Add to ORKGTraditionally, radiant enclosures have been designed using a forward “trial-and-error” methodology. Recently, however, inverse and optimization methodologies have been applied to design radiant enclosures. Both of these methodologies solve the design problem faster, and the quality of the solutions is usually better than those obtained through the forward design methodology. This paper presents forward, inverse, and optimization formulations of the infinitesimal-area method that can be used to solve design problems involving radiant enclosures. The inverse and optimization methodologies are then demonstrated and compared by using them to design a 2-D radiant enclosure containing a transparent medium.
Optimization in buildings has been increasingly popular due to its growing availability and document...
boundary design of two-dimensional irregular enclosures using micro-genetic algorith
AbstractThis work aimed to find the best possible solution for transparent façades. The evaluation w...
textDesign problems involving radiant enclosures are encountered in many different industrial appli...
This work investigates the application of the inverse analysis to an illumination design of a three...
Estruturas que estão sujeitas a altas temperaturas absolutas, à convecção natural, ou ainda, estrutu...
Thermal radiant heating through distinct heat sources is of interest for the thermal loading of thin...
Today, architectural design emphasizes high-standard buildings with sophisticated daylighting system...
In architectural design, configuring opening shapes is a crucial element of daylight analysis. In th...
Commonly used direct rendering techniques simulate light transport for a complete scene, specified i...
The paper deals with the shielding enclosure design using evolutionary algorithms without predetermi...
The present work aims to analyse the application of a metaheuristic optimization approach to the des...
Currently, many studies are being done using optimization tools. However, optimization studies done ...
This paper presents an "inverse" reasoning to solve problems of sunlighting, visibility and solar re...
This paper proposes a technique for the design of reflector shapes from prescribed optical propertie...
Optimization in buildings has been increasingly popular due to its growing availability and document...
boundary design of two-dimensional irregular enclosures using micro-genetic algorith
AbstractThis work aimed to find the best possible solution for transparent façades. The evaluation w...
textDesign problems involving radiant enclosures are encountered in many different industrial appli...
This work investigates the application of the inverse analysis to an illumination design of a three...
Estruturas que estão sujeitas a altas temperaturas absolutas, à convecção natural, ou ainda, estrutu...
Thermal radiant heating through distinct heat sources is of interest for the thermal loading of thin...
Today, architectural design emphasizes high-standard buildings with sophisticated daylighting system...
In architectural design, configuring opening shapes is a crucial element of daylight analysis. In th...
Commonly used direct rendering techniques simulate light transport for a complete scene, specified i...
The paper deals with the shielding enclosure design using evolutionary algorithms without predetermi...
The present work aims to analyse the application of a metaheuristic optimization approach to the des...
Currently, many studies are being done using optimization tools. However, optimization studies done ...
This paper presents an "inverse" reasoning to solve problems of sunlighting, visibility and solar re...
This paper proposes a technique for the design of reflector shapes from prescribed optical propertie...
Optimization in buildings has been increasingly popular due to its growing availability and document...
boundary design of two-dimensional irregular enclosures using micro-genetic algorith
AbstractThis work aimed to find the best possible solution for transparent façades. The evaluation w...