Download Free Flying Finish Book in PDF and EPUB Free Download. You can read online Flying Finish and write the review.

From a New York Times–bestselling “master of crime fiction and equine thrills,” an aristocratic amateur jockey gets involved in a criminal investigation (Newsday). Dick Francis, Edgar Award–winning master of mystery and suspense, takes you into the thrilling world of horse racing. The youngest child of rich, neglectful parents, Henry Grey was occasionally accused of being an overgrown brat. But all Henry wanted was a career that would bring him some genuine fulfilment, a little adventure, and a chance to prove his true character. So he decided to take a dirty demanding job transporting racehorses by air, much to his snobbish family’s horror. And when he discovered that he was actually transporting something altogether different, he had to call upon every ounce of resourcefulness he had to land with his life intact . . . Praise for the writing of Dick Francis: “Dick Francis is a wonder.” —The Plain Dealer “Few things are more convincing than Dick Francis at a full gallop.” —Chicago Tribune “Few match Francis for dangerous flights of fancy and pure inventive menace.” —Boston Herald “[Francis] has the uncanny ability to turn out simply plotted yet charmingly addictive mysteries.” —The Wall Street Journal “Francis is a genius.” —Los Angeles Times “Nobody executes the whodunit formula better.” —Chicago Sun-Times
Предлагаем вниманию читателей один из лучших романов Дика Френсиса, признанного мастера детективного жанра.Книга адресована студентам языковых вузов и всем любителям англоязычных детективов.
The specialized jargon of some sports can be quite esoteric. Non-Americans, for example, are likely puzzled by baseball terms such as bunt, cut-off man, and safety squeeze, while the non-British may pause over cricket's Chinaman, doosra, golden duck, off-break, popping crease, and yorker. This new dictionary gives the definitions of more than 8,000 terms used in sports and games from around the world, including mainstream sports like basketball and billiards alongside the more obscure netball and snooker. Entries cover sports equipment, strategies, venues, qualifying categories, awards, and administrative bodies, while a comprehensive system of cross-references offers assistance and clarification when needed. An appendix lists standard abbreviations of sports ruling bodies and administrative organizations.
In areas such as military, security, aerospace, and disaster management, the need for performance optimization and interoperability among heterogeneous systems is increasingly important. Model-driven engineering, a paradigm in which the model becomes the actual software, offers a promising approach toward systems of systems (SoS) engineering. However, model-driven engineering has largely been unachieved in complex dynamical systems and netcentric SoS, partly because modeling and simulation (M&S) frameworks are stove-piped and not designed for SoS composability. Addressing this gap, Netcentric System of Systems Engineering with DEVS Unified Process presents a methodology for realizing the model-driven engineering vision and netcentric SoS using DEVS Unified Process (DUNIP). The authors draw on their experience with Discrete Event Systems Specification (DEVS) formalism, System Entity Structure (SES) theory, and applying model-driven engineering in the context of a netcentric SoS. They describe formal model-driven engineering methods for netcentric M&S using standards-based approaches to develop and test complex dynamic models with DUNIP. The book is organized into five sections: Section I introduces undergraduate students and novices to the world of DEVS. It covers systems and SoS M&S as well as DEVS formalism, software, modeling language, and DUNIP. It also assesses DUNIP with the requirements of the Department of Defense’s (DoD) Open Unified Technical Framework (OpenUTF) for netcentric Test and Evaluation (T&E). Section II delves into M&S-based systems engineering for graduate students, advanced practitioners, and industry professionals. It provides methodologies to apply M&S principles to SoS design and reviews the development of executable architectures based on a framework such as the Department of Defense Architecture Framework (DoDAF). It also describes an approach for building netcentric knowledge-based contingency-driven systems. Section III guides graduate students, advanced DEVS users, and industry professionals who are interested in building DEVS virtual machines and netcentric SoS. It discusses modeling standardization, the deployment of models and simulators in a netcentric environment, event-driven architectures, and more. Section IV explores real-world case studies that realize many of the concepts defined in the previous chapters. Section V outlines the next steps and looks at how the modeling of netcentric complex adaptive systems can be attempted using DEVS concepts. It touches on the boundaries of DEVS formalism and the future work needed to utilize advanced concepts like weak and strong emergence, self-organization, scale-free systems, run-time modularity, and event interoperability. This groundbreaking work details how DUNIP offers a well-structured, platform-independent methodology for the modeling and simulation of netcentric system of systems.