The breakup of the Soviet Union left a cold war nuclear legacy consisting of tens of thousands of nuclear weapons and a sprawling infrastructure for their production and maintenance. This book examines the fate of this vast nuclear weapon complex and the unprecedented non-proliferation challenges associated with the breakup of a nuclear weapon state. It describes the high-level diplomatic bargaining efforts to consolidate in Russia the nuclear weapons based in newly independent Belarus, Kazakhstan and Ukraine and to strengthen central control over these weapons. It surveys the problems associated with dismantling nuclear weapons and the difficulties involved in safely storing and disposing of large stockpiles of fissile material. It reviews the key provisions of the principal nuclear arms control measures and initiatives, including the START I and START II treaties. Finally, the book assesses the contribution of international assistance programmes to the denuclearization process under way in the former Soviet Union.
Opera is the only guide to the research writings on all aspects of opera. This second edition presents 2,833 titles--over 2,000 more than the first edition--of books, parts of books, articles and dissertations with full bibliographic descriptions and critical annotations. Users will find the core literature on the operas of 320 individual composers and details of operatic life in 43 countries. All relevant works through to November 1999 have been considered, covering more than fifteen years of literature since the first edition was published.
From the explosion of interest, research, and applications of evolutionary computation a new field emerges-evolutionary electronics. Focused on applying evolutionary computation concepts and techniques to the domain of electronics, many researchers now see it as holding the greatest potential for overcoming the drawbacks of conventional design techniques. Evolutionary Electronics: Automatic Design of Electronic Circuits and Systems by Genetic Algorithms formally introduces and defines this area of research, presents its main challenges in electronic design, and explores emerging technologies. It describes the evolutionary computation paradigm and its primary algorithms, and explores topics of current interest, such as multi-objective optimization. The authors examine numerous evolutionary electronics applications, draw conclusions about those applications, and sketch the future of evolutionary computation and its applications in electronics. In coming years, the appearance of more and more advanced technologies will increase the complexity of optimization and synthesis problems, and evolutionary electronics will almost certainly become a key to solving those problems. Evolutionary Electronics is your key to discovering and unlocking the potential of this promising new field.
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