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Keywords: inverted pendulum, vertical support motion, stochastic stability, white noise process..

Summary

This paper is concerned with the stochastic stability of an inverted pendulum with a point mass at the top and a spring at the base; the bar is massless. The base is subjected to a vertical acceleration that is supposed to be a Gaussian stochastic process. A line-like structure excited by a vertical ground motion can be idealized in this way. Without simplifying assumptions the study of the stochastic stability gives rise to a non-trivial problem as the equation of motion belongs to the class of damped Mathieu equations. Thus, it is assumed that during the motion the angle of rotation remains small. In this way, the motion equation assumes the classical form of the second order oscillator, but the excitation is parametric so that there is a possibility of stochastic instability. Among the different definitions of stochastic stability, the almost sure (sample) stability and the stability in the second moments are considered herein. They are compared in the numerical analyses: it is found that they lead to notable differences in the stability boundaries and the almost sure stability is not conservative.

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Front Page Browse CCP CSETS CTR IJRT Other Authors Search Purchase Guide FAQ Contact us	Civil-Comp Proceedings ISSN 1759-3433 CCP: 106 PROCEEDINGS OF THE TWELFTH INTERNATIONAL CONFERENCE ON COMPUTATIONAL STRUCTURES TECHNOLOGY Edited by: Paper 126 Stochastic Stability of the Inverted Pendulum subjected to Support Motion C. Floris Department of Civil and Environmental Engineering, Politecnico di Milano, Italy doi:10.4203/ccp.106.126 purchase the full-text of this paper Full Bibliographic Reference for this paper C. Floris, "Stochastic Stability of the Inverted Pendulum subjected to Support Motion", in , (Editors), "Proceedings of the Twelfth International Conference on Computational Structures Technology", Civil-Comp Press, Stirlingshire, UK, Paper 126, 2014. doi:10.4203/ccp.106.126 Keywords: inverted pendulum, vertical support motion, stochastic stability, white noise process.. Summary This paper is concerned with the stochastic stability of an inverted pendulum with a point mass at the top and a spring at the base; the bar is massless. The base is subjected to a vertical acceleration that is supposed to be a Gaussian stochastic process. A line-like structure excited by a vertical ground motion can be idealized in this way. Without simplifying assumptions the study of the stochastic stability gives rise to a non-trivial problem as the equation of motion belongs to the class of damped Mathieu equations. Thus, it is assumed that during the motion the angle of rotation remains small. In this way, the motion equation assumes the classical form of the second order oscillator, but the excitation is parametric so that there is a possibility of stochastic instability. Among the different definitions of stochastic stability, the almost sure (sample) stability and the stability in the second moments are considered herein. They are compared in the numerical analyses: it is found that they lead to notable differences in the stability boundaries and the almost sure stability is not conservative. purchase the full-text of this paper (price £20) go to the previous paper go to the next paper return to the table of contents return to the book description purchase this book (price £65 +P&P)
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