Jingda Deng scite author profile

Abstract-The bias feature is a major factor that makes a multiobjective optimization problem (MOP) difficult for multiobjective evolutionary algorithms (MOEAs). To deal with this problem feature, an algorithm should carefully balance between exploration and exploitation. The decomposition-based MOEA decomposes an MOP into a number of single objective subproblems and solves them in a collaborative manner. Single objective optimizers can be easily used in this algorithm framework. Covariance matrix adaptation evolution strategy (CMA-ES) has proven to be able to strike good balance between the exploration and the exploitation of search space. This paper proposes a scheme to use both differential evolution (DE) and covariance matrix adaptation in the MOEA based on decomposition. In this scheme, single objective optimization problems are clustered into several groups. To reduce the computational overhead, only one subproblem from each group is selected to optimize by CMA-ES while other subproblems are optimized by DE. When an evolution strategy procedure meets some stopping criteria, it will be reinitialized and used for solving another subproblem in the same group. A set of new multiobjective test problems with bias features are constructed in this paper. Extensive experimental studies show that our proposed algorithm is suitable for dealing with problems with biases.Index Terms-Bias feature, covariance matrix adaptation evolution strategy (CMA-ES), decomposition, multiobjective evolutionary algorithms (MOEAs).

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A Preference-Based Multiobjective Evolutionary Approach for Sparse Optimization

Zhang

Deng

et al. 2018

IEEE Trans. Neural Netw. Learning Syst.

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Iterative thresholding is a dominating strategy for sparse optimization problems. The main goal of iterative thresholding methods is to find a so-called -sparse solution. However, the setting of regularization parameters or the estimation of the true sparsity are nontrivial in iterative thresholding methods. To overcome this shortcoming, we propose a preference-based multiobjective evolutionary approach to solve sparse optimization problems in compressive sensing. Our basic strategy is to search the knee part of weakly Pareto front with preference on the true -sparse solution. In the noiseless case, it is easy to locate the exact position of the -sparse solution from the distribution of the solutions found by our proposed method. Therefore, our method has the ability to detect the true sparsity. Moreover, any iterative thresholding methods can be used as a local optimizer in our proposed method, and no prior estimation of sparsity is required. The proposed method can also be extended to solve sparse optimization problems with noise. Extensive experiments have been conducted to study its performance on artificial signals and magnetic resonance imaging signals. Our experimental results have shown that our proposed method is very effective for detecting sparsity and can improve the reconstruction ability of existing iterative thresholding methods.

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On the use of random weights in MOEA/D

Ding

Deng

et al. 2015

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Approximating Hypervolume and Hypervolume Contributions Using Polar Coordinate

Deng

Zhang

2019

IEEE Trans. Evol. Computat.

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A multi-phase multiobjective approach based on decomposition for sparse reconstruction

Yang

Zhang

et al. 2016

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Jingda Deng

Biased Multiobjective Optimization and Decomposition Algorithm

A Preference-Based Multiobjective Evolutionary Approach for Sparse Optimization

On the use of random weights in MOEA/D

Approximating Hypervolume and Hypervolume Contributions Using Polar Coordinate

A multi-phase multiobjective approach based on decomposition for sparse reconstruction

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