The upcoming change of costumers' preferences and state regulations towards safety, sustainability and comfort of a car is calling the automotive industry to make the necessary innovations available in order to accelerate its pace on the way out of the economic crisis. Smart miniaturized systems and ICT based solutions are considered the key enablers of future mobility technologies like novel power train concepts including electrical traction, cooperative safety systems, advanced driver assistance systems as well as car-to-car and car-to-infrastructure communication.

The International Forum on Advanced Microsystems for Automotive Applications (AMAA) has been an exclusive showroom of R&D activities in this domain for more than a decade. In 2009 its topic is "Smart Systems for Safety, Sustainability, and Comfort." The papers published in this book were selected from more than 40 submissions. Highlights include contributions on the scope of two European projects related to the Green Car, EE-VERT aiming at the development of energy-efficient vehicles for road transport, and E3Car doing research on nanoelectronics as a key enabler of electrical vehicles. Furthermore, several authors are reporting first results of the INTERSAFE-2 project that is dealing with cooperative intersection safety. Likewise prominent topics are a detector for left-behind occupants, novel driver assistance systems and several other highly integrated components for various applications in the automobile.

Additional information is available on www.amaa.de

Electric vehicles (EVs) offer a cleaner mode of personal transportation and a new way to store energy, but also present challenges to the grid due to additional distributed storage and load. With rising numbers of EVs on the streets, problems can include voltage limits violation or line congestion, mainly at the distribution level. All those operating devices in the grid, from network operators/managers to EVs owners, need fast communication with low latency, high security and reliability. The book addresses EVs as a driving source for realizing smart grid operation. It provides chapters from multidisciplinary academic and industry communities related to EVs charging schemes and technologies, and its associated communication, networking and information architectures. This book for researchers and practitioners provides a basis for full integration of EVs into the grid through extensive use of ICT tools in: (i) transport as energy storage system (TES) modelling, simulation and optimisation processes; (ii) vehicle on-line optimal control, estimation and prediction; (iii) energy system strategic planning with renewables; and (iv) supporting services such as those related to smart grid via smart charging.

Transient Control of Gasoline Engines drives to move progress forward. A stimulating examination of car electronics and digital processing technology, this book chronicles significant advances that have occurred over the past 20 years (including the change from combustion engines to computerized machines) and presents new and exciting ways to enhance engine efficiency using real-time control technology. Dedicated to improving the emissions of automotive powertrains, it provides an introduction to modeling, control design, and test bench, and explains the fundamentals of modeling and control design for engine transient operation. It also presents a model-based transient control design methodology from the perspective of the dynamical system control theory. Written with graduate students in mind, this book: Addresses issues relevant to transient operation, cycle-to-cycle transient, and cylinder-to-cylinder balancing Examines the real-time optimizing control problem (receding horizon optimization, for torque tracking control and speed control) Covers three benchmark problems related to the modeling and control of gasoline engines: engine start control, identification of the engines, and the boundary modeling and extreme condition control Transient Control of Gasoline Engines describes the behavior of engine dynamics operated at transient mode as a dynamical system and employs the advanced control theory to design a real-time control strategy that can be used to improve efficiency and emission performance overall. Geared toward graduate students, this book also serves as a trusted source for researchers and practitioners focused on engine and engine electronics design, car electronics, and control engineering.

From Basic Fundamentals to Advanced Design Applications A culmination of the author's more than 20 years of research efforts, academic papers, and lecture notes, Combine Harvesters: Theory, Modeling, and Design outlines the key concepts of combine harvester process theory and provides you with a complete and thorough understanding of combine harvester processes. Utilizing a wealth of experimental data to promote validated mathematical models, this book presents the latest stochastic and deterministic modeling methods, evolutionary computational techniques, and practical applications. Highly focused on engineering and mathematics, it incorporates the use of simulation software (including MATLAB (R)) throughout the text and introduces a unified approach that can be used for any combine harvester functional structure. The book addresses modeling, simulation, evolutionary optimization, and combine process design. Breadth of coverage includes general technical specifications, developing machine layout as defined by engineering calculations, and design considerations for major subassembly processes. Comprised of 15 chapters, this text: Provides examples of current combine systems/elements design throughout the book Incorporates applications/exercises inspired by the author's engineering and research experience Uses both SI (metric) and imperial/U.S. measuring units throughout Combine Harvesters: Theory, Modeling, and Design contains principles, calculations, and examples that can aid you in combine process modeling and simulation, the development of combine process and driving task-based control systems by considering a top-to-bottom design of combine assembly and components.

Control systems have come to play an important role in the performance of modern vehicles with regards to meeting goals on low emissions and low fuel consumption. To achieve these goals, modeling, simulation, and analysis have become standard tools for the development of control systems in the automotive industry. Modeling and Control of Engines and Drivelines provides an up-to-date treatment of the topic from a clear perspective of systems engineering and control systems, which are at the core of vehicle design. This book has three main goals. The first is to provide a thorough understanding of component models as building blocks. It has therefore been important to provide measurements from real processes, to explain the underlying physics, to describe the modeling considerations, and to validate the resulting models experimentally. Second, the authors show how the models are used in the current design of control and diagnosis systems. These system designs are never used in isolation, so the third goal is to provide a complete setting for system integration and evaluation, including complete vehicle models together with actual requirements and driving cycle analysis. Key features: * Covers signals, systems, and control in modern vehicles * Covers the basic dynamics of internal combustion engines and drivelines * Provides a set of standard models and includes examples and case studies * Covers turbo- and super-charging, and automotive dependability and diagnosis * Accompanied by a web site hosting example models and problems and solutions Modeling and Control of Engines and Drivelines is a comprehensive reference for graduate students and the authors close collaboration with the automotive industry ensures that the knowledge and skills that practicing engineers need when analysing and developing new powertrain systems are also covered.

A cross section of the memorabilia and mementos of the past ninety five years of motorcycling is displayed and discussed in this fascinating book, everything from advertising art and photographs to dealer jewelry and motorcycle toys. Collectibles from legendary companies such as Harley Davidson and Indian abound. The changing image of motorcycling is evident on the covers of magazines pictured within, including the Harley Enthusiast and Motorcycle Illustrated. More than 610 color photographs present the wide range of motorcycling materials available to everyone who hears the call of the open road. Prices for the collectibles illustrated are included.

Various events contrived to bring about the cafe racer era, together with the advent of the rocker - and subsequently mod - cults. New motorcycles such as the BSA Gold Star singles and star twins, Norton Dominator, Royal Enfield Meteor and Constellation, Triumph Tiger 110 and Thunderbird and Velocette Venom created a new breed of enthusiast. Films such as Marlon Brando's The Wild One expressed, albeit in somewhat extreme form, the biker-as-rebel philosophy. Add to this the potency of that biggest of all pop music phenomena, rock'n'roll, and the ingredients were all in place.

Better Understand the Relationship between Powertrain System Design and Its Control Integration While powertrain system design and its control integration are traditionally divided into two different functional groups, a growing trend introduces the integration of more electronics (sensors, actuators, and controls) into the powertrain system. This has impacted the dynamics of the system, changing the traditional mechanical powertrain into a mechatronic powertrain, and creating new opportunities for improved efficiency. Design and Control of Automotive Propulsion Systems focuses on the ICE-based automotive powertrain system (while presenting the alternative powertrain systems where appropriate). Factoring in the multidisciplinary nature of the automotive propulsion system, this text does two things-adopts a holistic approach to the subject, especially focusing on the relationship between propulsion system design and its dynamics and electronic control, and covers all major propulsion system components, from internal combustion engines to transmissions and hybrid powertrains. The book introduces the design, modeling, and control of the current automotive propulsion system, and addresses all three major subsystems: system level optimization over engines, transmissions, and hybrids (necessary for improving propulsion system efficiency and performance). It provides examples for developing control-oriented models for the engine, transmission, and hybrid. It presents the design principles for the powertrain and its key subsystems. It also includes tools for developing control systems and examples on integrating sensors, actuators, and electronic control to improve powertrain efficiency and performance. In addition, it presents analytical and experimental methods, explores recent achievements, and discusses future trends. Comprised of five chapters containing the fundamentals as well as new research, this text: Examines the design, modeling, and control of the internal combustion engine and its key subsystems: the valve actuation system, the fuel system, and the ignition system Expounds on the operating principles of the transmission system, the design of the clutch actuation system, and transmission dynamics and control Explores the hybrid powertrain, including the hybrid architecture analysis, the hybrid powertrain model, and the energy management strategies Explains the electronic control unit and its functionalities-the software-in-the-loop and hardware-in-the-loop techniques for developing and validating control systems Design and Control of Automotive Propulsion Systems provides the background of the automotive propulsion system, highlights its challenges and opportunities, and shows the detailed procedures for calculating vehicle power demand and the associated powertrain operating conditions.

Automated vehicles are set to transform the world. Automated driving vehicles are here already and undergoing serious testing in several countries around the world. This book explains the technologies in language that is easy to understand and accessible to all readers. It covers the subject from several angles but in particular shows the links to existing ADAS technologies already in use in all modern vehicles. There is a lot of hype in the media at the moment about autonomous or driverless cars, and while some manufacturers expect to have vehicles available from 2020, they will not soon take over and it will be some time before they are commonplace. However, it is very important to be ready for the huge change of direction that automated driving will take. This is the first book of its type available and complements Tom Denton's other books.

The book reports on a new methodology for optimization and evaluation of traffic safety, which simulates the processes involved in traffic conflicts on the basis of detailed dynamical, human, and technical models. The models incorporate the whole spectrum of human cognitive functions and responses, the responses of an active safety system and the interactions between the human and the system as they occur in a sample of relevant traffic contexts. Using the developed method, the author was able to assess the reduction in accidents and injuries as well as the possible side effects resulting from a preventive pedestrian-protection system. The book provides practical solutions in the area of active safety systems. It represents an interesting source of information for researchers and professionals as well as all stakeholders, including policy makers and consumer advocates, with the common goal of promoting the implementation and adoption of highly efficient systems for preventing accidents and injuries.

In the field of mechanism design, kinematic synthesis is a creative means to produce mechanism solutions. Combined with the emergence of powerful personal computers, mathematical analysis software and the development of quantitative methods for kinematic synthesis, there is an endless variety of possible mechanism solutions that users are free to explore, realize, and evaluate for any given problem in an efficient and practical manner. Mechanism Design: Visual and Programmable Approaches provides a broad introduction to kinematic synthesis, presenting and applying motion, path, and function generation methodologies for some of the most basic planar and spatial single and multi-loop linkage systems. This work provides numerous in-chapter synthesis examples and end-of-chapter synthesis problems. Users can also invent their own specialized synthesis problems according to their particular interests. The commercial mathematical software package MATLAB (R) and its mechanical system modeling and simulation module SimMechanics (R) are thoroughly integrated in this textbook for mechanism synthesis and analysis. The reader is therefore enabled to readily apply the design approaches presented in this textbook to synthesize mechanism systems and visualize their results. With this knowledge of both kinematic synthesis theory and computer-based application, readers will be well-equipped to invent novel mechanical system designs for a wide range of applications.

A fantastic presentation of history and culture, of designers and automobiles. The author has explored family history and far beyond to explain how pedal cars were made, and why they ultimately lost favor in the marketplace. Workers who actually made the cars provide information that counts for collectors. Charming oral histories from the men and women who made hubcaps and welded little bodies come to life in photos and illustrations from the factories to the showroom floor. See hundreds of cars that are lovingly collected in all stages of repair, from rusty frames and rotting wheels to gleaming chrome and custom paint. It is the first compilation of photos and facts put together to tell a story about where the toys were made and how they continue to give joy to collectors, in addition to up-to-date pricing information.

Polyester-Based Biocomposites highlights the performance of polyester-based biocomposites reinforced with various natural fibres extracted from leaf, stem, fruit bunch, grass, wood material. It also addresses the characteristics of polyester-based biocomposites reinforced with rice husk fillers and various nanoparticles. The book explores the widespread applications of fibre-reinforced polymer composites ranging from the aerospace sector, automotive parts, construction and building materials, sports equipment, and household appliances. Investigating the advantages of natural fibres, such as superior damping characteristics, low density, biodegradability, abundant availability at low cost and non-abrasive to tooling, the book discusses what makes them a cost-effective alternative reinforcement material for composites in certain applications. The book serves as a useful reference for researchers, graduate students, and engineers in the field of polymer composites.

Based on the simulations developed in research groups over the past years, "Introduction to" "Quasi-dimensional Simulation of Spark Ignition Engines "provides a compilation of the main ingredients necessary to build up a quasi-dimensional computer simulation scheme. Quasi-dimensional computer simulation of spark ignition engines" "is a powerful but affordable tool which obtains realistic estimations of a wide variety of variables for a simulated engine keeping insight the basic physical and chemical processes involved in the real evolution of an automotive engine. With low computational costs, it can optimize the design and operation of spark ignition engines as well as it allows to analyze cycle-to-cycle fluctuations.""

Including details about the structure of a complete simulation scheme, information about what kind of information can be obtained, and comparisons of the simulation results with experiments, "Introduction to Quasi-dimensional Simulation of Spark Ignition Engines" offers a thorough guide of this technique. Advanced undergraduates and postgraduates as well as researchers in government and industry in all areas related to applied physics and mechanical and automotive engineering can apply these tools to simulate cyclic variability, potentially leading to new design and control alternatives for lowering emissions and expanding the actual operation limits of spark ignition engines"

Learn about the latest developments in automotive Ethernet technology and implementation with this fully revised second edition. Including approximately twenty-five percent new material and greater technical detail, coverage is expanded to include: * Detailed explanations of how the 100BASE-T1 PHY and 1000 BASE-T1 PHY technologies actually work * A step-by-step description of how the 1000BASE-T1 channel was derived * A summary of the content and uses of the new TSN standards * A framework for security in Automotive Ethernet * Discussion of the interrelation between power supply and automotive Ethernet communication Industry pioneers share the technical and non-technical decisions that have led to the success of automotive Ethernet, covering everything from electromagnetic requirements and physical layer technologies, Quality of Service, the use of VLANs, IP and Service Discovery, and network architecture and testing. This is a guide for engineers, technical managers and researchers designing components for in-car electronics, and those interested in the strategy of introducing a new technology.

Process Control for Sheet-Metal Stamping presents a comprehensive and structured approach to the design and implementation of controllers for the sheet metal stamping process. The use of process control for sheet-metal stamping greatly reduces defects in deep-drawn parts and can also yield large material savings from reduced scrap. Sheet-metal forming is a complex process and most often characterized by partial differential equations that are numerically solved using finite-element techniques. In this book, twenty years of academic research are reviewed and the resulting technology transitioned to the industrial environment. The sheet-metal stamping process is modeled in a manner suitable for multiple-input multiple-output control system design, with commercially available sensors and actuators. These models are then used to design adaptive controllers and real-time controller implementation is discussed. Finally, experimental results from actual shop floor deployment are presented along with ideas for further improvement of the technology. Process Control for Sheet-Metal Stamping allows the reader to design and implement process controllers in a typical manufacturing environment by retrofitting standard hydraulic or mechanical stamping presses and as such will be of interest to practising engineers working in metal-working, automotive and aeronautical industries. Academic researchers studying improvements in process control and how these affect the industries in which they are applied will also find the text of value.

The astonishing biography of Josef Ganz, a Jewish designer from Frankfurt, who in May 1931 created a revolutionary small car: the Maikafer (German for "May bug"). Seven years later, Hitler introduced the Volkswagen. The Nazis not only "took" the concept of Ganz's family car--their production model even ended up bearing the same nickname. The Beetle incorporated many of the features of Ganz's original Maikafer, yet until recently Ganz received no recognition for his pioneering work. The Nazis did all they could to keep the Jewish godfather of the German compact car out of the history books. Now Paul Schilperoord sets the record straight. Josef Ganz was hunted by the Nazis, even beyond Germany's borders, and narrowly escaped assassination. He was imprisoned by the Gestapo until an influential friend with connections to Goring helped secure his release. Soon afterward, he was forced to flee Germany, while Porsche, using many of his groundbreaking ideas, created the Volkswagen for Hitler. After the war, Ganz moved to Australia, where he died in 1967.

This text will help readers in gaining knowledge in designing power electronic converters and its control for electric vehicles. It discusses the ways in which power from electric vehicle batteries is transferred to an electric motor, the technology used for charging electric vehicle batteries, and the energy storage. The text covers case studies and real-life examples related to electric vehicles. It will serve as an ideal reference text for graduate students and academic researchers in the fields of electrical engineering, electronics and communication engineering, environmental engineering, automotive engineering, and computer science. The book Discusses the latest advances and developments in the field of electric vehicles Covers advanced concepts including grid-to-vehicle power transfer, vehicle-to-vehicle charging, and regenerative braking Examines the challenges associate with the integration of renewable energy sources with electric vehicles Highlights basic understanding of the charging infrastructure for electric vehicles Covers concepts including the reliability of power converters in electric vehicles, and battery management systems This book discusses the challenges, emerging technologies, and recent development of power electronics for electric vehicles. It will serve as an ideal reference text for graduate students and academic researchers in the fields of electrical engineering, electronics and communication engineering, environmental engineering, automotive engineering, and computer science.

Motorsport is not just about the spectacle of some of the world's most popular and famous sporting events - it also plays a crucial role in developing new techniques and technologies.
Each unit in the IMI and EAL level 2 courses are covered in full, and the chapters can be easily matched to the BTEC First course structure. The book covers introductory topics in motorsport from vehicle science and maths through the basics of vehicle maintenance to pre and post race inspections.
Written by an experienced teacher and author with decades of involvement with the industry, packed with detailed colour illustrations and learning tips, Basic Motorsport Engineering is the perfect textbook for you to make the first move into this most dynamic of industries.
* Fully matched to IMI, EAL and BTEC course structures
* Each section fully illustrated with photos, diagrams and key learning points
* Written by an experienced author and teacher

Handbook of Human Factors for Automated, Connected, and Intelligent Vehicles Subject Guide: Ergonomics & Human Factors Automobile crashes are the seventh leading cause of death worldwide, resulting in over 1.25 million deaths yearly. Automated, connected, and intelligent vehicles have the potential to reduce crashes significantly, while also reducing congestion, carbon emissions, and increasing accessibility. However, the transition could take decades. This new handbook serves a diverse community of stakeholders, including human factors researchers, transportation engineers, regulatory agencies, automobile manufacturers, fleet operators, driving instructors, vulnerable road users, and special populations. It provides information about the human driver, other road users, and human-automation interaction in a single, integrated compendium in order to ensure that automated, connected, and intelligent vehicles reach their full potential. Features Addresses four major transportation challenges-crashes, congestion, carbon emissions, and accessibility-from a human factors perspective Discusses the role of the human operator relevant to the design, regulation, and evaluation of automated, connected, and intelligent vehicles Offers a broad treatment of the critical issues and technological advances for the designing of transportation systems with the driver in mind Presents an understanding of the human factors issues that are central to the public acceptance of these automated, connected, and intelligent vehicles Leverages lessons from other domains in understanding human interactions with automation Sets the stage for future research by defining the space of unexplored questions

"Optimal Design of Complex Mechanical Systems" presents the foundations and practical application of multi-objective optimization methods to Vehicle Design Problems with an extensive overview of examples. The first part provides an introduction and a general theoretical information about the optimization of complex mechanical systems and multi-objective optimization methods. Several presented applications such as the global approximation approach are brand new in literature and extensively exposed the first time in this book. The second Part of the book shows some examples of the application of the proposed methods to the solution of real vehicle design problems.

The automotive industry is one of the most environmental aware manufacturing sectors. Product take-back regulations influence design of the vehicles, production technologies but also the configuration of automotive reverse supply chains. The business practice comes every year closer to the closed loop supply chain concept which completely reuses, remanufactures and recycles all materials. The book covers the emerging environmental issues in automotive industry through the whole product life cycle. Its focus is placed on a multidisciplinary approach. It presents viewpoints of academic and industry personnel on the challenges for implementation of sustainable police in the automotive sector

Autonomous vehicles have attracted a great deal of attention in the media, however there are some inconsistencies between the perception of autonomous vehicles? capabilities and their actual functions. This book provides an accessible explanation of how autonomous vehicles function, suggesting appropriate regulatory responses to the existing and emerging technology. Hannah YeeFen Lim explores the current capabilities of autonomous vehicles and importantly, highlights their inherent limitations. Lim provides a concise and easy to follow overview of the technology behind autonomous vehicles which encompasses hardware and software aspects, including machine learning algorithms. Having laid the technical foundation, the following chapters assess the current legal standards in negligence law that are applicable to autonomous vehicles taking the current technical limitations of the vehicles into account. Lim concludes by exploring the ethical issues associated with autonomous vehicles and proposes appropriate regulatory approaches. This book will be of great value to policy makers seeking a deeper understanding of the technology behind autonomous vehicles in order to inform and guide the development of laws and regulations. Legal practitioners will benefit from the discussion of recent use cases and applicable negligence law. Legal scholars researching artificial intelligence will also find the author?s easy to understand technical explanations and discourse on ethical considerations invaluable.