This book explains to governments, decision makers and disaster professionals the potential uses of recent technologies for disaster monitoring and risk reduction based on the knowledge and experience of prominent experts/researchers in the relevant fields. It discusses the application of recent technological developments for emerging disaster risks in today's societies and deliberates on the various aspects of disaster risk reduction strategies, especially through sustainable community resilience and responses. This book consists of selected invited papers on disaster management, which focus on community resilience and responses towards disaster risk reduction based on experiences, and closely examines the coordinated research activities involving all stakeholders, especially the communities at risk. Many regions of the world and aspects of disaster risk and its management are covered. It is described how recent technologies will support better understanding and action to reduce the number and impact of disasters in future. The principal audience for this book is researchers, urban planners, policy makers, as well as students.
Science and Technology in Disaster Risk Reduction in Asia: Potentials and Challenges provides both a local and global perspective on how to implement the Sendai Framework for Disaster Risk Reduction. Topics demonstrate the advancement of scientific research as it applies to early warning systems, including identifying risk and the strengthening of infrastructure for different types of hazards. Through different major disasters, it has become evident that there must be a balance between hard and soft technology and physical, process and social solutions. This book demonstrates how this has been successfully implemented in Asia, and how these applications can apply on a global basis. - Covers new research on the role of science in Disaster Risk Reduction and lessons learned when research has been applied - Utilizes case studies to outline the broader lessons learned - Focuses on the Sendai Framework, which was adopted in the Third UN World Conference in 2015
Disaster Technology: An Annotated Bibliography presents an annotated bibliography of disaster technology. The references are arranged in the following sections: relief organization, medical aspects (planning, general, nutrition), sociological aspects, and physical aspects (general, earthquakes). The abstracts are arranged alphabetically by author's name in each section. Some of the controversial issues and the areas related to disaster technology are reviewed. This volume consists of seven chapters, the first of which introduces the reader to general aspects of relief work especially international disaster aid. Logistic, administrative, political, and economic factors are highlighted. The next three chapters deal with medical aspects of relief work and cover hospital disaster planning and surgical triage, medical problems arising from disasters, and nutritional problems of relevance to development as well as to disasters. Attention then turns to sociological studies of disasters that have been carried out in industrialized societies in general and America in particular. Some work on psychological and psychiatric factors is considered. The chapters on physical aspects of disaster relief includes literature on public health engineering, design for disaster (including emergency shelter), and prevention and warning techniques. Earthquakes are considered separately in the final chapter. This book is written to supply relief agencies with information on the published and unpublished literature available concerning technical aspects of disaster relief and prevention with special emphasis on developing countries. It is also intended to provide those involved in relevant research with information on disaster topics from other disciplines.
A provocative and authoritative guide to understanding the questions surrounding technology disasters that occur, with a blueprint for the prevention of future disasters, this book looks at over three dozen case studies and the lessons learned from them.
Technological advances have helped to enhance disaster resilience through better risk reduction, response, mitigation, rehabilitation and reconstruction. In former times, it was local and traditional knowledge that was mainly relied upon for disaster risk reduction. Much of this local knowledge is still valid in today’s world, even though possibly in different forms and contexts, and local knowledge remains a shared part of life within the communities. In contrast, with the advent of science and technology, scientists and engineers have become owners of advanced technologies, which have contributed significantly to reducing disaster risks across the globe. This book analyses emerging technologies and their effects in enhancing disaster resilience. It also evaluates the gaps, challenges, capacities required and the way forward for future disaster management. A wide variety of technologies are addressed, focusing specifically on new technologies such as cyber physical systems, geotechnology, drone, and virtual reality (VR)/ augmented reality (AR). Other sets of emerging advanced technologies including an early warning system and a decision support system are also reported on. Moreover, the book provides a variety of discussions regarding information management, communication, and community resilience at the time of a disaster. This book’s coverage of different aspects of new technologies makes it a valuable resource for students, researchers, academics, policymakers, and development practitioners.
One of the fundamental goals of earth system science research is to adopt a more holistic view of the earth as a ‘system’ comprising different domains. The Society of Earth Scientists has brought out this multidisciplinary publication to emphasize the need of an integrated approach to understand the Earth system. It focuses on natural disasters and, in particular, on climate change and its effects in Asia and understanding the significance of these developments within the context of the paleo-climatic record. The later sections of the book then focus on other types of natural disasters as well as those induced by human interaction with our environment.
"This book address the difficulties, challenges and solution in Smart Technologies for Emergency Response & Disaster Management. The chapters address different aspects of Smart Technologies for Emergency Response & Disaster Management, ranging from network technology for emergency response and disaster management, big data for emergency response and disaster management to robotics emergency response and disaster management"--
Using Social and Information Technologies for Disaster and Crisis Management highlights examples of disaster situations in recent years in which social and information technologies were useful in distributing and receiving information updates. This comprehensive collection brings together research for practitioners and researchers interested in the uses of information technology in crisis management.
This title includes a number of Open Access chapters. In today’s world, there are new opportunities for disaster communications through modern technology and social media. Social network applications such as Facebook, Twitter, and Instagram can connect friends, family, first responders, and those providing relief and assistance. However, social media and other modern communication tools have their limitations. They can be affected by disaster situations where there are power outages or interrupted cellular service. The research contained in this valuable compendium offers much-needed information for emergency responders, utility companies, relief organizations, and governments as they invest in infrastructure to support post-disaster communications. In order to make use of modern communication methods, as well as fully utilize more traditional communication networks, it is imperative that we understand how people actually communicate in the wake of a disaster situation and how various communication strategies can best be utilized. Communication during and immediately after a disaster situation is a vital component of response and recovery. Effective communication connects first responders, support systems, and family members with the communities and individuals immersed in the disaster. Reliable communication also plays a key role in a community’s resilience. With research from internationally recognized experts, this volume provides an overview of communication challenges and best-practice analyses, looks at the internet and social media and mobile phones and other technology for disaster communication, and explores the challenges to effective communication. Presents a quality improvement project that gathered expert consensus on best practices used to improve disaster communication Analyzes the information dissemination mechanisms of different media to establish an efficient information dissemination plan for disaster pre-warning, including short message service (SMS), microblogs, news portals, cell phones, television, and oral communication Gauges the effectiveness of disaster risk communication Looks at the future of social media use during emergencies and afterwards Proposes a disaster resilient network that integrates various wireless networks into a cognitive wireless network in the event of disaster occurrences Effective Communication During Disasters: Making Use of Technology, Media, and Human Resources is an informative, multi-faceted resource on preparedness planning for effective communication before, during, and after a disaster occurs.
Great loss of human life, structural damage, and social and economic upheaval occur repeatedly due to such natural hazards as earthquakes, typhoons, hurricanes, landslides, floods and tsunamis. Both the US and Taiwan, along with many other countries, have a history of such occurrences and a common need to reduce their effects.This volume includes papers from the fourth symposium workshop, held jointly between the US and Taiwan to discuss research and its application to multiple hazard mitigation. The workshop, Urban Disaster Mitigation, The Role of Engineering and Technology, discussed lessons learned from recent natural disasters; assessed results of Taiwan's multiple hazards research program and potential application to the US; and proposed further studies on subjects of mutual concern.Topics include recent scientific findings obtained in various natural hazard areas and assessment of actual and potential damage from earthquakes, floods and landslides. Of particular importance are measures that can be taken to mitigate these hazards ranging from use of new algorithms for structural engineering to warning systems for a given region. At a time when natural disasters are widespread, engineers play a key role. Construction methods and building codes are changing; current knowledge shapes the direction of these changes. The research results presented in these proceedings will benefit both the academic and practicing communities around the world, strengthening the relationship between these two important parties.
