This is the story of how private foreign enterprise in the form of Swedish Lloyd and Swedish America Line, who formed a British company called 'Hoverlloyd', galvanised the British Government in to supporting this new concept in transport through the formation of a British Rail subsidiary called 'Seaspeed'. It is a story, told by those who were there, of how young adventurous men and women, most of whom were in their twenties and early thirties, took on the exciting challenge of getting an operation, in which they all believed had a great future, off the ground. It tells of the difficulties and near disasters, through lack of experience, that nearly wrote off the industry in the early days; the clashes of cultures between the free enterprise and Government operations; and why, after so much early promise, the great adventure with the giant car and passenger carrying hovercraft came to an end. The story begins with the history of Saunders Roe and their involvement as a result of the discovery by Christopher Cockerell in 1953 that big weights could be supported on a cushion of low pressure air and that the concept could be practically applied. Much has already been written about Christopher Cockerell, later Sir Christopher, and the development of the hovercraft by Saunders Roe, as well as the hovercraft industry to the present day. Those relevant parts showing the frustrations and disappointments they too suffered are repeated in this book, together with new material that has come to light, to provide a comprehensive narrative of the hovercraft industry and the giant SR.N4 cross-Channel operations.

This is the story of how private foreign enterprise in the form of Swedish Lloyd and Swedish America Line, who formed a British company called 'Hoverlloyd', galvanised the British Government in to supporting this new concept in transport through the formation of a British Rail subsidiary called 'Seaspeed'. It is a story, told by those who were there, of how young adventurous men and women, most of whom were in their twenties and early thirties, took on the exciting challenge of getting an operation, in which they all believed had a great future, off the ground. It tells of the difficulties and near disasters, through lack of experience, that nearly wrote off the industry in the early days; the clashes of cultures between the free enterprise and Government operations; and why, after so much early promise, the great adventure with the giant car and passenger carrying hovercraft came to an end. The story begins with the history of Saunders Roe and their involvement as a result of the discovery by Christopher Cockerell in 1953 that big weights could be supported on a cushion of low pressure air and that the concept could be practically applied. Much has already been written about Christopher Cockerell, later Sir Christopher, and the development of the hovercraft by Saunders Roe, as well as the hovercraft industry to the present day. Those relevant parts showing the frustrations and disappointments they too suffered are repeated in this book, together with new material that has come to light, to provide a comprehensive narrative of the hovercraft industry and the giant SR.N4 cross-Channel operations.

Accident reconstruction utilizes principles of physics and empirical data to analyze the physical, electronic, video, audio, and testimonial evidence from a crash, to determine how and why the crash occurred, how the crash could have been avoided, or to determine whose description of the crash is most accurate. This process draws together aspects of mathematics, physics, engineering, materials science, human factors, and psychology, and combines analytical models with empirical test data. Different types of crashes produce different types of evidence and call for different analysis methods. Still, the basic philosophical approach of the reconstructionist is the same from crash type to crash type, as are the physical principles that are brought to bear on the analysis. This book covers a basic approach to accident reconstruction, including the underlying physical principles that are used, then details how this approach and the principles are applied when reconstructing motorcycle crashes. This second edition of Motorcycle Accident Reconstruction presents a thorough, systematic, and scientific overview of the available methods for reconstructing motorcycle crashes. This new edition contains: Additional theoretical models, examples, case studies, and test data. An updated bibliography incorporating the newest studies in the field. Expanded coverage of the braking capabilities of motorcyclists. Updated, refined, and expanded discussion of the decelerations of motorcycles sliding on the ground. A thoroughly rewritten and expanded discussion of motorcycle impacts with passenger vehicles. Updated coefficients of restitution for collisions between motorcycles and cars. A new and expanded discussion of using passenger car EDR data in motorcycle accident reconstruction. A new section covering recently published research on post-collision frozen speedometer readings on motorcycles. A new section on motorcycle interactions with potholes, roadway deterioration, and debris and expanded coverage of motorcycle falls. This second edition of Motorcycle Accident Reconstruction is a must-have title for accident reconstructionists, forensic engineers, and all interested in understanding why and how motorcycle crashes occur.

Since 2003 the International Association for the History of Traffic, Transport and Mobility (T2M) has served as a trade-free zone, fostering a new interdisciplinary vitality in the now-flourishing study of the History of Mobility. In its Yearbook, "Mobility in History," T2M surveys these developments in the form of a comprehensive state-of-the-art review of research in the field, presenting synopses of recent research, international reviews of research across many countries, thematic reviews, and retrospective assessments of classic works in the area. "Mobility in History" provides an essential and comprehensive overview of the current situation of Mobility studies.

Urban planners in developed countries are increasingly recognizing the need for closer integration of land use and transport. However, this updated second edition of How Great Cities Happen explains how crises like climate change and the lack of affordable housing demonstrate the urgent need for a broader approach in order to create and sustain great cities. Offering innovative solutions to these contemporary challenges, this second edition of How Great Cities Happen examines new and emerging directions in strategic land use transport planning and analyses how cities function as a home for future generations and other species. Taking an integrated approach, and building on the first edition, chapters explore a broad range of issues concerning strategic urban planning. These include planning for productivity growth; social inclusion and wellbeing, with a particular focus on planning cities for children and youth; housing affordability; environmental sustainability; and integrated governance and funding arrangements. New issues covered in this edition include pressing concerns like climate change and biodiversity protection. The authors adopt a meticulous yet non-technical and accessible approach, grounded in a blend of academic and real-world experience of cities. This transdisciplinary second edition will prove vital to students and scholars of urban planning, transport economics, and social and environmental policy, alongside professional planners and urban policymakers.

Road accidents caused by impaired and distracted driving as well as traffic congestion are on the rise, with the numbers increasing dramatically every day. Intelligent transportation systems (ITS) aim to improve the efficiency and safety of traveling by consolidating vehicle operations, managing vehicle traffic, and notifying drivers with alerts and safety messages in real time. Vehicular Cloud Computing for Traffic Management and Systems provides innovative research on the rapidly advancing applications of vehicle-to-vehicle and vehicle-to-infrastructure communication. It also covers the need to fully utilize vehicular ad-hoc network (VANET) resources to provide updated and dynamic information about the conditions of road traffic so that the number of road accidents can be minimized. Featuring research on topics such as identity management, computational architecture, and resource management, this book is ideally designed for urban planners, researchers, policy makers, graduate-level students, transportation engineers, and technology developers seeking current research on vehicle computational design, architecture, security, and privacy.