Civil Structures and Infrastructure Systems: From Reliability to Resilience
From Reliability to Resilience
Published on 18. August 2025
Book
Paperback/Softback
260 pages
978-0-443-30221-3 (ISBN)
Description
Civil Structures and Infrastructure Systems: From Reliability to Resilience examines the reliability and resilience of individual structures, outlining their similarity/difference through a unified framework. Subsequently, the reliability and resilience of infrastructure systems consisting of interacting multiple components are considered, with an emphasis on the wide applicability of reliability and resilience theories in engineering practice.
More details
Series
Language
English
Place of publication
United States
Publishing group
Elsevier - Health Sciences Division
Target group
Professional and scholarly
Dimensions
Height: 229 mm
Width: 152 mm
Weight
1000 gr
ISBN-13
978-0-443-30221-3 (9780443302213)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
E-Book
08/2025
Elsevier
€178.99
Available for download
Person
Cao Wang is a Lecturer and ARC DECRA Fellow at the School of Civil and Environmen-tal Engineering, University of Technology Sydney, Australia. Dr. Wang obtained his PhD degree from The University of Sydney, Australia, in 2019. His research interests include the risk, reliability, and resilience of civil structures and infrastructure systems. Dr. Wang is an Associate Editor of three international journals, ASCE-ASME Journal of Risk and Uncer-tainty in Engineering Systems, Part A: Civil Engineering; Part B: Mechanical Engineering, and Engineering Reports, and an Editorial Board member of several other journals. Dr. Wang is the author of a Springer book titled Structural Reliability and Time-Dependent Reliability, which addresses the mathematical formulation of analytical tools for structural reliabil-ity assessment. He is a member of the Committee on Probability and Statistics in the Physical Sciences (C(PS)2), Bernoulli Society for Mathematical Statistics and Probability (2021-2025).
Content
1. Introduction
2. Measuring reliability and resilience associated with a single disruptive event
3. Time-dependent reliability and resilience considering a discrete load process
4. Time-dependent reliability and resilience considering a continuous load process
5. Aging effects on reliability and resilience
6. From generalized capacity to resilience capacity
7. Time-dependent reliability and resilience in the presence of multiple hazards
8. Time-dependent reliability and resilience of aging series systems
9. Time-dependent reliability and resilience of aging k-out-of-n systems
10. Time-dependent reliability and resilience of aging general systems
11. Non-probabilistic reliability and resilience APPENDIX. Background information on probability models
2. Measuring reliability and resilience associated with a single disruptive event
3. Time-dependent reliability and resilience considering a discrete load process
4. Time-dependent reliability and resilience considering a continuous load process
5. Aging effects on reliability and resilience
6. From generalized capacity to resilience capacity
7. Time-dependent reliability and resilience in the presence of multiple hazards
8. Time-dependent reliability and resilience of aging series systems
9. Time-dependent reliability and resilience of aging k-out-of-n systems
10. Time-dependent reliability and resilience of aging general systems
11. Non-probabilistic reliability and resilience APPENDIX. Background information on probability models