Acceleration amplitude and phase controller based on the FEL applied to hydraulic vibration generator system

Yong Zhao; Dacheng Cong; Junwei Han

Acceleration amplitude and phase controller based on the FEL applied to hydraulic vibration generator system

Yong Zhao, Dacheng Cong, Junwei Han

Harbin Institute of Technology

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

For the two test items of hydraulic vibration generator system, acceleration sinusoidal signal waveform replication, acceleration sweep, Feedback-Error-Learning(FEL) control strategy is utilized to solve the weakness of tracking accuracy and robustness which traditional three variable control strategy can't do. Feedforward neural networks of FEL control strategy was designed, using ADALINE neural networks, normalized LMS, plus characteristics of sinusoidal function. For sinusoidal and sweep reference input, even in cases that valve-controlled cylinder system parameters changed, the designed controller still achieved high tracking accuracy in amplitude and in phase. Furthermore, it has the advantage of simple construct and smaller amount of computation, which can satisfy the demand of control system that requires higher real-time capability and DSPs solution.

Original language	English
Pages (from-to)	915-919
Number of pages	5
Journal	Shenyang Jianzhu Daxue Xuebao (Ziran Kexue Ban)/Journal of Shenyang Jianzhu University (Natural Science)
Volume	24
Issue number	5
State	Published - Sep 2008
Externally published	Yes

Keywords

Feedback-error-learning
FEL
Neural networks
Normalized LMS
Vibration generator system
Waveform replication

Cite this

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title = "Acceleration amplitude and phase controller based on the FEL applied to hydraulic vibration generator system",

abstract = "For the two test items of hydraulic vibration generator system, acceleration sinusoidal signal waveform replication, acceleration sweep, Feedback-Error-Learning(FEL) control strategy is utilized to solve the weakness of tracking accuracy and robustness which traditional three variable control strategy can't do. Feedforward neural networks of FEL control strategy was designed, using ADALINE neural networks, normalized LMS, plus characteristics of sinusoidal function. For sinusoidal and sweep reference input, even in cases that valve-controlled cylinder system parameters changed, the designed controller still achieved high tracking accuracy in amplitude and in phase. Furthermore, it has the advantage of simple construct and smaller amount of computation, which can satisfy the demand of control system that requires higher real-time capability and DSPs solution.",

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author = "Yong Zhao and Dacheng Cong and Junwei Han",

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T1 - Acceleration amplitude and phase controller based on the FEL applied to hydraulic vibration generator system

AU - Zhao, Yong

AU - Cong, Dacheng

AU - Han, Junwei

PY - 2008/9

Y1 - 2008/9

N2 - For the two test items of hydraulic vibration generator system, acceleration sinusoidal signal waveform replication, acceleration sweep, Feedback-Error-Learning(FEL) control strategy is utilized to solve the weakness of tracking accuracy and robustness which traditional three variable control strategy can't do. Feedforward neural networks of FEL control strategy was designed, using ADALINE neural networks, normalized LMS, plus characteristics of sinusoidal function. For sinusoidal and sweep reference input, even in cases that valve-controlled cylinder system parameters changed, the designed controller still achieved high tracking accuracy in amplitude and in phase. Furthermore, it has the advantage of simple construct and smaller amount of computation, which can satisfy the demand of control system that requires higher real-time capability and DSPs solution.

AB - For the two test items of hydraulic vibration generator system, acceleration sinusoidal signal waveform replication, acceleration sweep, Feedback-Error-Learning(FEL) control strategy is utilized to solve the weakness of tracking accuracy and robustness which traditional three variable control strategy can't do. Feedforward neural networks of FEL control strategy was designed, using ADALINE neural networks, normalized LMS, plus characteristics of sinusoidal function. For sinusoidal and sweep reference input, even in cases that valve-controlled cylinder system parameters changed, the designed controller still achieved high tracking accuracy in amplitude and in phase. Furthermore, it has the advantage of simple construct and smaller amount of computation, which can satisfy the demand of control system that requires higher real-time capability and DSPs solution.

KW - Feedback-error-learning

KW - FEL

KW - Neural networks

KW - Normalized LMS

KW - Vibration generator system

KW - Waveform replication

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Acceleration amplitude and phase controller based on the FEL applied to hydraulic vibration generator system

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Keywords

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