Description
Condition Monitoring and Structural Health Monitoring of Infrastructure Systems presents important developments in this field whilst focusing on specific areas such as bridges, buildings, industrial facilities, dams and hydraulic structures, pipelines, and power generation/transmission systems, to provide the reader with a focused insight into CM/SHM in these areas. The book provides both details of the technologies and applications with a focus on infrastructure components and systems. Given its specific focus on areas of infrastructure it will help researchers, designers, and practitioners in assessing the current state-of-the-art and in the identification of problems/challenges as well as to provide a focus of the "how to" so that they can get ahead in their research/application. It will assist the researcher, practitioner, and engineer in solving the issues of assessment and design which are critically needed as well as those of diagnosis and prognosis of the condition of a structure/system moving away from the inefficient time-based inspection system to a more efficient condition-based one. Written for a wide variety of audience, this book will cover different technologies, sensors, and analysis methods with a view towards application to ensure that the reader gets an integrated overview and in-depth knowledge of the subject.- Focuses on background and application so that the state of the art is clearly useable by the researcher, student, and practicing engineer- Shows breadth and depth in key areas of structures- Discusses civil infrastructure over a range of systems
Table of Contents
Part I: Condition Monitoring – An Introduction1. Condition Health Monitoring – a Means to Optimal Design and Use2. Considerations for SHM and CM – an Overview3. Safety During Construction of Infrastructure4. CM – applications and data analysisPart II: Application to Bridge Structures and Systems5. SHM of Historic Bridges6. SHM for Wind Induced Vibration of Bridges7. SHM and Load Testing of Bridges8. Non-contact SHM of bridge system9. Prognostic CM of Bridge Systems Part III: Application to Buildings and Industrial Facilities10. Advanced SHM Technologies for noncontact sensing11. SHM of Historic Buildings12. SHM for Buildings – State of the ArtPart IV: Application to Dams and Hydraulic Structures13. SHM of Dams through UAV Photogrammetry14. UAV based SHM of Dams and Hydraulic Structures15. SHM based early detection of erosion in dams16. SHM for geotechnical monitoringPart V: Applications to Pipelines 17. Robotic monitoring of pipeline systems18. Distributed Fiber Optic Sensing Fabric for Pipeline SHM19. TBD20. TBDPart VI: Application to Power Generation and Transmission Systems21. SHM for Wind Turbines22. Use of Statistical Pattern Recognition for SHM/CM of Wind Turbines23. SHM of Utility Poles24. CM of Transmission InfrastructurePart VII: Application to Offshore and Marine Structures and Navigational Waterways25. SHM of Offshore Platforms26. Offshore platform monitoring Experiments and field implementation27. Machine Learning Methods for inland waterways navigation corridor28. SHM of Navigational InfrastructurePart VIII: Future Outlooks29. Visualization of SHM Using IoT and BIM30. CM as a Design Imperative31. The future of SHM and CM with digital twins
