神经网络权值分布的量子进化算法

IF 0.3 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Journal of Information and Organizational Sciences Pub Date : 2020-12-18 DOI:10.31341/jios.44.2.9

Srishti Sahni, Vaibhav Aggarwal, Ashish Khanna, Deepak Gupta, S. Bhattacharyya

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引用次数: 0

摘要

帕金森氏症是一种退化性神经系统疾病，病因不明，无法治愈，甚至无法诊断。下面的文章介绍了一个三层感知器神经网络模型，该模型使用各种进化和量子启发的进化算法进行训练，用于帕金森病的分类。研究了粒子群算法、人工蜂群算法和蝙蝠算法等优化算法及其量子启发的对应算法，以确定最适合神经网络权重分布的算法。结果表明，量子启发的进化算法在给定环境下表现更好，其中qABC的准确率最高，约为92.3%。所提出的模型不仅可以用于疾病诊断，而且还可能在其他各个领域找到它的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Quantum-Inspired Evolutionary Algorithms for Neural Network Weight Distribution

Parkinson’s Disease is a degenerative neurological disorder with unknown origins, making it impossible to be cured or even diagnosed. The following article presents a Three-Layered Perceptron Neural Network model that is trained using a variety of evolutionary as well as quantum-inspired evolutionary algorithms for the classification of Parkinson's Disease. Optimization algorithms such as Particle Swarm Optimization, Artificial Bee Colony Algorithm and Bat Algorithm are studied along with their quantum-inspired counter-parts in order to identify the best suited algorithm for Neural Network Weight Distribution. The results show that the quantum-inspired evolutionary algorithms perform better under the given circumstances, with qABC offering the highest accuracy of about 92.3%. The presented model can be used not only for disease diagnosis but is also likely to find its applications in various other fields as well.

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