Overview
- Innovative methodology for the systemic seismic vulnerability and risk assessment
- Innovative methodology for socioeconomic losses
- Specifications for each network and infrastructure
- Case studies in urban and regional network scale
Part of the book series: Geotechnical, Geological and Earthquake Engineering (GGEE, volume 31)
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About this book
SYNER-G, a multidisciplinary effort funded by the European Union, allowed the development of an innovative methodological framework for the assessment of physical as well as socio-economic seismic vulnerability and risk at urban and regional level. The results of SYNER-G are presented in two books both published by Springer, the present and a second one, entitled “SYNER-G: Typology Definition and Fragility Functions for Physical Elements at Seismic Risk: Buildings, Lifelines, Transportation Networks and Critical Facilities”(*), which provides a comprehensive state-of-the-art of the fragility curves, an alternative way to express physical vulnerability of elements at risk.
In this second volume of SYNER-G, the focus has been on presenting a unified holistic methodology for assessing vulnerability at systems level considering interactions between elements at risk (physical and non-physical) and between different systems. The proposed methodology and tool encompasses in an integrated fashion all aspects in the chain, from hazard to the vulnerability assessment of components and systems and to the socio-economic impacts of an earthquake, accounting for most relevant uncertainties within an efficient quantitative simulation scheme. It systematically integrates the most advanced fragility functions to assess the vulnerability of physical assets for buildings, utility systems, transportation networks and complex infrastructures such as harbours and hospitals. The increasing impact due to interactions between different components and systems is treated in a comprehensive way, providing specifications for each network and infrastructure. The proposed socio-economic model integrates social vulnerability into the physical systems modelling approaches providing to decision makers with a dynamic platform to capture post disaster emergency issues like shelter demand and health impact decisions. Application examples at city and regional scale have provided thenecessary validation of the methodology and are also included in the book.
The present volume, with its companion volume on fragility functions, represent a significant step forward in the seismic vulnerability and risk assessment of complex interacting urban and regional systems and infrastructures. These volumes are not only of interest to scientists and engineers but also to the insurance industry, decision makers and practitioners in the sector of civil protection and seismic risk management.
(*) Pitilakis K, Crowley E, Kaynia A (eds) (2014) SYNER-G: Typology definition and fragility functions for physical elements at seismic risk, Series: Geotechnical, Geological and Earthquake Engineering 27, ISBN 978-94-007-7872-6, Springer Science+Business Media, Dordrecht.
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Keywords
Table of contents (13 chapters)
Editors and Affiliations
Bibliographic Information
Book Title: SYNER-G: Systemic Seismic Vulnerability and Risk Assessment of Complex Urban, Utility, Lifeline Systems and Critical Facilities
Book Subtitle: Methodology and Applications
Editors: K. Pitilakis, P. Franchin, B. Khazai, H. Wenzel
Series Title: Geotechnical, Geological and Earthquake Engineering
DOI: https://doi.org/10.1007/978-94-017-8835-9
Publisher: Springer Dordrecht
eBook Packages: Earth and Environmental Science, Earth and Environmental Science (R0)
Copyright Information: Springer Science+Business Media Dordrecht 2014
Hardcover ISBN: 978-94-017-8834-2Published: 09 July 2014
Softcover ISBN: 978-94-024-0113-4Published: 27 September 2016
eBook ISBN: 978-94-017-8835-9Published: 19 June 2014
Series ISSN: 1573-6059
Series E-ISSN: 1872-4671
Edition Number: 1
Number of Pages: XXVI, 384
Number of Illustrations: 103 b/w illustrations, 91 illustrations in colour
Topics: Geotechnical Engineering & Applied Earth Sciences, Civil Engineering, Natural Hazards, Geophysics/Geodesy