Add to ORKGA design procedure incorporating a genetic algorithm is developed for discrete optimization of three-dimensional framed structures. This procedure conforms to the Allowable Stress Design (ASD) method. The objective function considered is the total weight (or cost) of the structure. The objective function is minimized subjected to serviceability and strength requirements. The design procedure is developed as a module in the Finite Element Analysis Program (FEAP)
In this paper, we present a genetic algorithm (GA) based optimization for the design of 2-D steel fr...
In this paper we present a genetic algorithm (GA) based optimization procedure for the design of geo...
Cold-formed steel portal frames are a popular form of construction for low-rise commercial, light in...
A design procedure incorporating a genetic algorithm is developed for discrete optimization of three...
A design procedure is presented incorporating a genetic algorithm for framed structures composed of ...
This paper presents genetic based algorithm for the optimum design of multistorey steel frames with ...
A design procedure incorporating a simple genetic algorithm (GA) is developed for discrete optimizat...
A design procedure utilizing a genetic algorithm (GA) is developed for discrete optimization of comp...
This paper presents an optimization process using Genetic Algorithm (GA) for minimum weight by selec...
Genetic Algorithm (GA) is one of the most widely used optimization algorithms. This algorithm consis...
In this paper, the performance of the genetic algorithm is improved by introducing some new crossove...
The technique of optimal design of bearing structures on the basis of genetic algorithm has been sug...
Optimum design of the structures, in other words designing the structures with minimum weight is one...
A new optimization procedure for designing a steel frame structure is presented in this paper. A rep...
In this paper, an optimization process using Genetic Algorithm (GA) that mimics biological processes...
In this paper, we present a genetic algorithm (GA) based optimization for the design of 2-D steel fr...
In this paper we present a genetic algorithm (GA) based optimization procedure for the design of geo...
Cold-formed steel portal frames are a popular form of construction for low-rise commercial, light in...
A design procedure incorporating a genetic algorithm is developed for discrete optimization of three...
A design procedure is presented incorporating a genetic algorithm for framed structures composed of ...
This paper presents genetic based algorithm for the optimum design of multistorey steel frames with ...
A design procedure incorporating a simple genetic algorithm (GA) is developed for discrete optimizat...
A design procedure utilizing a genetic algorithm (GA) is developed for discrete optimization of comp...
This paper presents an optimization process using Genetic Algorithm (GA) for minimum weight by selec...
Genetic Algorithm (GA) is one of the most widely used optimization algorithms. This algorithm consis...
In this paper, the performance of the genetic algorithm is improved by introducing some new crossove...
The technique of optimal design of bearing structures on the basis of genetic algorithm has been sug...
Optimum design of the structures, in other words designing the structures with minimum weight is one...
A new optimization procedure for designing a steel frame structure is presented in this paper. A rep...
In this paper, an optimization process using Genetic Algorithm (GA) that mimics biological processes...
In this paper, we present a genetic algorithm (GA) based optimization for the design of 2-D steel fr...
In this paper we present a genetic algorithm (GA) based optimization procedure for the design of geo...
Cold-formed steel portal frames are a popular form of construction for low-rise commercial, light in...