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This edited volume presents research results of the PPP European Green Vehicle Initiative (EGVI), focusing on Electric Vehicle Systems Architecture and Standardization Needs. The objectives of energy efficiency and zero emissions in road transportation imply a paradigm shift in the concept of the automobile regarding design, materials, and propulsion technology. A redesign of the electric and electronic architecture provides in many aspects additional potential for reaching these goals. At the same time, standardization within a broad range of features, components and systems is a key enabling factor for a successful market entry of the electric vehicle (EV). It would lower production cost, increase interoperability and compatibilities, and sustain market penetration. Hence, novel architectures and testing concepts and standardization approaches for the EV have been the topic of an expert workshop of the European Green Vehicles Initiative PPP. This book contains the contributions of current European research projects on EV architecture and an expert view on the status of EV standardization. The target audience primarily comprises researchers and experts in the field.
This book gathers recent research works in emerging Artificial Intelligence (AI) methods for the convergence of communication, caching, control, and computing resources in cloud-based Internet of Vehicles (IoV) infrastructures. In this context, the book's major subjects cover the analysis and the development of AI-powered mechanisms in future IoV applications and architectures. It addresses the major new technological developments in the field and reflects current research trends and industry needs. It comprises a good balance between theoretical and practical issues, covering case studies, experience and evaluation reports, and best practices in utilizing AI applications in IoV networks. It also provides technical/scientific information about various aspects of AI technologies, ranging from basic concepts to research-grade material, including future directions. This book is intended for researchers, practitioners, engineers, and scientists involved in designing and developing protocols and AI applications and services for IoV-related devices.
"As directed by the Energy Independence and Security Act (EISA) of 2007 (P.L. 110-140), the National Institute of Standards and Technology (NIST) is coordinating an effort to develop a common framework and interoperability standards for the smart grid. The purpose of this hearing is to examine the progress of this effort and discuss how standards affect the development of the smart grid and the deployment of smart grid technologies. Additionally, witnesses will discuss current and anticipated challenges associated with these standards and offer their views on the ability of the current process to meet these challenges and develop standards that will enable the growth of a reliable, efficient, and secure smart grid ... The term "smart grid" refers to modernization of the electric grid to incorporate digital computing, microprocessor-based measurement and control, and communication technology. These technologies will enable greater two-way communication between consumers and electricity providers so that consumers can adjust their electricity usage in response to real-time demand and price information. These technologies will also enable two-way energy transfer ... and will help accommodate widespread use of different types of electricity generation and storage options."--P. 3.
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.
As more consumers and operators adopt electric vehicles (EVs) as personal and fleet vehicles, questions regarding recharge time, reliability, and interoperability of EV supply equipment and charging systems currently in use across North America and Europe remain. The current lack of understanding has led to consumer anxiety and, in some cases, inadvertent abuse and mishandling of electric supply equipment. Electric Vehicle Recharge Time, Reliability, and Interoperability navigates issues such as charging equipment reliability; the complexity Interoperability concerning charging networks, EVs, and payment systems; various public and private charging network issues; and lagging regulations and standards. While many challenges need to be addressed, this report also identifies the improvements made since early adoption of EV charging technology as well as ongoing efforts to improve it further. Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2022028
A thoroughly revised third edition of this widely praised, bestselling textbook presents a comprehensive systems-level perspective of electric and hybrid vehicles with emphasis on technical aspects, mathematical relationships and basic design guidelines. The emerging technologies of electric vehicles require the dedication of current and future engineers, so the target audience for the book is the young professionals and students in engineering eager to learn about the area. The book is concise and clear, its mathematics are kept to a necessary minimum and it contains a well-balanced set of contents of the complex technology. Engineers of multiple disciplines can either get a broader overview or explore in depth a particular aspect of electric or hybrid vehicles. Additions in the third edition include simulation-based design analysis of electric and hybrid vehicles and their powertrain components, particularly that of traction inverters, electric machines and motor drives. The technology trends to incorporate wide bandgap power electronics and reduced rare-earth permanent magnet electric machines in the powertrain components have been highlighted. Charging stations are a critical component for the electric vehicle infrastructure, and hence, a chapter on vehicle interactions with the power grid has been added. Autonomous driving is another emerging technology, and a chapter is included describing the autonomous driving system architecture and the hardware and software needs for such systems. The platform has been set in this book for system-level simulations to develop models using various softwares used in academia and industry, such as MATLAB®/Simulink, PLECS, PSIM, Motor-CAD and Altair Flux. Examples and simulation results are provided in this edition using these software tools. The third edition is a timely revision and contribution to the field of electric vehicles that has reached recently notable markets in a more and more environmentally sensitive world.
In July 2010, the National Research Council (NRC) appointed the Committee to Review the 21st Century Truck Partnership, Phase 2, to conduct an independent review of the 21st Century Truck Partnership (21CTP). The 21CTP is a cooperative research and development (R&D) partnership including four federal agencies-the U.S. Department of Energy (DOE), U.S. Department of Transportation (DOT), U.S. Department of Defense (DOD), and the U.S. Environmental Protection Agency (EPA)-and 15 industrial partners. The purpose of this Partnership is to reduce fuel consumption and emissions, increase heavy-duty vehicle safety, and support research, development, and demonstration to initiate commercially viable products and systems. This is the NRC's second report on the topic and it includes the committee's review of the Partnership as a whole, its major areas of focus, 21CTP's management and priority setting, efficient operations, and the new SuperTruck program.
Electrical and electronic reliability is a critical issue for automakers and suppliers as well as car buyers and dealers. The burden of reliability falls most heavily on automotive E/E engineers, system and software developers, component suppliers, and tools vendors. This book explores ways that the automotive industry continues to add E/E features while maintaining if not improving overall reliability. This book helps executives, decision-makers, and managers to quickly grasp the key drivers associated with E/E reliability in the automotive market. Academics who teach electronics and automotive engineering will also be interested in the book, as well as those in government who legislate and regulate automotive electronics. Author John Day interviewed nearly 50 experts on all facets of E/E systems and reliability during preparation of this manuscript. In addition, he culled information from press releases and presentations. He synthesized a massive amount of information and data into an easy-to-digest manuscript that gives a clear picture of the current state of E/E reliability and where the technology it is headed.
This book covers the introduction, theory, development, and applications of hybrid and electric vehicles and their charging infrastructures. It also discusses the real applications of power converters and electric drives to give the readers a flavour of how to design propulsion drives and fast charging systems for electric vehicles. It further covers important topics such as static and dynamic wireless charging systems, battery management, and battery swapping systems for electric vehicles. This book: Presents comprehensively different types of electric vehicles and their powertrain architecture. Highlights modern optimization techniques such as genetic algorithms, simulated annealing, particle swarm optimization, and ant colony optimization. Discusses different charging methods such as wired and wireless for a variety of batteries including lead acid, lithium-ion, and vanadium redox. Covers grid-to-vehicle, vehicle-to-grid, and vehicle-to-vehicle bidirectional power flow analysis. Showcases power 2X technologies such as power-to-ammonia, power-to-chemicals, power-to-fuel, power-to-gas, and power-to-hydrogen. The text is primarily written for senior undergraduate and graduate students as well as academic researchers in the fields of electrical engineering, electronics, and communications engineering.