Cited by Business Week as one of 1984's ten best books on business and economics, The Future of the Automobile is the most comprehensive assessment ever conducted of the world's largest industry.
Automotive Innovation: The Science and Engineering behind Cutting-Edge Automotive Technology provides a survey of innovative automotive technologies in the auto industry. Automobiles are rapidly changing, and this text explores these trends. IC engines, transmissions, and chassis are being improved, and there are advances in digital control, manufacturing, and materials. New vehicles demonstrate improved performance, safety and efficiency factors; electric vehicles represent a green energy alternative, while sensor technologies and computer processors redefine the nature of driving. The text explores these changes, the engineering and science behind them, and directions for the future.
The Great Race recounts the exciting story of a century-long battle among automakers for market share, profit, and technological dominance—and the thrilling race to build the car of the future. The world’s great manufacturing juggernaut—the $3 trillion automotive industry—is in the throes of a revolution. Its future will include cars Henry Ford and Karl Benz could scarcely imagine. They will drive themselves, won’t consume oil, and will come in radical shapes and sizes. But the path to that future is fraught. The top contenders are two traditional manufacturing giants, the US and Japan, and a newcomer, China. Team America has a powerful and little-known weapon in its arsenal: a small group of technology buffs and regulators from California. The story of why and how these men and women could shape the future—how you move, how you work, how you live on Earth—is an unexpected tale filled with unforgettable characters: a scorned chemistry professor, a South African visionary who went for broke, an ambitious Chinese ex-pat, a quixotic Japanese nuclear engineer, and a string of billion-dollar wagers by governments and corporations. “To explain the scramble for the next-generation auto—and the roles played in that race by governments, auto makers, venture capitalists, environmentalists, and private inventors—comes Levi Tillemann’s The Great Race…Mr. Tillemann seems ideally cast to guide us through the big ideas percolating in the world’s far-flung workshops and labs” (The Wall Street Journal). His account is incisive and riveting, explaining how America bounced back in this global contest and what it will take to command the industrial future.
This book sheds light on three essential questions: 1. What is the likely supply of gasoline and diesel from oil worldwide to power light vehicles and trucks through 2030-2035? 2. Could any other fuel economically replace gasoline? Will different parts of the world answer that question differently? 3. How will the answers to these questions affect what we engineer, make, and drive in 2030–2035? As difficult as it is to predict timing of these events, the book presents reasonable assumptions and alternative scenarios. Since a switch to alternative technologies will require substantial investment, it is critical to have a sense of when. Despite the global reach of the automotive industry, it is unlikely that a solution for one region will fit all. A more reasonable goal is a set of projected ‘ecosystems’ using differing amounts of oil, electricity, or alternative fuels. From this, automotive managers and leaders can get a sense of how to make business decisions for the future. To frame comparisons, the author qualitatively assesses each alternative against these criteria: 1. energy density 2. scale 3. efficiency of use 4. consumer convenience 5. vehicle technical maturity 6. delivery infrastructure maturity 7. production infrastructure maturity 8. rate of progress Some alternative fuels will naturally be higher in some categories than others. For example, gasoline has higher energy density but when burned in internal combustion engines, has low efficiency. Batteries, on the other hand, have low energy density but are efficient for powering electric motors. For mapping out a long-term future and deciding how best to invest resources, a comparison of these critical criteria should help. The book is concisely written for executives, decision-makers, academics, automotive engineers and others who want or need a long-range view of trends that will influence vehicle fuels for the next 20 years.
From an engineer and futurist, an impassioned account of technological stagnation since the 1970s and an imaginative blueprint for a richer, more abundant future The science fiction of the 1960s promised us a future remade by technological innovation: we’d vacation in geodesic domes on Mars, have meaningful conversations with computers, and drop our children off at school in flying cars. Fast-forward 60 years, and we’re still stuck in traffic in gas-guzzling sedans and boarding the same types of planes we flew in over half a century ago. What happened to the future we were promised? In Where Is My Flying Car?, J. Storrs Hall sets out to answer this deceptively simple question. What starts as an examination of the technical limitations of building flying cars evolves into an investigation of the scientific, technological, and social roots of the economic stagnation that started in the 1970s. From the failure to adopt nuclear energy and the suppression of cold fusion technology to the rise of a counterculture hostile to progress, Hall recounts how our collective ambitions for the future were derailed, with devastating consequences for global wealth creation and distribution. Hall then outlines a framework for a future powered by exponential progress—one in which we build as much in the world of atoms as we do in the world of bits, one rich in abundance and wonder. Drawing on years of original research and personal engineering experience, Where Is My Flying Car?, originally published in 2018, is an urgent, timely analysis of technological progress over the last 50 years and a bold vision for a better future.
Modern Automotive Technology details the construction, operation, diagnosis, service, and repair of late-model automobiles and light trucks. This comprehensive text uses a building block approach that starts with the fundamental principles of system operation and progresses gradually to complex diagnostic and service procedures. Short sentences, concise definitions, and thousands of color illustrations help students learn quickly and easily The 1998 edition has been extensively revised and provides thorough coverage of the latest developments in the automotive field, including OBD II diagnostics, IM 240 testing, misfire monitoring, air bag systems, anti-lock brakes, and security systems. Organized around the eight ASE automobile test areas, this text is a valuable resource for students preparing for a career in automotive technology, as well as experienced technicians preparing for the ASE Certification/Recertification Tests.
How the radical disruption of the auto industry affects you—and how you can prepare for the soon-to-be “new normal” The combined effect of autonomous driving, electric vehicles, and the sharing economy is on the verge of changing the auto industry—all within the next decade. And this tech/economics revolution will touch virtually every industry. What exactly will change? Jobs: Demand for commercial vehicle drivers, car dealers, mechanics, doctors, and many other professions will shrink Laws: Manually driving cars will be forbidden—and car ownership will be almost nonexistent Housing: Prices will drop and cities and towns will be planned differently Healthcare: Infrastructure will shrink as traffic accidents dramatically decline Global trade: China will become the world’s biggest automotive exporter The Last Driver's License Holder Has Already Been Born provides the information and insight you need to position your company for these groundbreaking changes. It reveals the disruptive technologies now taking shape and provides a timeline of when they will take hold. It examines the impact on the industry itself, as well as adjacent sectors, including jobs and professions, city and street design, hospitals, insurances, politics, security, hospitality industry, the oil industry, real estate, and society at large. And it provides the knowledge and insight you need to keep yourself and your organization ahead of the curve—and in front of the competition.
The second edition of Automobile Mechanical and Electrical Systems concentrates on core technologies to provide the essential information required to understand how different vehicle systems work. It gives a complete overview of the components and workings of a vehicle from the engine through to the chassis and electronics. It also explains the necessary tools and equipment needed in effective car maintenance and repair, and relevant safety procedures are included throughout. Designed to make learning easier, this book contains: Photographs, flow charts and quick reference tables Detailed diagrams and clear descriptions that simplify the more complicated topics and aid revision Useful features throughout, including definitions, key facts and ‘safety first’ considerations. In full colour and with support materials from the author’s website (www.automotive-technology.org), this is the guide no student enrolled on an automotive maintenance and repair course should be without.
Considerable work has gone into electric car and battery development in the last ten years, with the prospect of substantial improvements in range and performance in battery cars as well as in hybrids and those using fuel cells. This book covers the development of electric cars, from their early days, to new hybrid models in production. Most of the coverage is focused on the very latest technological issues faced by automotive engineers working on electric cars, as well as the key business factors vital for the successful transfer of electric cars into the mass market.
This book presents the state of the art, challenges and future trends in automotive software engineering. The amount of automotive software has grown from just a few lines of code in the 1970s to millions of lines in today’s cars. And this trend seems destined to continue in the years to come, considering all the innovations in electric/hybrid, autonomous, and connected cars. Yet there are also concerns related to onboard software, such as security, robustness, and trust. This book covers all essential aspects of the field. After a general introduction to the topic, it addresses automotive software development, automotive software reuse, E/E architectures and safety, C-ITS and security, and future trends. The specific topics discussed include requirements engineering for embedded software systems, tools and methods used in the automotive industry, software product lines, architectural frameworks, various related ISO standards, functional safety and safety cases, cooperative intelligent transportation systems, autonomous vehicles, and security and privacy issues. The intended audience includes researchers from academia who want to learn what the fundamental challenges are and how they are being tackled in the industry, and practitioners looking for cutting-edge academic findings. Although the book is not written as lecture notes, it can also be used in advanced master’s-level courses on software and system engineering. The book also includes a number of case studies that can be used for student projects.