Open AccessBook
Random vibration and statistical linearization
J.B. Roberts,Pol D. Spanos +1 more
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TLDR
In this paper, a comprehensive account of statistical linearization with related techniques allowing the solution of a very wide variety of practical non-linear random vibration problems is given, and the principal value of these methods is that they are readily generalized to deal with complex mechanical and structural systems and complex types of excitation such as earthquakes.Abstract:
Interest in the study of random vibration problems using the concepts of stochastic process theory has grown rapidly due to the need to design structures and machinery which can operate reliably when subjected to random loads, for example winds and earthquakes. This is the first comprehensive account of statistical linearization - powerful and versatile methods with related techniques allowing the solution of a very wide variety of practical non-linear random vibration problems. The principal value of these methods is that unlike other analytical methods, they are readily generalized to deal with complex mechanical and structural systems and complex types of excitation such as earthquakes.read more
Citations
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Simulation of vertical vehicle non-stationary random vibrations considering various speeds
M. Saga,L. Jakubovicova +1 more
Journal ArticleDOI
Prediction of extreme response of nonlinear structures by extended stochastic linearization
TL;DR: In this article, the authors describe stochastic linearization methods that are specifically designed for the purpose of predicting extreme responses, e.g., strong hardening type nonlinearities in the dynamic model.
Proceedings ArticleDOI
Preliminary cross-validation of wave energy converter array interactions
Matt Folley,Trevor Whittaker +1 more
TL;DR: In this paper, the authors compare the physical model array interactions with those predicted by a numerical model and the suitability of the numerical and physical models analysed at three different levels and all provide support for the cross-validation of the two models.
Journal ArticleDOI
Efficient Dynamic Analysis of a Nonlinear Wave Energy Harvester Model
Journal ArticleDOI
Analysis on control of flow-induced vibration by tuned liquid damper with crossed tube-like containers
TL;DR: In this article, a modified stochastic linearization approach is applied to solve the nonlinear vibration of the structure and the liquid in the containers, and the effects of the tuned liquid damper on the structural response are identified.