An efficient batch expensive multi-objective evolutionary algorithm based on Decomposition
This paper proposes a novel surrogate-model-based multi-objective evolutionary algorithm, which is called Multi-objective Bayesian Optimization Algorithm based on Decomposition (MOBO/D). In this algorithm, a multi-objective problem is decomposed into several subproblems which will be solved simultan...
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| Vydáno v: | 2017 IEEE Congress on Evolutionary Computation (CEC) s. 1343 - 1349 |
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01.06.2017
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| Abstract | This paper proposes a novel surrogate-model-based multi-objective evolutionary algorithm, which is called Multi-objective Bayesian Optimization Algorithm based on Decomposition (MOBO/D). In this algorithm, a multi-objective problem is decomposed into several subproblems which will be solved simultaneously. MOBO/D builds Gaussian process model for each objective to learn the optimization surface, and defines utility function for each subproblem to guide the searching process. At each generation, MOEA/D algorithm is called to locate a set of candidate solutions which maximize all utility functions respectively, and a subset of those candidate solutions is selected for parallel batch evaluation. Experimental study on different test instances validates that MOBO/D can efficiently solve expensive multi-objective problems in parallel. The performance of MOBO/D is also better than several classical expensive optimization methods. |
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| AbstractList | This paper proposes a novel surrogate-model-based multi-objective evolutionary algorithm, which is called Multi-objective Bayesian Optimization Algorithm based on Decomposition (MOBO/D). In this algorithm, a multi-objective problem is decomposed into several subproblems which will be solved simultaneously. MOBO/D builds Gaussian process model for each objective to learn the optimization surface, and defines utility function for each subproblem to guide the searching process. At each generation, MOEA/D algorithm is called to locate a set of candidate solutions which maximize all utility functions respectively, and a subset of those candidate solutions is selected for parallel batch evaluation. Experimental study on different test instances validates that MOBO/D can efficiently solve expensive multi-objective problems in parallel. The performance of MOBO/D is also better than several classical expensive optimization methods. |
| Author | Qingfu Zhang Xi Lin Sam Kwong |
| Author_xml | – sequence: 1 surname: Xi Lin fullname: Xi Lin email: xi.lin@my.cityu.edu.hk organization: Dept. of Comput. Sci., City Univ. of Hong Kong, Hong Kong, China – sequence: 2 surname: Qingfu Zhang fullname: Qingfu Zhang email: gingfu.zhang@cityu.edu.hk organization: Dept. of Comput. Sci., City Univ. of Hong Kong, Hong Kong, China – sequence: 3 surname: Sam Kwong fullname: Sam Kwong email: cssamk@cityu.edu.hk organization: Dept. of Comput. Sci., City Univ. of Hong Kong, Hong Kong, China |
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| SubjectTerms | Algorithm design and analysis Bayes methods Computational modeling Gaussian processes Kernel Lead Optimization |
| Title | An efficient batch expensive multi-objective evolutionary algorithm based on Decomposition |
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