Quantum-Inspired Evolutionary Algorithms for Neural Network Weight Distribution: A Classification Model for Parkinson's Disease
Quantum-Inspired Evolutionary Algorithms for Neural Network Weight Distribution: A Classification Model for Parkinson's Disease
Author(s): Srishti Sahni, Vaibhav Aggarwal, Ashish Khanna, Deepak Gupta, Siddhartha BhattacharyyaSubject(s): Health and medicine and law, ICT Information and Communications Technologies
Published by: Fakultet organizacije i informatike, Sveučilište u Zagrebu
Keywords: Parkinson’s Disease; Particle Swarm Optimization; Artificial Bee Colony Algorithm; Bat Algorithm; Quantum Optimization; Neural Network Weight Distribution;
Summary/Abstract: 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.
Journal: Journal of Information and Organizational Sciences
- Issue Year: 44/2020
- Issue No: 2
- Page Range: 345-363
- Page Count: 19
- Language: English
