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Development of Online Hybrid Testing
Theory and Applications to Structural Engineering
1st Edition - September 14, 2015
Authors: Peng Pan, Tao Wang, Masayoshi Nakashima
Language: English
Hardback ISBN:9780128033784
9 7 8 - 0 - 1 2 - 8 0 3 3 7 8 - 4
eBook ISBN:9780128033920
9 7 8 - 0 - 1 2 - 8 0 3 3 9 2 - 0
Development of Online Hybrid Testing: Theory and Applications to Structural Engineering provides comprehensive treatments of several topics pertinent to substructure online hy…Read more
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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.
Presents basics and implementations of time integration algorithms for online hybrid tests, along with the applications for real engineering projects
Includes current progress on the development of substructure online hybrid tests as a means of investigating the seismic behaviour of large-scale structures
Provides source code for the example tests
Researchers, Graduates, PhD students and lecturers in the seismic performance of engineering structures as well as those studying finite elements, or computer science who wish to broaden their knowledge of the field.
Preface
Chapter 1: Introduction
Abstract
1.1 Background, Objective, and Challenge
1.2 Organization
Chapter 2: Basics of the Online Hybrid Test
Abstract
2.1 Introduction
2.2 Basic Concepts and Applications
2.3 Implementation and Major Components
2.4 Single DOF Structure with Explicit Scheme
2.5 Substructure Test with OS Scheme
2.6 Conclusions
Chapter 3: Time Integration Algorithms for the Online Hybrid Test
Abstract
3.1 Introduction
3.2 Principle of Time Integration Algorithms and Properties
3.3 Development of Time Integration Algorithms
3.4 Numerical Characteristics of Time Integration Algorithms
3.5 Analysis of Typical Time Integration Algorithms
3.6 Applications for an Online Hybrid Test
3.7 Conclusions
Chapter 4: The Online Hybrid Test Using Mixed Control
Abstract
4.1 Introduction
4.2 Presentation of the Online Test System
4.3 Displacement-Force Combined Control
4.4 Force-Displacement Switching Control
4.5 Conclusions
Chapter 5: An Internet Online Hybrid Test Using Host-Station Framework
Abstract
5.1 Introduction
5.2 Presentation of the Internet Online Test System
5.3 Accommodation with Implicit Finite Element Program
5.4 Internet Online Test of Base-isolated Structure
5.5 Conclusions
Chapter 6: Internet Online Hybrid Test Using Separated-Model Framework
Abstract
6.1 Introduction
6.2 Development of Separated-model Framework
6.3 Preliminary Investigations of Separated-model Framework
6.4 Distributed Online Hybrid Test on a Base-isolated Building
6.5 Conclusions
Chapter 7: An Internet Online Hybrid Test Using Peer-to-Peer Framework
Abstract
7.1 Introduction
7.2 Development of P2P Framework
7.3 Verification Test of Base-isolated Structure
7.4 Convergence Criteria on P2P Internet Online Hybrid Test System Involving Structural Nonlinearities
7.5 Numerical Characteristics of P2P Predictor-Corrector Procedure
7.6 Conclusions
Chapter 8: Application of an Online Hybrid Test in Engineering Practice
Abstract
8.1 Introduction
8.2 Application Example of a Conventional Online Hybrid Test
8.3 Application Example of P2P Internet Online Hybrid Test
8.4 Summary and Conclusions
Chapter 9: Summary and Conclusions
Abstract
9.1 Time Integration Algorithms
9.2 Online Hybrid Test Using Mixed Control
9.3 Internet Online Hybrid Test Using Host-Station Framework
9.4 Separated-Model Framework and Its Demonstration Examples
9.5 P2P Framework and Its Preliminary Demonstration Test
9.6 The Application of Online Hybrid Test in Engineering Practice
Appendix A: List of Exiting Time Integration Algorithms
Appendix B: Implementation of the OS Method
Index
No. of pages: 240
Language: English
Edition: 1
Published: September 14, 2015
Imprint: Butterworth-Heinemann
Hardback ISBN: 9780128033784
eBook ISBN: 9780128033920
PP
Peng Pan
Affiliations and expertise
Associate professor and associate director of the Structural Lab, Department of Civil Engineering, Tsinghua University, Tsinghua, China
TW
Tao Wang
Dr. Wang obtained an MD from Norman Bethune University of Medical Sciences in China, a PhD in Toxicology from University of Louisiana, and is a Diplomat of the American Board of Toxicology. Dr. Wang’s professional experience includes clinical practice in oncology, research on gene regulation in an academic setting, and more than 20 years of professional practice as toxicologist in the pharmaceutical/biotech industry. She is currently the Executive Director of Translational & Development Sciences at Coherus BioSciences, where she oversees preclinical development (in vivo pharmacokinetics, pharmacology and toxicology of small molecules and biologics) of drug candidates from early through late stage development. Prior to joining Coherus, Dr. Wang worked at Novartis Pharmaceuticals and Achaogen, where she led safety assessment efforts for oncology and non-oncology drug development. Dr. Wang received multiple professional awards, recognizing her significant achievements and performance above and beyond work requirements (e.g. Novartis Above & Beyond, Due Diligence, Catalyst Awards, and Spot Awards). She was also acknowledged for outstanding collaboration and contributions on multidisciplinary teams (e.g., Novartis Team Award). Dr. Wang is an active member with Society of Toxicology (SOT), and has contributed to the society’s leadership team as a Councilor and by serving on numerous elected and appointed committees. She also served on the Board of Directors for the American Board of Toxicology (ABT) and is an advisor to the Education Committee at International Union of Toxicology (IUTOX). Dr. Wang is on the Editorial Boards of the International Journal of Toxicology and Toxicology Research and Application. Dr. Wang has taught a course on Practical Toxicology at the University of California at Berkeley as a guest lecturer.
Affiliations and expertise
M.D., PhD., D.A.B.T. - Executive Director, Translational & Development Sciences, Coherus BioSciences, Inc.
MN
Masayoshi Nakashima
Affiliations and expertise
Professor at the Disaster Prevention Research Institute, Kyoto University, Kyoto, Japan
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