Affiliation:
1. University of Transport Technology
Abstract
Multi-axial mechanical systems commonly encounter the problem of vibration while attempting to drive machining systems at high speed. Many effective methods based on feed-forward and feedback control have been proposed and applied for vibration reduction. In order to design controllers all methods require the exact knowledge of system parameters: vibration frequency and damping ratio. In recent years, low-cost Micro Electro Mechanical Systems (MEMS) accelerometers have been used for many applications in industry. This paper presents the advantage of low cost MEMS accelerometer to identify vibration parameters of mechanical systems in comparison to conventional expensive devices.
Publisher
Trans Tech Publications, Ltd.
Reference11 articles.
1. N.C. Singer, W.P. Seering, Preshaping Command Inputs to Reduce System Vibration, ASME Journal of Dynamic System, Measurement and Control 112 (1990) 76-82.
2. W.E. Singhose, N. Singer, W. Seering, Comparison of Command Shaping Methods for Reducing Residual Vibration, In Proc. 3rd European Control Conference, Rome, 1995, pp.1126-1131.
3. S. Brock, Identification of the parameters in inverted pendulum model [DC motor control], in Proc. 7th International Workshop on Advanced Motion Control, Maribor, 2002, pp.316-321.
4. I. Ivanov, P. Hubinsky, L. Jurisica, Elimination of Pendulum Residual Oscillation in Electromechanical System Containing Pendulum, In Proc. 14th International Conference on Electrical Drives and Power, High Tatras, (2001).
5. Y. Yoshida, H. Tabata, Visual feedback control of an overhead crane and its combination with time-optimal control, In Proc. 2008 IEEE/ASME International Conference on Advanced Intelligent Mechatronics, Xian, 2008, pp.1114-1119.
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1 articles.
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