There is an increasing interest in the use of computer algorithms to identify combinations of parameters which optimise the energy performance of buildings. For such problems, the objective function can be multi-modal and needs to be approximated numerically using building energy simulation programs. As these programs contain iterative solution algorithms, they introduce discontinuities in the numerical approximation to the objective function. Metaheuristics often work well for such problems, but their convergence to a global optimum cannot be established formally. Moreover, different algorithms tend to be suited to particular classes of optimization problems. To shed light on this issue we compared the performance of two metaheuristics, th...
The energy allocation at the building level is a complex decision making process. To cope with the u...
Analysis of the buildings energy performance should include the calculation of cost-optimal levels o...
The energy requalification of existing buildings entails the fulfillment of different, often conflic...
There is an increasing interest in the use of computer algorithms to identify combinations of parame...
Assessing the performance of algorithms in solving building energy optimization (BEO) problems with ...
This chapter presents implementations of simulation-based optimization by giving two examples for fi...
Numerous conflicting criteria exist in building design optimization, such as energy consumption, gre...
Integrated building design is inherently a multi-objective optimization problem where two or more co...
Buildings account for approximately 40% of the global energy consumption and 36% of total carbon dio...
Many researchers have indicated the energy performance gap (difference between actual and predicted ...
By multi-objective optimization of designing integrated energy systems for buildings, the Pareto fro...
Optimization techniques (OT) are tools to find the best solution during a decision making process. E...
Better energy management systems for buildings could play a significant role in achieving nowadays g...
According to the European Energy Performance of Buildings Directive (EPBD-2010/31/EU), all EU-Member...
The energy allocation at the building level is a complex decision making process. To cope with the u...
Analysis of the buildings energy performance should include the calculation of cost-optimal levels o...
The energy requalification of existing buildings entails the fulfillment of different, often conflic...
There is an increasing interest in the use of computer algorithms to identify combinations of parame...
Assessing the performance of algorithms in solving building energy optimization (BEO) problems with ...
This chapter presents implementations of simulation-based optimization by giving two examples for fi...
Numerous conflicting criteria exist in building design optimization, such as energy consumption, gre...
Integrated building design is inherently a multi-objective optimization problem where two or more co...
Buildings account for approximately 40% of the global energy consumption and 36% of total carbon dio...
Many researchers have indicated the energy performance gap (difference between actual and predicted ...
By multi-objective optimization of designing integrated energy systems for buildings, the Pareto fro...
Optimization techniques (OT) are tools to find the best solution during a decision making process. E...
Better energy management systems for buildings could play a significant role in achieving nowadays g...
According to the European Energy Performance of Buildings Directive (EPBD-2010/31/EU), all EU-Member...
The energy allocation at the building level is a complex decision making process. To cope with the u...
Analysis of the buildings energy performance should include the calculation of cost-optimal levels o...
The energy requalification of existing buildings entails the fulfillment of different, often conflic...