This is the first book that attempts to provide a framework in which to embed an automatic programming system based on evolutionary learning (genetic programming) into a traditional software engineering environment. As such, it looks at how traditional software engineering knowledge can be integrated with an evolutionary programming process in a symbiotic way.
In the island battles of World War II, the United States Marine Corps came into its own. From a force previously numbering 55,000, the ranks of the Marines swelled to 480,000. With Pacific theater command essentially divided geographically between General Douglas MacArthur and Admiral Chester W. Nimitz, these forces found themselves under the command of the Army or Navy depending on their particular location. On land and at sea, the contribution which the six Marine divisions made to the Allied victory in the Pacific cannot be ignored. Concentrating on the infantry units, this volume provides a brief history of each of the six Marine divisions which took part in the Pacific conflict. Beginning with a chronology of the war in the Pacific, it succinctly describes each campaign through the eyes of a specified division, focusing on the division's exact movements and actions. Some battles and operations are covered from different perspectives because of the presence of multiple divisions. An initial section contains brief biographical sketches of key players in the Pacific arena. Extensive maps and photographs are also included.
A few months after the outbreak of the War of 1812, Captain David Porter set out in the USS Essex on an epic, seventeen-month cruise to the South Seas. Porter was pursuing fame and riches, and by most accounts his odyssey was a stunning success: it brought glory to the fledgling American navy, cemented Porter's reputation as a daring and talented commander, and has long been celebrated as one of the greatest maritime adventures in U.S. history. Less well known, however, is the terrible price that the crew of the Essex paid for their captain's outsized ambitions. In The Shining Sea, award-winning historian George C. Daughan tells the full story of Porter's thrilling, action-packed voyage, revealing the heights of Porter's hubris and the true depths of his failure on this fateful cruise. Intent on achieving personal glory, Porter made the treacherous journey around Cape Horn and into the Pacific Ocean, where he planned to capture a British man-of-war. From Valparaiso to the Galapagos to the Marquesas, the Essex roamed the South Seas, seizing British whaling and merchant ships, wreaking havoc on British commerce, and earning Porter and his men wealth and acclaim. Flush with his victories, Porter welcomed the news that a British frigate-the HMS Phoebe-was on his tail, and he resolved to capture her. But Porter could not overcome the Phoebe's superior firepower. Over the course of a desperate, bloody battle, he lost the Essex and over two-thirds of her crew-a shocking end to a daring journey. A swashbuckling tale of risk and ruin on the high seas, The Shining Sea brings to life the monomaniacal quest of one of the most misunderstood commanders of the War of 1812. Porter's singular voyage, Daughan shows, stands as a cautionary tale for any leader who would put personal glory and ambition ahead of cause and countrymen.
Less than 50 years ago it was discovered that steady-state protein concentrations in plasma are the net result of continuous elimination and synthesis of protein molecules. The first quanti tative studies on the turnover and distribution of plasma pro teins were made around 1950, after the introduction of radio labeled protein preparations. Around 1970, another development in quantitative interpre tation of circulating proteins was initiated in clinical enzy mology. Estimation of cumulative release into plasma of cellular enzymes can be helpful in a variety of diseases to assess the extent of tissue damage and to evaluate therapy. Enzymes can be considered as biological tracers, i.e. minute quantities of protein can be accurately determined by their spe cific catalytic activities. However, radioactive tracers permit direct estimates of turnover and distr ibution by measurement of excreted radioactivity, possibilities that are not available for enzymes. Consequently, only a few techniques used in tracer studies with radiolabeled proteins can be applied to circulating tissue enzymes and this may explain the lack of communication between the fields of plasma protein metabolism and quantitative clinical enzymology. In the present study a summary is given of the basic methods used in both fields, with emphasis on the equivalence of various models and formalisms used by different authors. It is shown that major limitations in the study of circulating tissue enzymes can be overcome if two different, but simultaneously released, en zymes can be measured. The resulting method will also be applied to plasma protein metabolism.
A current survey and synthesis of the most important findings in our understanding of the neurobiological mechanisms of addiction are detailed in our Neurobiology of Addiction series, each volume addressing a specific area of addiction. Psychostimulants, Volume 2 in the series, explores the molecular and cellular systems in the brain responsible for psychostimulant addiction, including both direct/indirect sympathomimetics and nonsympathomimetics. This volume introduces the readers to the history of psychostimulant use. The authors clearly differentiate the neurobiological effects into three distinct stages of the addiction cycle: binge/intoxication, withdrawal/negative affect, and preoccupation/anticipation. Highlights recent advances in psychostimulant addiction Includes neurocircuitry, cellular and molecular neurobiological mechanisms of psychostimulant addiction Defines the abuse and addiction potentials of both direct and indirect sympathomimetics and nonsympathomimetics
Satellite Soil Moisture Retrieval: Techniques and Applications offers readers a better understanding of the scientific underpinnings, development, and application of soil moisture retrieval techniques and their applications for environmental modeling and management, bringing together a collection of recent developments and rigorous applications of soil moisture retrieval techniques from optical and infrared datasets, such as the universal triangle method, vegetation indices based approaches, empirical models, and microwave techniques, particularly by utilizing earth observation datasets such as IRS III, MODIS, Landsat7, Landsat8, SMOS, AMSR-e, AMSR2 and the upcoming SMAP. Through its coverage of a wide variety of soil moisture retrieval applications, including drought, flood, irrigation scheduling, weather forecasting, climate change, precipitation forecasting, and several others, this is the first book to promote synergistic and multidisciplinary activities among scientists and users working in the hydrometeorological sciences. Demystifies soil moisture retrieval and prediction Links soil moisture retrieval techniques with new satellite missions for earth and environmental science oriented problems Written to be accessible to a wider range of professionals with a common interest in geo-spatial techniques, remote sensing, sustainable water resource development, and earth and environmental issues
From the back cover: The question of an industrial strategy for Canada has had a prominent place in Canadian debate for many years. Most recently, there have been several advocates for adoption in Canada of a strategy of "picking winners". This means identifying and providing government support to industries with a high growth potential. As a corollary, it means not providing support to industries deemed to be "non-winners"....Professor George has approached the question by undertaking an examination of Canadian experience to date along with an examination of the experiences several other countries have had with a strategy of targetting high-growth industries. He brings to light information Canadian policy makers should take into account if they contemplate adopting such a strategy for Canada.
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