This book provides an insight for students, researchers and practitioners on the area of vehicular communications explaining and presenting solutions for some of the most critical issues in this field and, hopefully, inspiring new research directions. The book is organized in Sections, which respond to different layers and aspects of the vehicular technology: infrastructures, cells deployment and its integration with the V2V part, access procedures, advanced services and applications as localization, spectrum sensing, relay-based cooperative networks.
Written from an engineering standpoint, this book provides the theoretical background and physical insight needed to understand new and future developments in the modeling and design of n- and p-MOS nanoscale transistors. A wealth of applications, illustrations and examples connect the methods described to all the latest issues in nanoscale MOSFET design. Key areas covered include: • Transport in arbitrary crystal orientations and strain conditions, and new channel and gate stack materials • All the relevant transport regimes, ranging from low field mobility to quasi-ballistic transport, described using a single modeling framework • Predictive capabilities of device models, discussed with systematic comparisons to experimental results
For the first time, the present commentary brings together all relevant aspects necessary to understand and appreciate this late portion of Old Testament Scripture: textual criticism; detailed philological and literary analysis; the text's two-fold historical context in its Hellenistic environment, on the one hand, and in the biblical tradition on the other; and ultimately the very innovative theology of the book of Wisdom. Aspects of the book's reception history as well as hermeneutical questions round off the commentary on the text.
Our economic welfare and social well-being depend on our mobility. But our means of travel threaten the planet's sustainability. In this innovative text, Luca Bertolini shows how mobility planning - which takes seriously the demands of both urban and transport planning - offers solutions to transport challenges in the 21st Century.
Floating Gate Devices: Operation and Compact Modeling focuses on standard operations and compact modeling of memory devices based on Floating Gate architecture. Floating Gate devices are the building blocks of Flash, EPROM, EEPROM memories. Flash memories, which are the most versatile nonvolatile memories, are widely used to store code (BIOS, Communication protocol, Identification code,) and data (solid-state Hard Disks, Flash cards for digital cameras,). The reader, who deals with Floating Gate memory devices at different levels - from test-structures to complex circuit design - will find an essential explanation on device physics and technology, and also circuit issues which must be fully understood while developing a new device. Device engineers will use this book to find simplified models to design new process steps or new architectures. Circuit designers will find the basic theory to understand the use of compact models to validate circuits against process variations and to evaluate the impact of parameter variations on circuit performances. Floating Gate Devices: Operation and Compact Modeling is meant to be a basic tool for designing the next generation of memory devices based on FG technologies.
This book summarizes the main methods of experimental stress analysis and examines their application to various states of stress of major technical interest, highlighting aspects not always covered in the classic literature. It is explained how experimental stress analysis assists in the verification and completion of analytical and numerical models, the development of phenomenological theories, the measurement and control of system parameters under operating conditions, and identification of causes of failure or malfunction. Cases addressed include measurement of the state of stress in models, measurement of actual loads on structures, verification of stress states in circumstances of complex numerical modeling, assessment of stress-related material damage, and reliability analysis of artifacts (e.g. prostheses) that interact with biological systems. The book will serve graduate students and professionals as a valuable tool for finding solutions when analytical solutions do not exist.
This book offers as comprehensive an overview as possible of the lithostratigraphy of the Italian region of Sicily, taking into account the multiplicity of formational and terminological variability developed over more than a century of studies and publications. It presents stratigraphic terminology, the geological lexicon and the main stratigraphic subdivisions that are not familiar to Sicilian geologists. The new stratigraphic methods and the use of formations as mapping units have prompted the acquisition of new lithostratigraphic data, and a review of the previous units and their comparison with the new collected data, enabling the definition of a number of new lithostratigraphic units. The book summarizes the results in 77 worksheets containing the most important information regarding the lithological, sedimentological and microfacies characteristics, the measured thicknesses, areal extent and the regional aspects, the paleoenvironmental, paleogeographic and paleo-tectonics setting, compiled according to standard procedures and nomenclature rules provided by the International Commission on Stratigraphy (ICS).
Soon to be an AppleTV+ series, this is the definitive account of how Enzo Ferrari became the master of motor racing, and one of the most complex, important and imposing figures in the 20th century. The book draws upon years of original research, conducted in Italy and abroad, and unveils hidden aspects of Ferrari's career - from his early days as a racer, to how he founded the Ferrari company, and even his dealings with the Italian Fascist government and Communist leaders. Learn how Ferrari pushed his drivers to the brink of disaster, revolutionised the automobile industry and overcame family and company infighting on his rise to greatness.
Hard real-time systems are very predictable, but not sufficiently flexible to adapt to dynamic situations. They are built under pessimistic assumptions to cope with worst-case scenarios, so they often waste resources. Soft real-time systems are built to reduce resource consumption, tolerate overloads and adapt to system changes. They are also more suited to novel applications of real-time technology, such as multimedia systems, monitoring apparatuses, telecommunication networks, mobile robotics, virtual reality, and interactive computer games. This unique monograph provides concrete methods for building flexible, predictable soft real-time systems, in order to optimize resources and reduce costs. It is an invaluable reference for developers, as well as researchers and students in Computer Science.
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