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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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Stochastic response of a vibro-impact Duffing system under external Poisson impulses
TL;DR: In this article, the stationary probability density function (PDF) of a vibro-impact Duffing system under external Poisson impulses was studied, where a one-sided constraint is located at the equilibrium position of the system, and the system collides with the constraint by instantaneous repetitive impacts.
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Simplified Seismic Analysis of Disordered Masonry Towers
Luca Facchini,Michele Betti +1 more
TL;DR: In this article, the structural assessment of existing masonry towers under exceptional loads, such as earthquake loads, requires reliable and expedite methods of analysis, which should take into account both the specific nonlinear behavior of the material (for instance, the small tensile strength) and the randomness that affect the masonry material's properties (in some cases the distribution of the elastic parameters too).
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Extreme response predictions of nonlinear compliant offshore structures by stochastic linearization
Journal Article
Closure of "Responses of Dynamic Systems Excited by Non-Gaussian Pulse Processes"
TL;DR: In this paper, an efficient method for calculating the response statistics of dynamic systems subjected to Poisson-distributed (non-Gaussian) pulse processes is presented, which is based on an extension of the traditional method of the Ito stochastic differential equation.
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Single‐Degree‐of‐Freedom Nonlinear Homogeneous Systems
TL;DR: In this paper, a class of nonlinear oscillators that scales input-output relations is identified and studied, and the free-vibration response of single-degree-of-freedom systems with variable stiffness and variable damping is computed.