Generally, energy management in smart buildings is formulated by mixed-integer linear programming, with different optimization goals. The most targeted goals are the minimization of the electricity consumption cost, the electricity consumption value from external power grid, and peak load smoothing. All of these objectives are desirable in a smart building, however, in most of the related works, just one of these mentioned goals is considered and investigated. In this work, authors aim to consider two goals via a multi-objective framework. In this regard, a multi-objective mixed-binary linear programming is presented to minimize the total energy consumption cost and peak load in collective residential buildings, considering the scheduling o...
This article presents a novel mathematical formulation to solve the problem of optimally sizing and ...
The paper presents a multi-objective optimization algorithm to improve in an integrated and holistic...
A smart house generally has a Photovoltaic panel (PV), a Heat Pump (HP), a Solar Collector (SC) and ...
In this paper, a collective residential building is considered in which the following points are tak...
Efficient alternatives in energy production and consumption are constantly being investigated and co...
ECAI 2020Nowadays, the buildings have an important role in the high demand for electrical energy. Th...
Typically, residential buildings neither allow flexibility in the individual contract power capacity...
The aim of this work was to develop an optimal model for an energy management strategy in a real mic...
This paper presents a mixed integer non-linear programming model to optimize, in a centralized fashi...
This paper proposed a Mixed Binary Linear Programming (MBLP) approach to find the optimal size of so...
In this paper, we address the problem of minimizing the total daily energy cost in a smart residenti...
\u3cp\u3eThis paper presents a new mixed integer linear programing (MILP) model for the management o...
The identification of techniques aimed at a rational use of electric power has nowadays become more ...
This thesis proposes the demand-side management (C-DSM) of collaborative homes during one day. Some ...
This article presents a novel mathematical formulation to solve the problem of optimally sizing and ...
The paper presents a multi-objective optimization algorithm to improve in an integrated and holistic...
A smart house generally has a Photovoltaic panel (PV), a Heat Pump (HP), a Solar Collector (SC) and ...
In this paper, a collective residential building is considered in which the following points are tak...
Efficient alternatives in energy production and consumption are constantly being investigated and co...
ECAI 2020Nowadays, the buildings have an important role in the high demand for electrical energy. Th...
Typically, residential buildings neither allow flexibility in the individual contract power capacity...
The aim of this work was to develop an optimal model for an energy management strategy in a real mic...
This paper presents a mixed integer non-linear programming model to optimize, in a centralized fashi...
This paper proposed a Mixed Binary Linear Programming (MBLP) approach to find the optimal size of so...
In this paper, we address the problem of minimizing the total daily energy cost in a smart residenti...
\u3cp\u3eThis paper presents a new mixed integer linear programing (MILP) model for the management o...
The identification of techniques aimed at a rational use of electric power has nowadays become more ...
This thesis proposes the demand-side management (C-DSM) of collaborative homes during one day. Some ...
This article presents a novel mathematical formulation to solve the problem of optimally sizing and ...
The paper presents a multi-objective optimization algorithm to improve in an integrated and holistic...
A smart house generally has a Photovoltaic panel (PV), a Heat Pump (HP), a Solar Collector (SC) and ...