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This book, for the first time, introduces comprehensively all main topics of lifeline earthquake engineering, including the structure analysis, network evaluation, and network design. The distinctive features involved in this book are the construction of theories and methods for stochastic analysis of structures based the physical idea, probability analytical algorithms for network evaluation by employing Boolean Algebra, functional evaluation of water distribution networks using hydraulic analysis, and network design methods by employing genetic, simulated annealing, and hybrid algorithms.
Fragility functions constitute an emerging tool for the probabilistic seismic risk assessment of buildings, infrastructures and lifeline systems. The work presented in this book is a partial product of a European Union funded research project SYNER-G (FP7 Theme 6: Environment) where existing knowledge has been reviewed in order to extract the most appropriate fragility functions for the vulnerability analysis and loss estimation of the majority of structures and civil works exposed to earthquake hazard. Results of other relevant European projects and international initiatives are also incorporated in the book. In several cases new fragility and vulnerability functions have been developed in order to better represent the specific characteristics of European elements at risk. Several European and non-European institutes and Universities collaborated efficiently to capitalize upon existing knowledge. State-of-the-art methods are described, existing fragility curves are reviewed and, where necessary, new ones are proposed for buildings, lifelines, transportation infrastructures as well as for utilities and critical facilities. Taxonomy and typology definitions are synthesized and the treatment of related uncertainties is discussed. A fragility function manager tool and fragility functions in electronic form are provided on extras.springer.com. Audience The book aims to be a standard reference on the fragility functions to be used for the seismic vulnerability and probabilistic risk assessment of the most important elements at risk. It is of particular interest to earthquake engineers, scientists and researchers working in the field of earthquake risk assessment, as well as the insurance industry, civil protection and emergency management agencies.
Interdisciplinary perspectives on the role of new information technologies, including mobile phones, wireless networks, and biometric identification, in the global refugee crisis. Today's global refugee crisis has mobilized humanitarian efforts to help those fleeing persecution and armed conflict at all stages of their journey. Aid organizations are increasingly employing new information technologies in their mission, taking advantage of proliferating mobile phones, remote sensors, wireless networks, and biometric identification systems. Digital Lifeline? examines the use of these technological innovations by the humanitarian community, exploring operations and systems that range from forecasting refugee flows to providing cellular and Internet connectivity to displaced persons. The contributors, from disciplines as diverse as international law and computer science, offer a variety of perspectives on forced migration, technical development, and user behavior, drawing on field work in countries including Jordan, Lebanon, Rwanda, Germany, Greece, the United States, and Canada. The chapters consider such topics as the use of information technology in refugee status determination; ethical and legal issues surrounding biometric technologies; information technology within organizational hierarchies; the use of technology by refugees; access issues in refugee camps; the scalability and sustainability of information technology innovations in humanitarian work; geographic information systems and spatial thinking; and the use of “big data” analytic techniques. Finally, the book identifies policy research directions, develops a unified research agenda, and offers practical suggestions for conducting displacement research. Contributors Elizabeth Belding, Karen E. Fisher, Daniel Iland, Lindsey N. Kingston, Carleen F. Maitland, Susan F. Martin, Galya Ben-Arieh Ruffer, Paul Schmitt, Lisa Singh, Brian Tomaszewski, Mariya Zheleva
IRP 3 discusses the enhancements that are needed in the design and construction of buildings and lifeline systems to support a community's social stability, economic vitality, and environmental sustainability.
TCLEE 41 discusses in detail the performance of lifeline infrastructure systems following a series of four significant earthquakes in Christchurch, New Zealand, during 2010 and 2011.
This committee report, Guide to Post-Earthquake Investigation of Lifelines, will help the investigator become familiar with the overall operation of major lifeline systems, with the function and operation of lifeline facilities and equipment, with past seismic performance, and with methods to gather pertinent information. The beginning chapters describe how to prepare for a post-earthquake investigation and provide a summary of phenomena related to earthquakes and their effect on lifelines. Chapters 6 - 11 explain typical system configurations and overall operation of the following lifelines: power, water, sewage, transportation, communications, liquid fuel and natural gas systems. System facilities and equipment are described for each lifeline, including their role in overall system operation and their seismic performance. Detailed guidance is provided for their investigation. Chapter 12 discusses tanks and emergency power, facilities common to many lifelines. The appendices present check lists in a form that can be used as field guides during investigations. report writing, and references to reconnaissance reports.
Infrastructure Risk Management Processes: Natural, Accidental, and Deliberate Hazards, discusses quantification of exposure and vulnerability of complex, spatially distributed systems, yielding estimates of local and system-wide potential losses, for different alternatives in multi-hazard decision situations. These situations require an integration of scientific, engineering, social, administrative, psychological, and political processes with advances, setbacks, and many uncertainties. This monograph consists of eight papers that illustrate work done to date and plans for work to be done on managing these risks for potable water, electric power, transportation and other infrastructure systems threatened by earthquakes, tsunamis, landslides, severe storms, saboteurs, and various other hazards. This monograph, produced by the Risk and Vulnerability Committee of the Council on Disaster Risk Management (CDRM), is a sequel to a previous monograph, Acceptable Risk Processes: Lifelines and Natural Hazards (2002), published by ASCE. Topics covered include: Hazard Issues; Systems Evaluation Issues; Risk Criteria Issues; and Systems Management Issues.
This book collects 4 keynote and 15 theme lectures presented at the 2nd European Conference on Earthquake Engineering and Seismology (2ECEES), held in Istanbul, Turkey, from August 24 to 29, 2014. The conference was organized by the Turkish Earthquake Foundation - Earthquake Engineering Committee and Prime Ministry, Disaster and Emergency Management Presidency under the auspices of the European Association for Earthquake Engineering (EAEE) and European Seismological Commission (ESC). The book’s nineteen state-of-the-art chapters were written by the most prominent researchers in Europe and address a comprehensive collection of topics on earthquake engineering, as well as interdisciplinary subjects such as engineering seismology and seismic risk assessment and management. Further topics include engineering seismology, geotechnical earthquake engineering, seismic performance of buildings, earthquake-resistant engineering structures, new techniques and technologies, and managing risk in seismic regions. The book also presents the First Professor Inge Lehmann Distinguished Award Lecture given by Prof. Shamita Das in honor of Prof. Dr. Inge Lehmann. The aim of this work is to present the state-of-the art and latest practices in the fields of earthquake engineering and seismology, with Europe’s most respected researchers addressing recent and ongoing developments while also proposing innovative avenues for future research and development. Given its cutting-edge conten t and broad spectrum of topics, the book offers a unique reference guide for researchers in these fields. Audience: This book is of interest to civil engineers in the fields of geotechnical and structural earthquake engineering; scientists and researchers in the fields of seismology, geology and geophysics. Not only scientists, engineers and students, but also those interested in earthquake hazard assessment and mitigation will find in this book the most recent advances.
MOP 96 describes methods to improve the earthquake response of electric power systems.
A reference for engineers and facilities professionals involved in the planning, operations, management, and maintenance of all urban utilities, this handbook addresses water supply and sewerage, power, gas, telecommunications joint utility corridor (utilidor) lifeline facilities, and other critical civil infrastructure lifelines. It covers the design and construction of facilities, maintenance, disaster management, environmental protection, and disaster and emergency recovery measures. It also discusses urban planning, life cycle cost, GIS analysis of lifeline systems, computerized integrated management systems, and the use of new materials and technologies.