New Scheme for Vibration Test Applying 3-Axis Acceleration Sensors Array

Wei Wang; Jian Chao Jiao; Li Wei Tang; Tong Qiang Yang

doi:10.4028/www.scientific.net/AMM.121-126.989

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 121-126New Scheme for Vibration Test Applying 3-Axis...

New Scheme for Vibration Test Applying 3-Axis Acceleration Sensors Array

Abstract:

Acceleration sensors array can effectively measure 6-DOF high-frequency vibration parameters of many dimensions linear vibration and angular vibration. In engineering, single axis sensors introduce several errors. They also require more space to fix in and increase the computational complexity. The new scheme applying 3-axis acceleration sensors instead of single axis sensors can solve the problem above with effect. Simultaneously, the feasibility of the scheme was verified by principle derivation and model simulation.

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Periodical:

Applied Mechanics and Materials (Volumes 121-126)

Pages:

989-993

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.121-126.989

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Online since:

October 2011

Authors:

Wei Wang, Jian Chao Jiao, Li Wei Tang, Tong Qiang Yang

Keywords:

3-Axis Acceleration Sensors, 6-DOF Test, Parameters of Vibration, Sensors Array

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References

[1] YIN De-jin, WANG Hong-li, LIU Guang-bin. Six-accelerometers Configuration Scheme for SINS. Journal of Chinese Inertial Technology 2003，11（2）：48-51

Google Scholar

[2] CAO Yong-hong, ZU Jing, LIN Zu-sen. Review of the Gyroscope Free Strap-Down Inertial Navigation System. Journal of Test and Measurement Technology. 2004，18（3）：269-273

DOI: 10.1109/iccasm.2010.5620728

Google Scholar

[3] DING Ming-li, WANG Qi, ZHOU Qing-dong. New Nine-accelerometer Configuration for Improving Estimating Precision of Angular Rate. Journal of Nanjin University of Science and Technology. 2007，31（2）：210-213

Google Scholar

[4] HAO Yan-ling，LIU Zhi-ping. New Methods for Angular Velocity Calculation of GFSINS. Journal of Projectiles, Rockets, Missiles and Guidance. 2009，29（4）：35-38

Google Scholar

[5] Yuan-xi, Chen-dong, Tian-xiang, Lv-jing. Three-axis digital accelerometer ADXL345 and its application in SINS design. Electronic Design Engineering. 2010, 18(3): 138-140

Google Scholar

[6] Rand Hulsing. MEMS Inertial Rate and Acceleration Sensor. IEEE. 1998, 0-7803-4330-1/98/: 169-176

Google Scholar

[7] Zhao-guorong, Chen-muqing. Attitude Angular Velocity Algorithm for Nine-Accelerometer GFSINS. Journal of System Simulation. 2007, 19(14): 3350-3353

Google Scholar