Development of Online Hybrid Testing

Development of Online Hybrid Testing : Theory and Applications to Structural Engineering

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Description

Development of Online Hybrid Testing: Theory and Applications to Structural Engineering provides comprehensive treatments of several topics pertinent to substructure online hybrid tests. Emphasis has been placed on explaining the three frameworks:



the host-station framework,
separated model framework and
peer to peer framework

These have been developed within the Internet environment and are particularly suitable for distributed hybrid testing. In order to help readers to understand the essence of online hybrid testing and further to build up their own systems, an engineering practice has been introduced at the end of this book with the source code appended. Development of Online Hybrid Testing: Theory and Applications to Structural Engineering is primarily written for readers with some background in structural dynamics, finite elements, and computer science. Material that has previously only appeared in journal articles has been consolidated and simplified which provides the reader with a perspective of the state-of-the-art.
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Product details

  • Hardback | 240 pages
  • 152 x 229 x 14.22mm | 480g
  • Butterworth-Heinemann Inc
  • Woburn, United States
  • English
  • c100 B/W Illustrations; Illustrations, unspecified
  • 0128033789
  • 9780128033784

Table of contents

Chapter 1: Introduction
Chapter 2: Basics of the online hybrid test
Chapter 3: Time Integration Algorithms for the Online Hybrid Test
Chapter 4: Online hybrid tests using mixed control
Chapter 5: Internet online hybrid tests using host-station framework
Chapter 6: Internet online hybrid tests using separate-model framework
Chapter 7: Internet online hybrid tests using P2P framework
Chapter 8: Application of the online hybrid test in engineering practice
Chapter 9: Summary and future challenges
Appendix I: List of existing time integration algorithm
Appendix II: Codes for OS method
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About Tao Wang

Dr. Wang received the B.E. and Ph.D. degrees from North China Electric Power University, Beijing, China in 2010 and 2015, respectively. From 2013 to 2014, He was a Visiting Scholar at Princeton Plasma Physics Laboratory (PPPL), He is currently a lecturer in North China Electric Power University. His research interests include the applications of plasma for flue gas pollution control, mercury adsorption in thermal power plant.
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