by consumers. T...
Future smart grids will open the marketplace to novel services for grid management, such as Demand S...
International audienceDemand-Side Management (DSM) systems represent an efficient method to improve ...
This paper proposes a new demand response scheduling framework for an array of households, which are...
Several initiates have been taken promoting clean energy and the use of local flexibility towards a ...
In the digitalization era, the increasing number of connected appliances and the rise of artificial ...
To achieve a high level of reliability and robustness in power systems, the grid is usually designed...
Energy flexibility will play a key role in the proper functioning of energy systems, introducing a s...
In the Demand Side Management (DSM) context, residential customers have the potential for reducing c...
AbstractA crucial part of the total electricity demand is energy consumption in the residential sect...
This paper proposes a solution based on Multi Agent System to study a residential Demand Side Manage...
This paper proposes a new demand response scheduling framework for an array of households, which are...
Demand Side Management (DSM) is a means to gain more control over energy demand to address some of t...
The residential sector is a major contributor to the global energy demand. The energy demand for the...
Participation in residential energy demand response programs requires an active role by consumers. T...
Future smart grids will open the marketplace to novel services for grid management, such as Demand S...
International audienceDemand-Side Management (DSM) systems represent an efficient method to improve ...
This paper proposes a new demand response scheduling framework for an array of households, which are...
Several initiates have been taken promoting clean energy and the use of local flexibility towards a ...
In the digitalization era, the increasing number of connected appliances and the rise of artificial ...
To achieve a high level of reliability and robustness in power systems, the grid is usually designed...
Energy flexibility will play a key role in the proper functioning of energy systems, introducing a s...