Kokolo Ikeda scite author profile

Genetic Algorithm (GA) is known as a potent multiobjective optimization method, and the effectiveness of hybridizing it with local search (LS) has recently been reported in the literature. However, there is a relatively small number of studies on LS methods for multiobjective function optimization. Although each of the existing LS methods has some strong points, they have respective drawbacks such as high computational cost and inefficiency in improving objective functions. Hence, a more effective and efficient LS method is being sought, which can be used to enhance the performance of the hybridization.Defining Pareto descent directions as descent directions to which no other descent directions are superior in improving all objective functions, this paper proposes a new LS method, Pareto Descent Method (PDM), which finds Pareto descent directions and moves solutions in such directions thereby improving all objective functions simultaneously. In the case part or all of them are infeasible, it finds feasible Pareto descent directions or descent directions as appropriate. PDM finds these directions by solving linear programming problems, which is computationally inexpensive. Experiments have shown PDM's superiority over existing methods.

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High-speed optical correlator with coaxial holographic system

Ikeda¹,

Watanabe²

2015

Jpn. J. Appl. Phys.

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A high-speed volume holographic optical correlator is developed, which takes advantage of a coaxial holographic system. We have realized this high-speed correlator using an optimal design of the signal pattern, which improves the shift multiplex recording shift pitch. The speed of this correlator was further improved by increasing the number of pixels in the spatial light modulator and using a high speed rotating actuator. This correlation system successfully achieved an equal error rate of 0% by performing optical correlation over 900 times. It also achieved optical correlation experiment, at a shift pitch of 2.45 µm and a disk rotation speed of 900 rpm. In terms of optical correlation calculation speed, it yielded a peak interval of 542 ns, which corresponds to 1.846 × 106 frames per second.

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Deterministic Multi-step Crossover Fusion: A Handy Crossover Composition for GAs

Ikeda

Kobayashi

2002

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Accelerated UCT and Its Application to Two-Player Games

Hashimoto

Kishimoto

Yoshizoe

et al. 2012

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Kokolo Ikeda

Failure of Pareto-based MOEAs: does non-dominated really mean near to optimal?

Local Search for Multiobjective Function Optimization: Pareto Descent Method

High-speed optical correlator with coaxial holographic system

Deterministic Multi-step Crossover Fusion: A Handy Crossover Composition for GAs

Accelerated UCT and Its Application to Two-Player Games

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