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Reliability of Randomly Excited Hysteretic Structures: Lecture Notes in Engineering, cartea 21

Autor B. F. Jr. Spencer
en Limba Engleză Paperback – sep 1986
A. GENERAL REMARKS During the last century, probabilistic methods for design and analysis of engineering systems have assumed a prominent place as an engineering tool. No longer do engineers naively believe that all problems can be analyzed with deterministic methods; but rather, it has been recognized that, due to unc- tainties in the model and the excitation, it may only be possible to describe the state of a system in terms of some random measure. Thus, with the need to address safety and design issues adequately and simultaneously to minimize the cost of a system, much attention has been given to the development of probabilistic criteria which can be applied in a systematic manner [l]t. These techniques allow for uncertainties in the parameters of the model as well as for uncertainties in both the static and dynamic loadings to be considered and therefore give a better measure of the reliability of a system. Widespread application of probabilistic methods can be found in disciplines ranging from civil, mechanical and electrical engineering to biology, economics and political science.
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Specificații

ISBN-13: 9783540168638
ISBN-10: 354016863X
Pagini: 160
Ilustrații: XIV, 142 p. 1 illus.
Dimensiuni: 170 x 244 x 8 mm
Greutate: 0.26 kg
Ediția:Softcover reprint of the original 1st ed. 1986
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria Lecture Notes in Engineering

Locul publicării:Berlin, Heidelberg, Germany

Public țintă

Research

Cuprins

I. Introduction.- A. General Remarks.- B. Literature Review.- C. Objective and Scope.- II. Problem Definition and Formulation.- A. The Modified-Bouc Hysteresis Model.- B. Formulation of the First Passage Problem.- III. Numerical Solution of the First Passage Problem.- A. A Petrov-Galerkin Finite Element Method for Three-Dimensional Convection-Diffusion Problems.- B. Solution of the Generalized Pontriagin-Vitt Equation for the Ordinary Moments of Time to First Passage.- C. Solution of the Initial-Boundary Value Problem for Oscillator Reliability.- IV. Validation of Results.- A. Demonstration of the Consistency Between the Steady State and Transient First Passage Formulations.- B. Monte Carlo Simulation of the Failure Process.- C. Comparison of the Finite Element Results with the Simulation.- V. Estimating Oscillator Reliability Using Ordinary Moments.- A. The Maximum Entropy Distributions.- B. Estimating Reliability of the Hysteretic Oscillator.- VI. Conclusions and Recommendations.- I. Derivative Moments.- II. Derivation of the Finite Element Matrices.- III. Derivation of Spectral Density for a Rectangular Pulse Excitation.- IV. Maximum Entropy Distribution Algorithm.- Appendices.- References.