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This textbook investigates in detail the methods for stochastic dynamic response and stability analyses of nonlinear systems (especially ships and ocean engineering systems), elucidating the advantages and disadvantages of each of the methods (the statistical linearization method, the perturbation method, the Monte Carlo Simulation method, the numerical path integration method, the global geometric method and the first passage theory). Studies on stochastic dynamic analysis of nonlinear systems have attracted engineers and scientists from various disciplines, such as aeronautical, civil,…mehr

Produktbeschreibung
This textbook investigates in detail the methods for stochastic dynamic response and stability analyses of nonlinear systems (especially ships and ocean engineering systems), elucidating the advantages and disadvantages of each of the methods (the statistical linearization method, the perturbation method, the Monte Carlo Simulation method, the numerical path integration method, the global geometric method and the first passage theory). Studies on stochastic dynamic analysis of nonlinear systems have attracted engineers and scientists from various disciplines, such as aeronautical, civil, mechanical and ocean engineering. Pursuing a systematic approach, this book establishes a fundamental framework for this topic, while emphasizing the importance of accurate and efficient analysis as well as the significant influence of choosing a suitable method in the design and optimization of various nonlinear engineering systems (especially ships and ocean engineering systems).

Thetextbook is intended for upper undergraduate and graduate students who are interested in advanced dynamic analysis technologies, researchers investigating nonlinear systems under stochastic dynamic excitations, and civil/mechanical/structural/ocean engineers working on designing and optimization of real-world nonlinear engineering systems.

The basis of English translation of this book from its Chinese original manuscript was done with the help of artificial intelligence. A subsequent human revision of the content was done by the author.
Autorenporträt
Dr. Yingguang Wang received his B.S. and Ph.D degrees in Naval Architecture and Ocean Engineering from Shanghai Jiao Tong University, Shanghai, China, in 1989 and 2008, respectively, and the M. S. degree from the University of Washington, Seattle, U. S. A. in 2001. Since Jan. 2012, Dr. Wang has been in School of Naval Architecture, Ocean and Civil Engineering, Shanghai Jiao Tong University as an Associate Professor. Dr. Wang focuses on the research of stochastic dynamic analysis of nonlinear systems. His recent research interests include: marine dynamics and hydrodynamics, ship stability, system identification of marine dynamical systems, extreme dynamic responses of offshore energy systems, etc. Since 2008, Dr. Wang has published 61 peer-reviewed academic papers in leading international journals as the first author. He is a member of ASCE and ASME and serves as the Associate Editor of the SNAME (Society of Naval Architects and Marine Engineers) Journal of Ship Production and Design. He was a recipient of first-class Science and Technology Advancement Award bestowed by the Ministry of Education of People's Republic of China in 2018 and a recipient of a Grand Prize of the Science and Technology Award of China Machinery Industry bestowed by the Chinese Mechanical Engineering Society in 2018. Dr. Yingguang Wang also won the prestigious Albert Nelson Marquis Lifetime Achievement Award in 2018.