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A layered-coevolution-based attribute-boosted reduction using adaptive quantum-behavior pso and its consistent segmentation for neonates brain tissue

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Ding, W, Lin, C-T, Prasad, M, Cao, Z ORCID: 0000-0003-3656-0328 and Wang, J 2018 , 'A layered-coevolution-based attribute-boosted reduction using adaptive quantum-behavior pso and its consistent segmentation for neonates brain tissue' , IEEE Transactions on Fuzzy Systems, vol. 26, no. 3 , pp. 1177-1191 , doi: 10.1109/TFUZZ.2017.2717381.

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Abstract

The main challenge of attribute reduction in large data applications is to develop a new algorithm to deal with large, noisy, and uncertain large data linking multiple relevant data sources, structured or unstructured. This paper proposes a new and efficient layered-coevolution-based attribute-boosted reduction algorithm (LCQ-ABR*) using adaptive quantum-behavior particle swarm optimization (PSO). First, the quantum rotation angle of an evolutionary particle is updated by a dynamic change of self-adapting step size. Second, a self-adaptive partitioning strategy is employed to group particles into different memeplexes, and the quantum-behavior mechanism with the particles' states depicted by the wave function cooperates to achieve superior performance in their respective memeplexes. Third, a new layered coevolutionary model with multiagent interaction is constructed to decompose a complex attribute set, and it can self-adapt the attribute sizes among different layers and produce the reasonable decompositions by exploiting any interdependence among multiple relevant attribute subsets. Fourth, the decomposed attribute subsets are evolved to compute the positive region and discernibility matrix by using their best quantum particles, and the global optimal reduction set is induced successfully. Finally, extensive comparative experiments are provided to illustrate that LCQ-ABR* has better feasibility and effectiveness of attribute reduction on large-scale and uncertain dataset problems with complex noise as compared with representative algorithms. Moreover, LCQ-ABR* can be successfully applied in the consistent segmentation for neonatal brain three-dimensional MRI, and the consistent segmentation results further demonstrate its stronger applicability.

Item Type: Article
Authors/Creators:Ding, W and Lin, C-T and Prasad, M and Cao, Z and Wang, J
Keywords: adaptive quantum-behavior particle swarm optimization (PSO), attribute-boosted reduction, consistent segmentation for neonates brain tissue, layered coevolution with multiagent interaction, sulci and gyrus estimate, fuzzy neural networks
Journal or Publication Title: IEEE Transactions on Fuzzy Systems
Publisher: Ieee-Inst Electrical Electronics Engineers Inc
ISSN: 1063-6706
DOI / ID Number: 10.1109/TFUZZ.2017.2717381
Copyright Information:

© 2017 IEEE

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