Description
Uncertainty Quantification, Softcover reprint of the original 1st ed. 2017
An Accelerated Course with Advanced Applications in Computational Engineering
Interdisciplinary Applied Mathematics Series, Vol. 47
Author: Soize Christian
Language: EnglishSubjects for Uncertainty Quantification:
Keywords
High Stochastic Dimension; Maximum Entropy Principle; MCMC Methods; Model Uncertainties; Model-parameter Uncertainties; Non-Gaussian Random Fields; Nonparametric Uncertainties; Polynomial Chaos Expansion; Random Matrices; Robust Design; Statistical Inverse Problems; Stochastic Reduced-order Computational Models
Uncertainty Quantification
Publication date: 07-2018
Support: Print on demand
Publication date: 07-2018
Support: Print on demand
Uncertainty Quantification
Publication date: 05-2017
Support: Print on demand
Publication date: 05-2017
Support: Print on demand
Description
/li>Contents
/li>Biography
/li>Comment
/li>
This book presents the fundamental notions and advanced mathematical tools in the stochastic modeling of uncertainties and their quantification for large-scale computational models in sciences and engineering. In particular, it focuses in parametric uncertainties, and non-parametric uncertainties with applications from the structural dynamics and vibroacoustics of complex mechanical systems, from micromechanics and multiscale mechanics of heterogeneous materials.
Resulting from a course developed by the author, the book begins with a description of the fundamental mathematical tools of probability and statistics that are directly useful for uncertainty quantification. It proceeds with a well carried out description of some basic and advanced methods for constructing stochastic models of uncertainties, paying particular attention to the problem of calibrating and identifying a stochastic model of uncertainty when experimental data is available.
This book is intended to be a graduate-level textbook for students as well as professionals interested in the theory, computation, and applications of risk and prediction in science and engineering fields.
Fundamental Notions in Stochastic Modeling of Uncertainties and their Propagation in Computational Models.- Elements of Probability Theory.- Markov Process and Stochastic Differential Equation.- MCMC Methods for Generating Realizations and for Estimating the Mathematical Expectation of Nonlinear Mappings of Random Vectors.- Fundamental Probabilistic Tools for Stochastic Modeling of Uncertainties.- Brief Overview of Stochastic Solvers for the Propagation of Uncertainties.- Fundamental Tools for Statistical Inverse Problems.- Uncertainty Quantification in Computational Structural Dynamics and Vibroacoustics.- Robust Analysis with Respect to the Uncertainties for Analysis, Updating, Optimization, and Design.- Random Fields and Uncertainty Quantification in Solid Mechanics of Continuum Media.
Christian Soize is professor at Universite Paris-Est Marne-la-Valee. His research interests include stochastic modeling of uncertainties in computational mechanics, their propagation and their quantification.
Presents fundamental mathematical tools of probability and statistics that are directly useful for uncertainty quantification Includes several topics not currently published in research monographs Covers the basic models and advanced methodologies for constructing the stochastic modeling of uncertainties
© 2024 LAVOISIER S.A.S.