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Genetic-Fuzzy Controller Design for Pneumatic Motors
- Binding:
- Paperback
- Pages:
- 132
- Published:
- May 22, 2011
- Dimensions:
- 152x229x8 mm.
- Weight:
- 204 g.
Delivery:
1-2 weeks
Expected delivery: December 13, 2024
Extended return policy to January 30, 2025
Description of Genetic-Fuzzy Controller Design for Pneumatic Motors
Trajectory tracking fuzzy logic controller (TTFLC) is proposed for the speed control of a pneumatic motor (PM). A third order trajectory is defined to determine the trajectory function that has to be tracked by the PM speed. Genetic algorithm (GA) is used to find the TTFLC boundary values of membership functions (MF) and weights of control rules. In addition, artificial neural networks (ANN) modelled dynamic behaviour of PM is given. This ANN model is used to find the optimal TTFLC parameters by offline GA approach. The experimental results showthat designed TTFLC successfully enables thePMspeed track the given trajectory under variousworking conditions.
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