Tomoharu Doi scite author profile

Modeling and Feedback Control for Electromagnetic Vibratory Feeder The electromagnetic vibratory feeder is a typical transport device used on production lines. Existing feeders are driven by feed-forward control, firing angle control of the driver cannot cancel sudden disturbances. We applied feedback control to such a feeder, proposing 2 detailed models – a dynamic model for a vibratory mechanical element useful to mechanical design and another for an electromagnetic actuating element. Taylor's expansion of these 2 models yields a linear dynamic model useful in feedback control theory. The feasibility of the model was confirmed through simulation. In a preliminary experiment, we applied PI control to the feeder because the driver is nonlinear, and results confirmed that PI control improves transport of the feeder.

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Relation between vehicle travel velocity and pedestrian injury risk in different age groups for the design of a pedestrian detection system

Oikawa

Matsui

Doi

et al. 2016

Safety Science

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Tomoharu Doi

Incorporation of Scalarizing Fitness Functions into Evolutionary Multiobjective Optimization Algorithms

Comparison between Single-Objective and Multi-Objective Genetic Algorithms: Performance Comparison and Performance Measures

Modeling and Feedback Control for Vibratory Feeder of Electromagnetic Type

Relation between vehicle travel velocity and pedestrian injury risk in different age groups for the design of a pedestrian detection system

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