Atnaujinkite slapukų nuostatas

El. knyga: Risk Assessment, Modeling and Decision Support: Strategic Directions

4.00/5 (1 ratings by Goodreads)
Edited by , Edited by , Edited by
  • Formatas: PDF+DRM
  • Serija: Risk, Governance and Society 14
  • Išleidimo metai: 10-Feb-2008
  • Leidėjas: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Kalba: eng
  • ISBN-13: 9783540711582
Kitos knygos pagal šią temą:
Risk Assessment, Modeling and Decision Support: Strategic DirectionsDidesnis paveikslėlis
  • Formatas: PDF+DRM
  • Serija: Risk, Governance and Society 14
  • Išleidimo metai: 10-Feb-2008
  • Leidėjas: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Kalba: eng
  • ISBN-13: 9783540711582
Kitos knygos pagal šią temą:

DRM apribojimai

  • Kopijuoti:

    neleidžiama

  • Spausdinti:

    neleidžiama

  • El. knygos naudojimas:

    Skaitmeninių teisių valdymas (DRM)
    Leidykla pateikė šią knygą šifruota forma, o tai reiškia, kad norint ją atrakinti ir perskaityti reikia įdiegti nemokamą programinę įrangą. Norint skaityti šią el. knygą, turite susikurti Adobe ID . Daugiau informacijos  čia. El. knygą galima atsisiųsti į 6 įrenginius (vienas vartotojas su tuo pačiu Adobe ID).

    Reikalinga programinė įranga
    Norint skaityti šią el. knygą mobiliajame įrenginyje (telefone ar planšetiniame kompiuteryje), turite įdiegti šią nemokamą programėlę: PocketBook Reader (iOS / Android)

    Norint skaityti šią el. knygą asmeniniame arba „Mac“ kompiuteryje, Jums reikalinga  Adobe Digital Editions “ (tai nemokama programa, specialiai sukurta el. knygoms. Tai nėra tas pats, kas „Adobe Reader“, kurią tikriausiai jau turite savo kompiuteryje.)

    Negalite skaityti šios el. knygos naudodami „Amazon Kindle“.

1 2 Ann Bostrom , Steven P. French 1,2 Georgia Institute of Technology, Atlanta, Georgia, USA st The first years of the 21 century brought horrific loss of life and property from earthquakes and tsunamis worldwide. Briefly, the world focused on international disaster prevention, response and recovery. Terrorism loomed large as well, after 911, leading to the creation of the Department of Homeland Security in the United States, and a plethora of related efforts globally. Many of these focus on the built environment. In the U.S. and elsewhere, large-scale infrastructure is stressed; roads, bridges, sewers, and dams built in the last century are deteriorating. Rising population is taxing existing infrastructure more and more as its reliability declines. As a society, we are developing dependencies on new kinds of infrastructure; these too are fragile and may age even less gracefully than sewers and roads. Our infrastructure including human services, financial, and information is both increasingly vulnerable and increasingly critical to society. Around the world, we are extending the built environment into incre- ingly fragile natural environments, raising the potential for catastrophe from natural disasters. Social, economic and environmental disparities are also growing between groups, both within the U.S. and between developed and developing countries, putting vulnerable groups even more at risk from extreme events.
Introduction
1(4)
Roadmap to the Book
2(3)
A Brief History of Seismic Risk Assessment
5(78)
Introduction
5(1)
Terminology
6(3)
Overview of Seismic Risk Assessment
9(2)
A Brief Chronology of Selected Events in Seismic Risk Assessment
11(1)
How We Got Here
11(19)
Vulnerability
30(10)
Special Vulnerability Relations
40(4)
Asset Identification and Attributes
44(3)
Risk Analysis Methods
47(3)
Assessment
50(3)
Current Status
53(2)
Concluding Remarks
55(1)
Acknowledgments
56(27)
References
57(26)
Perspectives on the History of Seismic Risk Assessment
83(18)
Introduction
83(1)
Lessons Leaned from Current Practice and Future Needs in Regional Loss Estimation
84(5)
The Dawn of Earthquake Investigations and Cross-Continent Interactions
89(7)
Social Science Perspectives on Seismic Risk Assessment
96(1)
Seismic Risk Assessment: History and Strategic Directions
97(4)
References
99(2)
Strategic Directions in Seismic Modeling: HAZUS® Development and Current Applications for Catastrophe Planning
101(16)
Introduction
101(1)
HAZUS®MH Earthquake Model Overview
102(2)
Use of HAZUS®MH to Support Catastrophe Planning
104(6)
Use of HAZUS®MH to Link Risk Assessment, Mitigation and Disaster Response
110(3)
Utilization of a Web-Based Data Management Portal System
113(2)
Conclusions
115(2)
References
115(2)
Perspectives on Development and Current Applications for Catastrophe Planning
117(18)
Introduction
117(1)
Recommended Improvements for HAZUS®MH
118(5)
User Dynamics and HAZUS® Development
123(4)
Perspectives from a HAZUS® User
127(2)
Strategic Directions for HAZUS® and Current Applications for Catastrophe Planning
129(6)
References
132(3)
Loss Estimation Models and Metrics
135(36)
Introduction
135(1)
Loss Dimensions
136(3)
Components of the HAZUS® Loss Estimation Methodology
139(4)
Current Limitations
143(2)
Loss Calibration Studies
145(5)
General Guidelines on the Use of Loss Estimates
150(3)
Research Topics
153(18)
References
154(2)
Bibliography of Additional HAZUS® Studies
156(15)
Perspectives on Loss Estimation Models and Metrics
171(14)
Introduction
171(1)
Model Validation and Priorities in Loss Metrics
172(3)
Additional Considerations in Loss Estimation
175(4)
Social and Economic Considerations in Loss Estimation Modeling
179(2)
Strategic Directions for Loss Estimation Models and Metrics
181(4)
References
183(2)
Seismic Risk Mitigation Decisions Under Uncertainty
185(14)
Introduction
185(1)
Seismic Risk Analysis for Nuclear Power Plants
186(1)
Nuclear Power Plant Seismic Design
187(6)
Recommendations for Seismic Risk Mitigation Decisions
193(2)
Importance of Uncertainties
195(2)
Summary
197(2)
References
197(2)
Perspectives on Seismic Risk Mitigation Decisions Under Uncertainty
199(28)
Introduction
199(1)
Perspectives from a Risk Assessment Practitioner
200(8)
Seismic Risk Assessment and Mitigation: Current Issues
208(6)
On the Importance of Network Considerations in Lifeline Risk Assessment
214(8)
Strategic Directions for Seismic Risk Mitigation Decisions Under Uncertainty
222(5)
References
224(3)
Modeling Seismic Mitigation Strategies
227(20)
Introduction
228(1)
Structure of Catastrophe Models
229(1)
A Comparison of Models
230(3)
The Exceedance Probability Curve
233(2)
Choice of Seismic Mitigation Strategies
235(2)
Cost-Benefit Analysis
237(1)
A Mitigation Example Using an Insurance-Based Model
238(4)
Consideration of Decision Processes
242(1)
Improving the Modeling of Seismic Mitigation Strategies
243(4)
References
244(3)
Perspectives on Modeling Seismic Mitigation Strategies
247(14)
Introduction
247(1)
Catastrophe Modeling Paradigm Shift
248(4)
A Structural Engineering Perspective on Modeling Seismic Mitigation Strategies
252(2)
The Role of Risk Modeling in Mitigation
254(1)
Adopting Mitigation
255(1)
Strategic Directions for Modeling Seismic Mitigation Strategies
256(5)
References
259(2)
Visualizing Uncertainty in Natural Hazards
261(34)
Introduction
261(2)
From Concepts to Representations
263(6)
Uncertainty Visualization
269(13)
Task-Oriented Visual Mappings
282(3)
Hazards Visualization
285(5)
Challenges
290(1)
Acknowledgments
291(4)
References
291(4)
Perspectives on Visualizing Uncertainty in Natural Hazards
295(24)
Introduction
295(1)
Preferred Data Visualization Techniques May Not Lead to Comprehension and Use of Hazard Information
296(10)
Putting Seismic Risk and Uncertainty on the Map
306(5)
Keep Representations Simple for Effective Communication
311(2)
Strategic Directions for Visualizing Uncertainty in Natural Hazards
313(6)
References
314(5)
Conclusion
319(4)
Index 323(6)
List of Contributing Authors 329


Daugiau apie elektronines knygas Daugiau apie elektronines knygas
Pastovi nuoroda: https://www.kriso.lt/db/97835407115822e.html
Raktažodžiai: