Hybridizing two-stage meta-heuristic optimization model with weighted least squares support vector machine for optimal shape of double-arch dams

•Proposing ACOR–PSO as a two-stage meta-heuristic optimization model to efficiently find the optimal shape of double-arch concrete dams.•The improvement of ACOR–PSO in terms of computational efficiency, optimum solution, stability of results and convergence history in comparison with ACOR and PSO.•R...

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Published inApplied soft computing Vol. 27; pp. 205 - 218
Main Authors Saber Mahani, Amir, Shojaee, Saeed, Salajegheh, Eysa, Khatibinia, Mohsen
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2015
Subjects
Continuous ant colony optimization
Double-arch concrete dams
Optimal shape
Particle swarm optimization
Weighted least squares support vector machine
Continuous ant colony optimization
Optimal shape
Particle swarm optimization
Double-arch concrete dams
Weighted least squares support vector machine
Online AccessGet full text
ISSN1568-4946
1872-9681
DOI10.1016/j.asoc.2014.11.014

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Abstract •Proposing ACOR–PSO as a two-stage meta-heuristic optimization model to efficiently find the optimal shape of double-arch concrete dams.•The improvement of ACOR–PSO in terms of computational efficiency, optimum solution, stability of results and convergence history in comparison with ACOR and PSO.•Reducing the computational time of optimization procedure of double-arch dams subject to earthquake loads using weighted least squares support vector machine. A two-stage meta-heuristic optimization model is introduced to find the optimal shape of double-arch concrete dams. The main aim is that computational merits of the continuous ant colony optimization (ACOR) and the particle swarm optimization (PSO) be integrated. This proposed method called ACOR–PSO can accelerate the capability of exploitation and convergence of PSO. To achieve this, a preliminary optimization is accomplished using ACOR in the first stage of ACOR–PSO. In the second phase ACOR–PSO, PSO is utilized by using the optimal initial swarm of the first phase results. The weighted least squares support vector machine (WLS-SVM) is considered as the most reliable method for predicting the dynamic responses of dams. To testify the robustness and efficiency of the proposed ACOR–PSO, first, the well-known benchmark functions in literatures are optimized using the proposed ACOR–PSO, and provides comparisons with ACOR and PSO. Then, a real world double-arch dam is presented to demonstrate the effectiveness and practicality of the ACOR–PSO. The numerical results reveal that ACOR–PSO not only converges to better solutions but also provides faster convergence rate in comparison with ACOR and PSO.
AbstractList •Proposing ACOR–PSO as a two-stage meta-heuristic optimization model to efficiently find the optimal shape of double-arch concrete dams.•The improvement of ACOR–PSO in terms of computational efficiency, optimum solution, stability of results and convergence history in comparison with ACOR and PSO.•Reducing the computational time of optimization procedure of double-arch dams subject to earthquake loads using weighted least squares support vector machine. A two-stage meta-heuristic optimization model is introduced to find the optimal shape of double-arch concrete dams. The main aim is that computational merits of the continuous ant colony optimization (ACOR) and the particle swarm optimization (PSO) be integrated. This proposed method called ACOR–PSO can accelerate the capability of exploitation and convergence of PSO. To achieve this, a preliminary optimization is accomplished using ACOR in the first stage of ACOR–PSO. In the second phase ACOR–PSO, PSO is utilized by using the optimal initial swarm of the first phase results. The weighted least squares support vector machine (WLS-SVM) is considered as the most reliable method for predicting the dynamic responses of dams. To testify the robustness and efficiency of the proposed ACOR–PSO, first, the well-known benchmark functions in literatures are optimized using the proposed ACOR–PSO, and provides comparisons with ACOR and PSO. Then, a real world double-arch dam is presented to demonstrate the effectiveness and practicality of the ACOR–PSO. The numerical results reveal that ACOR–PSO not only converges to better solutions but also provides faster convergence rate in comparison with ACOR and PSO.
Author Shojaee, Saeed
Khatibinia, Mohsen
Saber Mahani, Amir
Salajegheh, Eysa
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Keywords Continuous ant colony optimization
Optimal shape
Particle swarm optimization
Double-arch concrete dams
Weighted least squares support vector machine
Language English
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Snippet •Proposing ACOR–PSO as a two-stage meta-heuristic optimization model to efficiently find the optimal shape of double-arch concrete dams.•The improvement of...
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StartPage 205
SubjectTerms Continuous ant colony optimization
Double-arch concrete dams
Optimal shape
Particle swarm optimization
Weighted least squares support vector machine
Title Hybridizing two-stage meta-heuristic optimization model with weighted least squares support vector machine for optimal shape of double-arch dams
URI https://dx.doi.org/10.1016/j.asoc.2014.11.014
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