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Imaging Disaster is a rich social history of Japan’s Great Kanto Earthquake of 1923. Drawing on a kaleidoscopic range of images from the fine arts, magazines, cartoons, and other popular sources, Gennifer Weisenfeld has produced an original study of this catastrophic event from an art historical perspective. —Jonathan Reynolds, Barnard College Imaging Disaster is an exhaustive and illuminating study of the visual culture generated by Japan’s most devastating natural disaster. Comprehensive in scope—covering photography, cinema, painting, postcards, sketches, urban planning, and even scientific models—Weisenfeld makes a compelling point that the massive profusion of visual representations that followed the quake must itself be considered an integral part of this tragic historical event.—Seiji Lippit, UCLA
Focusing on one landmark catastrophic event in the history of an emerging modern nation—the Great Kanto Earthquake that devastated Tokyo and surrounding areas in 1923—this fascinating volume examines the history of the visual production of the disaster. The Kanto earthquake triggered cultural responses that ran the gamut from voyeuristic and macabre thrill to the romantic sublime, media spectacle to sacred space, mournful commemoration to emancipatory euphoria, and national solidarity to racist vigilantism and sociopolitical critique. Looking at photography, cinema, painting, postcards, sketching, urban planning, and even scientific visualizations, Weisenfeld demonstrates how visual culture has powerfully mediated the evolving historical understanding of this major national disaster, ultimately enfolding mourning and memory into modernization.
Minutes before midnight on the evening of March 12, 1928, the St. Francis Dam collapsed. The dam's 200-foot concrete wall crumpled, sending billions of gallons of raging flood waters down San Francisquito Canyon, sweeping 54 miles down the Santa Clara River to the sea, and claiming over 450 lives in the disaster. Captured here in over 200 images is a photographic record of the devastation caused by the flood, and the heroic efforts of residents and rescue workers. Built by the City of Los Angeles' Bureau of Water Works and Supply, the failure of the St. Francis Dam on its first filling was the greatest American civil engineering failure of the 20th century. Beginning at dawn on the morning after the disaster, stunned local residents picked up their cameras to record the path of destruction, and professional photographers moved in to take images of the washed-out bridges, destroyed homes and buildings, Red Cross workers giving aid, and the massive clean-up that followed. The event was one of the worst disasters in California's history, second only to the San Francisco Earthquake and Fire.
This book constitutes the refereed proceedings of the 7th Computational Color Imaging Workshop, CCIW 2019, held in Chiba, Japan, in March 2019. The 22 full papers presented in this volume were carefully reviewed and selected from 34 submissions. The papers are organized in topical sections named: computational color imaging; multispectral imaging; perceptual model and application; color image evaluation; colot image filtering; color image applications; and color imaging for material appearance. In addition, the book contains 3 invited talks in full paper length.
#1 NEW YORK TIMES BEST SELLER • In this urgent, authoritative book, Bill Gates sets out a wide-ranging, practical—and accessible—plan for how the world can get to zero greenhouse gas emissions in time to avoid a climate catastrophe. Bill Gates has spent a decade investigating the causes and effects of climate change. With the help of experts in the fields of physics, chemistry, biology, engineering, political science, and finance, he has focused on what must be done in order to stop the planet's slide to certain environmental disaster. In this book, he not only explains why we need to work toward net-zero emissions of greenhouse gases, but also details what we need to do to achieve this profoundly important goal. He gives us a clear-eyed description of the challenges we face. Drawing on his understanding of innovation and what it takes to get new ideas into the market, he describes the areas in which technology is already helping to reduce emissions, where and how the current technology can be made to function more effectively, where breakthrough technologies are needed, and who is working on these essential innovations. Finally, he lays out a concrete, practical plan for achieving the goal of zero emissions—suggesting not only policies that governments should adopt, but what we as individuals can do to keep our government, our employers, and ourselves accountable in this crucial enterprise. As Bill Gates makes clear, achieving zero emissions will not be simple or easy to do, but if we follow the plan he sets out here, it is a goal firmly within our reach.
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This new guide describes the application of spatial technology to improve disaster risk management (DRM) within the aquaculture sector. DRM requires interrelated actions and activities to ensure early warning, prevention, preparedness, response and recovery for a wide range of natural, technological and complex disasters that can impact aquaculture operations and livelihoods. Spatial technology refers to systems and tools that acquire, manage and analyse data that have geographic context. Some of the technologies include satellite remote sensing, aerial surveys, global positioning systems, geographic information systems, information and communication technology and other data gathering sensors used, for instance, in meteorology. Spatial technology supports activities across all phases of the DRM cycle and its rapid development provides enhanced opportunities to support DRM within the aquaculture sector. This guide is organized in two parts. Part one is the “guidance”; it is the main body of the document and describes the processes and steps for the use of spatial technology within DRM for aquaculture. Part two includes selected country case studies from Bangladesh, the Gulf of Mexico and the Caribbean, and Indonesia to illustrate the application of spatial technology in DRM for aquaculture at the national level within local contexts. Best practices at the farm and area management levels, supported by spatial technology, reduce volatility and risks and thus facilitate investment. Countries that would like aquaculture to grow sustainably and reliably are encouraged to use this guide in order to support spatial planning approaches and protect responsible investors. A separate summary version accompanies this publication.
The Encyclopedia of Image Processing presents a vast collection of well-written articles covering image processing fundamentals (e.g. color theory, fuzzy sets, cryptography) and applications (e.g. geographic information systems, traffic analysis, forgery detection). Image processing advances have enabled many applications in healthcare, avionics, robotics, natural resource discovery, and defense, which makes this text a key asset for both academic and industrial libraries and applied scientists and engineers working in any field that utilizes image processing. Written by experts from both academia and industry, it is structured using the ACM Computing Classification System (CCS) first published in 1988, but most recently updated in 2012.
The benchmark first edition of Forensic Radiology, published in 1998, was a milestone in the forensic community — a bestseller throughout the world and a standard reference for practitioners and educators alike. Like its predecessor, Brogdon’s Forensic Radiology, Second Edition covers the entire scope of radiological applications in the forensic sciences, profiling current and anticipated uses of new modalities and techniques. Features: Provides an introduction to forensic radiology, including historical perspectives and definitions used in the fieldOffers instruction on trial preparation and effective courtroom testimony. Demonstrates the use of forensic radiology in identification of the dead. Explores the use of radiology to help in gunshot and abuse cases and in nonviolent crimesContains an entirely new section on virtual imaging and virtops. Examines technological and safety issues. For radiologists, forensic scientists, forensic dentists, medical examiners, investigators, and attorneys. Over the past twelve years, the fields of forensic science and radiology have developed considerably, necessitating a revision of this critical work. New Topics in this Edition include:The radiologist as an expert witness, Modern cross-sectional imaging in anthropology, New approaches to radiology in mass casualty situations, The use of virtual imaging and virtopsy — new modalities developed and advanced since the publication of the last edition, orensic and clinical usage of x-rays in body packing for drug smuggling, and Imaging in the medic.
While not all natural disasters can be avoided, their impact on a population can be mitigated through effective planning and preparedness. These are the lessons to be learned from Japan's own megadisaster: the Great East Japan Earthquake of 2011, the fi rst disaster ever recorded that included an earthquake, a tsunami, a nuclear power plant accident, a power supply failure, and a large-scale disruption of supply chains. It is a sad fact that poor communities are often hardest hit and take the longest to recover from disaster. Disaster risk management (DRM) should therefore be taken into account as a major development challenge, and countries must shift from a tradition of response to a culture of prevention and resilience. Learning from Megadisasters: Lessons from the Great East Japan Earthquake consolidates a set of 36 Knowledge Notes, research results of a joint study undertaken by the Government of Japan and the World Bank. These notes highlight key lessons learned in seven DRM thematic clusters—structural measures; nonstructural measures; emergency response; reconstruction planning; hazard and risk information and decision making; the economics of disaster risk, risk management, and risk fi nancing; and recovery and relocation. Aimed at sharing Japanese cutting-edge knowledge with practitioners and decision makers, this book provides valuable guidance to other disaster-prone countries for mainstreaming DRM in their development policies and weathering their own natural disasters.