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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
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Polynomial approximation of aerodynamic coefficients based on the statistical description of the wind incidence
Vincent Denoël,Vincent Denoël +1 more
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Approximation closure method of FPK equations
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A transformed path integral approach for solution of the Fokker–Planck equation
TL;DR: The proposed TPI method, in contrast to conventional methods such as Monte Carlo simulations and fixed grid approaches, is able to better represent the distributions and better address challenges in processes with large diffusion, large drift and large concentration of PDF.
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Closed-Form Solutions for the Probability Distribution of Time-Variant Maximal Value Processes for Some Classes of Markov Processes
TL;DR: Though the analytical results are now only applicable to one-dimensional Markov process, it provides at least some benchmark results for the checking of future possible analytical or numerical methods for the probability density function of MVP of more general and high-dimensionalMarkov process.
Nonlinear Energy Harvesting Under White Noise
TL;DR: In this paper, the authors investigated the response of nonlinear mono-and bi-stable energy harvesters to environmental excitations that can be approximated via a white noise process and found that the nonlinearity has no influence on the output power unless the ratio between the time constant of the harvesting circuit and the period of the mechanical oscillator is small.