2010
DOI: 10.1080/17415977.2010.500381
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Application of a hybrid of particle swarm and genetic algorithm for structural damage detection

Abstract: This study presents a novel optimization algorithm which is a hybrid of particle swarm optimization (PSO) method and genetic algorithm (GA). Using the Ackley and Schwefel multimodal benchmark functions incorporating up to 25 variables, the performance of the hybrid is compared with pure PSO and GA and found to be far superior in convergence and accuracy. The hybrid algorithm is then used to identify multiple crack damages in a thin plate using an inverse time-domain formulation. The damage is detected using an… Show more

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Cited by 36 publications
(8 citation statements)
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“…In order to improve computational efficiency of identification process, GA and SA were often hybridized [134,135,136,137]. Similarly, PSO was hybridized with many other algorithms including, for example, GA [138,139], GA and ACO [140] and other swarm intelligence methods [141]. HS was hybridized with GA [142] and PSO/RO [143].…”
Section: Introduction and Theoretical Backgroundmentioning
confidence: 99%
“…In order to improve computational efficiency of identification process, GA and SA were often hybridized [134,135,136,137]. Similarly, PSO was hybridized with many other algorithms including, for example, GA [138,139], GA and ACO [140] and other swarm intelligence methods [141]. HS was hybridized with GA [142] and PSO/RO [143].…”
Section: Introduction and Theoretical Backgroundmentioning
confidence: 99%
“…However, PSO does not include genetic operations such as crossover and mutation; rather, it uses its own speed to decide the search [141]. From the study of Sandesh and Shankar [142], PSO proved to be fast, whereas GA performed worst in speed and accuracy.…”
Section: Dynamic Responses-driven Hidmentioning
confidence: 99%
“…This philosophy of survival of the fittest facilitates to solve numerical optimization problems, where natural evaluation and adaptation to environmental variation are simulated mathematically using GA. This algorithm works based on an iterative procedure consisting of a constant-sized population of individuals, usually encoded as binary strings (chromosomes), representing candidate solutions in a given search space comprising of all the possible solutions to the optimization problem (Beygzadeh et al, 2014;Deb, 2001;Dey et al, 2015b;Sandesh and Shankar, 2010). The initial population of individuals is generated randomly.…”
Section: Identification Of Damagementioning
confidence: 99%