Topic
Random vibration
About: Random vibration is a research topic. Over the lifetime, 4494 publications have been published within this topic receiving 69569 citations.
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01 Aug 1992
TL;DR: In this paper, the authors address random vibration of mechanical and structural systems commonly encountered in aerospace, mechanical and civil engineering and propose techniques for determining probabilistic characteristics of the response of dynamic systems subjected to random loads or inputs and for calculating probabilities related to system performance or reliability.
Abstract: This book addresses random vibration of mechanical and structural systems commonly encountered in aerospace, mechanical and civil engineering. It offers techniques for determining probabilistic characteristics of the response of dynamic systems subjected to random loads or inputs and for calculating probabilities related to system performance or reliability.
605 citations
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01 Jan 1973
TL;DR: Vibrations of simple electronic systems lumped masses for electronic assemblies beam structures for electronic subassemblies electronic components, frames, and rings printed-circuit boards and flat plates preventing sinusoidal vibration failures understanding random vibration designing for shock environments designing electronic boxes vibration fixtures and vibration testing fatigue in electronic structures as mentioned in this paper.
Abstract: Vibrations of simple electronic systems lumped masses for electronic assemblies beam structures for electronic subassemblies electronic components, frames, and rings printed-circuit boards and flat plates preventing sinusoidal vibration failures understanding random vibration designing for shock environments designing electronic boxes vibration fixtures and vibration testing fatigue in electronic structures.
523 citations
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TL;DR: In this article, the results obtained by applying the method of stochastic averaging to random vibration problems are discussed and applied to a variety of problems involving the response of lightly damped systems to broad-band random excitations.
Abstract: Results obtained by applying the method of stochastic averaging to random vibration problems are discussed. This method is applicable to a variety of problems involving the response of lightly damped systems to broad-band random excitations. Solutions pertaining to both linear and non-linear vibrations are reviewed, and it is shown that the technique enables, in the case of parametric excitation, stability criteria to be established. Some results which have been obtained relating to the first-passage reliability problems are also surveyed. Various applications of the theory to engineering problems are outlined.
490 citations
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01 Jan 1985
TL;DR: In this paper, structural analysis of a single-degree-of-freedom system undamped single degree of freedom system response to haarmonic loading response to general dynamic loading Fourier analysis and response in the frequency domain generalized coordinates and Rayleigh's method nonlinear structural response response spectra.
Abstract: Part I: structures modelled as a single degree-of-freedom system undamped single degree-of-freedom system damped single degree-of-freedom system response of one-degree-of-freedom system to haarmonic loading response to general dynamic loading Fourier analysis and response in the frequency domain generalized co-ordinates and Rayleigh's method nonlinear structural response response spectra. Part II: structures modelled as shear buildings the multistory shear building free vibration of a shear building forced motion of shear buildings damped motion of shear buildings reduction of dynamic matrices. Part III: framed structures modeled as discrete multidegree-of-freedom systems dynamic analysis of beams dynamic analysis of plane frames dynamic anaylsis of grids three-dimensional frames dynamic analysis of trusses time history response of multidegree-of-freedom systems. Part IV: structures modelled with distributed properties dynamic analysis of systems with distributed properties discretization of continuous systems. Part V: introduction to finite element method dynamic analysis of plates dynamic analysis of shells dynamic analysis of three-dimensional solid structures. Part VI: random vibration. Part VII: earthquake engineering equivolent staic lateral force method - uniform Building Code 1994 dynamic method - uniform Building Code - 1994.
460 citations