Power Spectra Density Replication Control Strategy for 2-Axis Hydraulic Shaker Based on HV Estimator

Yu Chen; Qiang Li Luan; Zhang Wei Chen; Hui Nong He

doi:10.4028/www.scientific.net/AMM.596.610

Paper Titles

The Approach for Analyzing Motion Mode of High-Order Control Systems
p.594

The Design of Valve Block of Megawatt Wind Turbine Hydraulic Yaw System and AMESim Simulation Model
p.598

Modeling for the Flow Coupled Secondary Hydraulic Lifting System of the Excavator Bucket
p.602

3D Geometric Modeling of Francis Turbine Blades Based on Wooden Patterns and UG Software
p.606

Power Spectra Density Replication Control Strategy for 2-Axis Hydraulic Shaker Based on HV Estimator
p.610

Numerical Simulation of Seismic Wave Propagation in Different Media
p.616

Design of Salt In-Bags Incasing Control Management System Based on Dual Closed-Loop Fuzzy Controller
p.620

New Control Topology for Railway Static Power Conditioner
p.625

Triangle Formation Control of Multi-AUVs with Communication Constraints
p.631

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 596Power Spectra Density Replication Control Strategy...

Power Spectra Density Replication Control Strategy for 2-Axis Hydraulic Shaker Based on HV Estimator

Abstract:

Hydraulic shaker, equipment of simulating laboratory vibration environment, can accurately replicate the given power spectral density (PSD) and time history with an appropriate control algorithm. By studying method Hv estimator of frequency response function (FRF) estimation, a FRF identification strategy based on the Hv estimator is designed to increase the convergence rapidity and improve the system response function specialty. The system amplitude-frequency characteristics in some frequency points or frequency bands have large fluctuation. To solve this issue, a step-varying and frequency-sectioning iterative correction control algorithm is proposed for the control of 2-axial exciter PSD replication tests and the results show that the algorithm has a good effect on the control of hydraulic shaker, and can achieve reliable and high-precision PSD replication.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 596)

Pages:

610-615

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.596.610

Citation:

Cite this paper

Online since:

July 2014

Authors:

Yu Chen*, Qiang Li Luan, Zhang Wei Chen, Hui Nong He

Keywords:

Frequency Response Function Estimation, Frequency-Sectioning Iterative Correction, Hv Estimator, PSD Replication, Step-Varying

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Yanhua Wang, Wenrang Cheng. Dynamic Property of A Shaking Table Simulation Earthquake in Chinese. Journal of Vibration and Shock. Vol. 29(2012), pp.99-106.

Google Scholar

[2] Zhenyun Tang, Zhenbao Li, Jinbao Ji. Development in Shaking Table Control System in Chinese. Journal of Earthquake Engineering and Engineering Vibration. Vol. 29(2009), pp.162-169.

Google Scholar

[3] Xudong He, Huaihai Chen, Fan Shen. Control Research on Double Vibration Random exciting in Chinese. Journal of Vibration Engineering. Vol. 19(2006), pp.145-149.

Google Scholar

[4] Trubert, M.R. An Analog Technique for the Equalization of Multiple Electromagnetic Shakers for Vibration Testing. Journal of Spacecraft. Vol. 5 (1968), pp.1438-1443.

DOI: 10.2514/3.29499

Google Scholar

[5] Smallwood D.O. Random Vibration Testing of A Single Test Item with A Multiple Input Control System. Proceeding of the Institute of Environmental Sciences. Atlanta, Georgia: IES (1982), pp.42-49.

Google Scholar

[6] Underwood, M.A., Keller T. Recent System Developments for Multi-Actuator Vibration Control. Sound and Vibration. Vol. 35 (2001), pp.16-23.

Google Scholar

[7] Zhidong Yang, Guangfeng Guan, Dacheng Cong. Frequency Response Function Estimation for Three Axes Hydraulic Shaking System by Using Hv Algorithm in Chinese. Journal of Earthquake Engineering and Engineering Vibration. Vol. 27(2007), pp.83-87.

Google Scholar

[8] Stoten DP, Shimizu N. The Feedforward Minimal Control Synthesis Algorithm and Its Application to the Control of Shaking-Tables. Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering. Vol. 221(2007).

DOI: 10.1243/09596518jsce246

Google Scholar

[9] Zhaohua Wang, Guangfeng Guan, Dacheng Cong. All Phase FFT Spectrum Analysis in Chinese. Journal of China Institute of Communications. Vol. 24(2003), pp.16-19.

Google Scholar

[10] Kazuyoshi Ueno, Yoshikado Yamauchi. Measuring System for Transfer Function Matrix of A System to Be Controlled in Multi-Degree of Freedom Vibration on Control. U.S. Patent 9, 304, 669. (2002).

DOI: 10.1121/1.1526549

Google Scholar

[11] Xuli Cui, Huaihai Chen, Xudong He. All-Phase Hv Frequency Response Function Estimation for MIMO Random Vibration Test control in Chinese. Journal of Vibration Engineering. Vol. 24(2011), pp.181-185.

Google Scholar

[12] Jiayan Chen, Haidong Wang, Zhangwei Chen. Progress in Multi-Exciter Vibration Testing Control Technology in Chinese. Journal of Vibration and Shock. Vol. 30(2011), pp.69-73.

Google Scholar