This paper attempts to improve the computational efficiency of the well known particle swarm optimization (PSO) algorithm for tackling discrete sizing optimization problems of steel frame structures. It is generally known that, in structural design optimization applications, PSO entails enormously time-consuming structural analyses to locate an optimum solution. Hence, in the present study it is attempted to lessen the computational effort of the algorithm, using the so called upper bound strategy (UBS), which is a recently proposed strategy for reducing the total number of structural analyses involved in the course of design optimization. In the UBS, the key issue is to identify those candidate solutions which have no chance to improve the...
WOS: 000395836900018Natural frequencies offer useful knowledge on the dynamic response of the struct...
In order to overcome the premature convergence defect of the basic particle swarm optimization (PSO)...
WOS: 000386356700001The current investigation deals with the weight minimization of truss structures...
This paper attempts to improve the computational efficiency of the well known particle swarm optimiz...
This paper focuses on optimizing truss structures while propose best PSO variants. Truss optimizatio...
The purpose of this paper is to show how the search algorithm known as particle swarm optimization p...
This study investigates the performances of the integrated particle swarm optimizer (iPSO) algorithm...
WOS: 000419971800002This study investigates the performances of the integrated particle swarm optimi...
Particle Swarm method based optimum design algorithm for unbraced steel frames is presented. The Par...
Field studies of structural optimization have gained increased attention due to the rapid developmen...
Particle swarm optimization (PSO) is applied to the low-weight design of trusses. The objective func...
Optimum design of structural systems based on metaheuristic algorithms suffers from enormously time-...
Computational cost of metaheuristic based optimum design algorithms grows excessively with structure...
Structural design optimization has become an extremely challenging and more complex task for most re...
WOS:000373425800004In this chapter, the optimum design problem of steel space frames is formulated a...
WOS: 000395836900018Natural frequencies offer useful knowledge on the dynamic response of the struct...
In order to overcome the premature convergence defect of the basic particle swarm optimization (PSO)...
WOS: 000386356700001The current investigation deals with the weight minimization of truss structures...
This paper attempts to improve the computational efficiency of the well known particle swarm optimiz...
This paper focuses on optimizing truss structures while propose best PSO variants. Truss optimizatio...
The purpose of this paper is to show how the search algorithm known as particle swarm optimization p...
This study investigates the performances of the integrated particle swarm optimizer (iPSO) algorithm...
WOS: 000419971800002This study investigates the performances of the integrated particle swarm optimi...
Particle Swarm method based optimum design algorithm for unbraced steel frames is presented. The Par...
Field studies of structural optimization have gained increased attention due to the rapid developmen...
Particle swarm optimization (PSO) is applied to the low-weight design of trusses. The objective func...
Optimum design of structural systems based on metaheuristic algorithms suffers from enormously time-...
Computational cost of metaheuristic based optimum design algorithms grows excessively with structure...
Structural design optimization has become an extremely challenging and more complex task for most re...
WOS:000373425800004In this chapter, the optimum design problem of steel space frames is formulated a...
WOS: 000395836900018Natural frequencies offer useful knowledge on the dynamic response of the struct...
In order to overcome the premature convergence defect of the basic particle swarm optimization (PSO)...
WOS: 000386356700001The current investigation deals with the weight minimization of truss structures...