In this study we present a Model Predictive Control (MPC) approach to Energy Management Systems (EMSs) for multiple residential microgrids. The EMS is responsible for optimally scheduling end-user smart appliances, heating systems and local generation devices at the residential level, based on end-user preferences, weather-dependent generation and demand forecasts, electric pricing, technical and operative constraints. The core of the proposed framework is a mixed integer linear programming (MILP) model aiming at minimizing the overall costs of each residential microgrid. At each time step, the computed optimal decision is adjusted according to the actual values of weather-dependent local generation and heating requirements; then, correctiv...
Microgrids are subsystems of the distribution grid which comprises small generation capacities, ...
In this paper a Model Predictive Control (MPC) logic, based on weather forecasts, has been applied t...
This paper presents a model predictive control approach for the economic optimization of a microgrid...
In this study we present a Model Predictive Control (MPC) approach to Energy Management Systems (EMS...
Microgrids are subsystems of the distribution grid operating as a single controllable system either ...
Distributed generation systems and microgrids are instrumental for a greater penetration of renewabl...
We present a Robust Model Predictive Control (RMPC) approach for multi-carrier microgrids, i.e., mic...
In this paper a Model Predictive Control (MPC) logic, based on weather forecasts, has been applied t...
The need to increase renewable energy sources deployment and to reduce consumption of fossil fuels h...
A single-level rule-based model predictive control (RBMPC) scheme is presented for optimizing the en...
In this paper, the optimization of a microgrid operating in a 'urban district-like' environment is c...
This paper focuses on an efficient Energy Management System (EMS) developed within the European proj...
In this paper a Model Predictive Control (MPC) logic, based on weather forecasts, has been applied t...
Microgrids are subsystems of the distribution grid which comprises small generation capacities, ...
In this paper a Model Predictive Control (MPC) logic, based on weather forecasts, has been applied t...
This paper presents a model predictive control approach for the economic optimization of a microgrid...
In this study we present a Model Predictive Control (MPC) approach to Energy Management Systems (EMS...
Microgrids are subsystems of the distribution grid operating as a single controllable system either ...
Distributed generation systems and microgrids are instrumental for a greater penetration of renewabl...
We present a Robust Model Predictive Control (RMPC) approach for multi-carrier microgrids, i.e., mic...
In this paper a Model Predictive Control (MPC) logic, based on weather forecasts, has been applied t...
The need to increase renewable energy sources deployment and to reduce consumption of fossil fuels h...
A single-level rule-based model predictive control (RBMPC) scheme is presented for optimizing the en...
In this paper, the optimization of a microgrid operating in a 'urban district-like' environment is c...
This paper focuses on an efficient Energy Management System (EMS) developed within the European proj...
In this paper a Model Predictive Control (MPC) logic, based on weather forecasts, has been applied t...
Microgrids are subsystems of the distribution grid which comprises small generation capacities, ...
In this paper a Model Predictive Control (MPC) logic, based on weather forecasts, has been applied t...
This paper presents a model predictive control approach for the economic optimization of a microgrid...