In this study, a new optimal design method for buildings and urban energy systems is proposed. Also its applicability is analyzed through a simple case study. Multi Island Genetic Algorithms (MIGA) are adopted for this optimization. This method has two optimization steps, selection of equipment capacity and selection of system operational planning. These optimization steps are calculated simultaneously. The results showed that the proposed method has the potential to be applied to very complex energy systems and achieve significant improvements
The design of buildings is a multi-criterion op-timization problem, there always being a trade-off t...
The energy consumption in buildings, can be reduced through a rational choice of the household appli...
We report the formulation and implementation of a genetic algorithm to address multi-objective optim...
In this paper, a new optimal design method for buildings and urban energy systems is proposed. Also ...
Better energy management systems for buildings could play a significant role in achieving nowadays g...
Low energy buildings and zero energy buildings have attracted increasing attention in both academic ...
Multi-objective optimization tools using genetic algorithms (GAs) are being increasingly used for im...
The first step for a rational use of energy in the building sector is to incorporate building perfor...
The topic of low-energy buildings received a widespread and growing interest in last years, thanks t...
This report deals with the problem of optimizing the energy consumption of a building by changing th...
Multiple design features, such as form, construction material type and thickness, and glazing type a...
This paper presents an optimization method based on genetic algorithm for the energy management insi...
In this paper, a multi-objective optimization approach based on genetic algorithm is applied to the ...
The energy requalification of existing buildings entails the fulfillment of different, often conflic...
One of the main environmental targets of the European Union is to improve the energy efficiency in o...
The design of buildings is a multi-criterion op-timization problem, there always being a trade-off t...
The energy consumption in buildings, can be reduced through a rational choice of the household appli...
We report the formulation and implementation of a genetic algorithm to address multi-objective optim...
In this paper, a new optimal design method for buildings and urban energy systems is proposed. Also ...
Better energy management systems for buildings could play a significant role in achieving nowadays g...
Low energy buildings and zero energy buildings have attracted increasing attention in both academic ...
Multi-objective optimization tools using genetic algorithms (GAs) are being increasingly used for im...
The first step for a rational use of energy in the building sector is to incorporate building perfor...
The topic of low-energy buildings received a widespread and growing interest in last years, thanks t...
This report deals with the problem of optimizing the energy consumption of a building by changing th...
Multiple design features, such as form, construction material type and thickness, and glazing type a...
This paper presents an optimization method based on genetic algorithm for the energy management insi...
In this paper, a multi-objective optimization approach based on genetic algorithm is applied to the ...
The energy requalification of existing buildings entails the fulfillment of different, often conflic...
One of the main environmental targets of the European Union is to improve the energy efficiency in o...
The design of buildings is a multi-criterion op-timization problem, there always being a trade-off t...
The energy consumption in buildings, can be reduced through a rational choice of the household appli...
We report the formulation and implementation of a genetic algorithm to address multi-objective optim...