Dunwei Gong scite author profile

Feature selection is an important data-preprocessing technique in classification problems such as bioinformatics and signal processing. Generally, there are some situations where a user is interested in not only maximizing the classification performance but also minimizing the cost that may be associated with features. This kind of problem is called cost-based feature selection. However, most existing feature selection approaches treat this task as a single-objective optimization problem. This paper presents the first study of multi-objective particle swarm optimization (PSO) for cost-based feature selection problems. The task of this paper is to generate a Pareto front of nondominated solutions, that is, feature subsets, to meet different requirements of decision-makers in real-world applications. In order to enhance the search capability of the proposed algorithm, a probability-based encoding technology and an effective hybrid operator, together with the ideas of the crowding distance, the external archive, and the Pareto domination relationship, are applied to PSO. The proposed PSO-based multi-objective feature selection algorithm is compared with several multi-objective feature selection algorithms on five benchmark datasets. Experimental results show that the proposed algorithm can automatically evolve a set of nondominated solutions, and it is a highly competitive feature selection method for solving cost-based feature selection problems.

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Binary differential evolution with self-learning for multi-objective feature selection

Zhang

Gong

Gao

et al. 2020

Information Sciences

310

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A comprehensive review of krill herd algorithm: variants, hybrids and applications

et al. 2017

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Environmental/economic power dispatch using a hybrid multi-objective optimization algorithm

Gong

Zhang

2010

International Journal of Electrical Power & Energy Systems

164

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Mobile Robot Path Planning Based on Ant Colony Algorithm With A* Heuristic Method

et al. 2019

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This paper proposes an improved ant colony algorithm to achieve efficient searching capabilities of path planning in complicated maps for mobile robot. The improved ant colony algorithm uses the characteristics of A * algorithm and MAX-MIN Ant system. Firstly, the grid environment model is constructed. The evaluation function of A * algorithm and the bending suppression operator are introduced to improve the heuristic information of the Ant colony algorithm, which can accelerate the convergence speed and increase the smoothness of the global path. Secondly, the retraction mechanism is introduced to solve the deadlock problem. Then the MAX-MIN ant system is transformed into local diffusion pheromone and only the best solution from iteration trials can be added to pheromone update. And, strengths of the pheromone trails are effectively limited for avoiding premature convergence of search. This gives an effective improvement and high performance to ACO in complex tunnel, trough and baffle maps and gives a better result as compare to traditional versions of ACO. The simulation results show that the improved ant colony algorithm is more effective and faster.

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Dunwei Gong

Robot path planning in uncertain environment using multi-objective particle swarm optimization

A bare-bones multi-objective particle swarm optimization algorithm for environmental/economic dispatch

A Set-Based Genetic Algorithm for Interval Many-Objective Optimization Problems

Multi-Objective Particle Swarm Optimization Approach for Cost-Based Feature Selection in Classification

Binary differential evolution with self-learning for multi-objective feature selection

A comprehensive review of krill herd algorithm: variants, hybrids and applications

Environmental/economic power dispatch using a hybrid multi-objective optimization algorithm

Mobile Robot Path Planning Based on Ant Colony Algorithm With A* Heuristic Method

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