The research this book is grounded on started with the ambitious intent to understand why FEWSs may fail. However, from the beginning, the objective turned out to be challenging; first, because, so far, there is not a shared opinion on what an EWS is (among both communities of researchers and practitioners); second, as a consequence, because it is equally not clear when an EWS can be considered successful or not. The direct effect of this unclear context was that the research needed primary to face some open questions instead of going straight to the point under investigation. Specifically, the identification of what the subject of the analysis is, of which its components and functions are and of which its peculiarities (weak points) are, was primary required. Then, a first attempt to evaluate EWSs performance was possible. This book is organised according to the conceptual steps required by the research. In Chapter 1 preliminary open questions about the definition and the role of FEWSs are handled (the aim being the identification of how to evaluate EWSs effectiveness/performance).Chapters 2 to 4 focus on the real aim of the research, providing concepts and practical tools to assess FEWSs performance. Each chapter ends with a common case study describing how above evaluations can be carried out in practice. The focus of this book is flood risk, specifically, in mountain regions. However, most of results can be exported to other hazards as well.
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Product Details
Weight: 558g
Dimensions: 156 x 234mm
Publication Date: 28 May 2013
Publisher: WIT Press
Publication City/Country: United Kingdom
Language: English
ISBN13: 9781845646882
About D. MolinariF. BallioS. Menoni
Presently post-doc researcher at the Politecnico of Milan Department of Civil and Environmental Engineering her field of expertise is flood risk assessment and management with particular stress on flood damage estimation and its implication for mitigation strategies. She has been involved in several EU funded research in the field of natural hazards for example the FP 6 Scenario (Support on Common European Strategy for sustainable natural and induced technological hazards mitigation CN 036979) and the FP 7 Ensure (Enhancing resilience of communities and territories facing natural and na-tech hazards Contr. N. 212045) projects and cooperates with several Italian authorities responsible for flood risk mitigation (e.g. the Po River Basin District) and management (e.g. local Civil Protection). She also teaches as assistant professor at the course Emergency Plans for Hydrogeological Risk at the international program offered by the Politecnico Civil Engineering for Risk Mitigation Presently associate professor at the Politecnico of Milan Department of Architecture and Urban Studies teaching various courses on Risk and Crisis Management Emergency Planning at the international program offered by the Politecnico Civil Engineering for Risk Mitigation. She also teaches at the CERG-C Specialisation certificate for the assessment and management of geological and climate related risk at the Geneva University Switzerland. Field of specialization is technological and natural risks prevention looking particularly at non-structural measures. Among the latter a specific stress is given to land use planning and urban development control. She has been involved and has coordinated EU funded research in the field of natural hazards; see for example the FP 6 Scenario (Support on Common European Strategy for sustainable natural and induced technological hazards mitigation CN 036979) and the FP 7 Ensure (Enhancing resilience of communities and territories facing natural and na-tech hazards Contr. N. 212045) projects. Presently professor at the Politecnico of Milan Department of Civil and Environmental Engineering he has been head of the M.Sc. Civil Engineering for Risk Mitigation where he teaches hydraulic risk. His research activities cover a wide range of topics in river hydraulics with special focus on mountain basins: sediment mechanics morphological effects of floods scour processes and vulnerability of river structures environmental monitoring systems flood risk management. He is associate editor of the Journal of Hydraulic Engineering (ASCE).