Tzyy-Chyang Lu scite author profile

This paper presents a quantum-based algorithm for evolving artificial neural networks (ANNs). The aim is to design an ANN with few connections and high classification performance by simultaneously optimizing the network structure and the connection weights. Unlike most previous studies, the proposed algorithm uses quantum bit representation to codify the network. As a result, the connectivity bits do not indicate the actual links but the probability of the existence of the connections, thus alleviating mapping problems and reducing the risk of throwing away a potential candidate. In addition, in the proposed model, each weight space is decomposed into subspaces in terms of quantum bits. Thus, the algorithm performs a region by region exploration, and evolves gradually to find promising subspaces for further exploitation. This is helpful to provide a set of appropriate weights when evolving the network structure and to alleviate the noisy fitness evaluation problem. The proposed model is tested on four benchmark problems, namely breast cancer and iris, heart, and diabetes problems. The experimental results show that the proposed algorithm can produce compact ANN structures with good generalization ability compared to other algorithms.

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Genetic algorithm-based S-curve acceleration and deceleration for five-axis machine tools

Chen

2016

Int J Adv Manuf Technol

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An adaptive population multi-objective quantum-inspired evolutionary algorithm for multi-objective 0/1 knapsack problems

2013

Information Sciences

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A region-based quantum evolutionary algorithm (RQEA) for global numerical optimization

Juang

2013

Journal of Computational and Applied Mathematics

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Tzyy-Chyang Lu

Near Time-Optimal <italic>S</italic>-Curve Velocity Planning for Multiple Line Segments Under Axis Constraints

Quantum-Based Algorithm for Optimizing Artificial Neural Networks

Genetic algorithm-based S-curve acceleration and deceleration for five-axis machine tools

An adaptive population multi-objective quantum-inspired evolutionary algorithm for multi-objective 0/1 knapsack problems

A region-based quantum evolutionary algorithm (RQEA) for global numerical optimization

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