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Full Description
Sensors are used for civil infrastructure performance assessment and health monitoring, and have evolved significantly through developments in materials and methodologies. Sensor Technologies for Civil Infrastructure Volume I provides an overview of sensor hardware and its use in data collection.
The first chapters provide an introduction to sensing for structural performance assessment and health monitoring, and an overview of commonly used sensors and their data acquisition systems. Further chapters address different types of sensor including piezoelectric transducers, fiber optic sensors, acoustic emission sensors, and electromagnetic sensors, and the use of these sensors for assessing and monitoring civil infrastructures. Developments in technologies applied to civil infrastructure performance assessment are also discussed, including radar technology, micro-electro-mechanical systems (MEMS) and nanotechnology.
Sensor Technologies for Civil Infrastructure provides a standard reference for structural and civil engineers, electronics engineers, and academics with an interest in the field.
Contents
1. Introduction to sensing for structural performance assessment and health monitoring
M. L. Wang, Northeastern University, USA, J. P. Lynch, University of Michigan, USA and H. Sohn, Korea Advanced Institute of Science and Technology, Republic of Korea
2. Sensor data acquisition systems and architectures
M. D. Todd, University of California San Diego, USA
3. Commonly used sensors for civil infrastructures and their associated algorithms
N. C. Yoder, Whistle Labs, Inc., USA and D. E. Adams, Vanderbilt University, USA
4. Piezoelectric transducers for assessing and monitoring civil infrastructures
Y-K. An, M. K. Kim and H. Sohn, Korea Advanced Institute of Science and Technology (KAIST), Republic of Korea
5. Fiber optic sensors for assessing and monitoring civil infrastructures
K. J. Peters, North Carolina State University & D. Inaudi, SMARTEC S.A. Switzerland
6. Acoustic emission sensors for assessing and monitoring civil infrastructures
M. Meo, University of Bath, UK
7. Nonlinear acoustic and ultrasound methods for assessing and monitoring civil infrastructures
M. Meo, University of Bath, UK
8. Radar technology: radio frequency, interferometric, millimeter wave and terahertz sensors for assessing and monitoring civil infrastructures
D. Huston, Univeristy of Vermont, USA & D. Busuioc, DB Consultant, USA
9. Electromagnetic sensors for assessing and monitoring civil infrastructures
M. L. Wang, Northeastern University, USA and G. Wang, Methode Electronics Inc., USA
10. Micro-electro-mechanical-systems (MEMS) for assessing and monitoring civil infrastructures
D. Ozevin, University of Illinois at Chicago, USA
11. Multifunctional materials and nanotechnology for assessing and monitoring civil infrastructures
K. J. Loh and D. Ryu, University of California-Davis, USA
12. Laser-based sensing for assessing and monitoring civil infrastructures
T-Y. Yu, University of Massachusetts Lowell, USA
13. Corrosion sensing for assessing and monitoring civil infrastructures
A. Poursaee, Clemson University, USA
14. Vision-based sensing for assessing and monitoring civil infrastructures
Y. F. Ji, Tongji University, China and C. C. Chang, Hong Kong University of Science and Technology, Hong Kong
15. Robotic sensing for assessing and monitoring civil infrastructures
H. Myung, H. Jeon and Y-S. Bang, Korea Advanced Institute of Science and Technology (KAIST), Republic of Korea and Y. Wang, Georgia Institute of Technology, USA
16. Design and selection of wireless structural monitoring systems for civil infrastructures
M. B. Kane, C. Peckens and J. P. Lynch, University of Michigan, USA
17. Permanent installation of wireless structural monitoring systems in infrastructure systems
Courtney A. Peckens, Michael B. Kane, Yilan Zhang and Jerome P. Lynch, University of Michigan, USA
18. Energy harvesting for sensing systems for assessing and monitoring civil infrastructures
J. Scruggs, University of Michigan, USA
