Approach to Weak Signal Extraction Based on Empirical Mode Decomposition and Stochastic Resonance
p.216
p.216
Neural Networks Based Attitude Decoupling Control for AUV with X-Shaped Fins
p.222
p.222
New Hydraulic Synchronization System Based on Fuzzy PID Control Strategy
p.229
p.229
Remote Monitoring and Intelligent Fault Diagnosis Technology Research Based on Open CNC System
p.234
p.234
Research of Control Strategy Based on the Electro-Hydraulic Proportion Position Control System
p.238
p.238
Research on Acoustic Source Localization Technology Based on Cross-Correlation
p.244
p.244
Systematical Signal Unified Model and Intelligent Unit of MEMS Sensor
p.249
p.249
The Error Caused by Order Analysis for Rolling Bearing Fault Signal
p.254
p.254
Longitudinal Control for AUV with Self-Adaptive Learning Law
p.259
p.259
Research of Control Strategy Based on the Electro-Hydraulic Proportion Position Control System
Abstract:
The self-tuning fuzzy PID controller of the electro-hydraulic proportion position control system is designed and researched. Compared the self-tuning fuzzy PID control with the traditional PID control through experiments for the track effect on sinusoidal signals, the results show that the self-tuning fuzzy PID controller has higher accuracy and better stability. It is a more excellent performance controller.
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Periodical:
Advanced Materials Research (Volume 819)
Pages:
238-243
Citation:
Online since:
September 2013
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© 2013 Trans Tech Publications Ltd. All Rights Reserved
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