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Algorithms for Constructing Computably Enumerable Sets

Algorithms for Constructing Computably Enumerable Sets in Grande Prairie, AB

Current price: $94.95
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Algorithms for Constructing Computably Enumerable Sets

Coles

Algorithms for Constructing Computably Enumerable Sets in Grande Prairie, AB

Current price: $94.95
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Size: Paperback

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Logicians have developed beautiful algorithmic techniques for the construction of computably enumerable sets.  This textbook presents these techniques in a unified way that should appeal to computer scientists. Specifically, the book explains, organizes, and compares various algorithmic techniques used in computability theory (which was formerly called "classical recursion theory").  This area of study has produced some of the most beautiful and subtle algorithms ever developed for any problems.  These algorithms are little-known outside of a niche within the mathematical logic community.  By presenting them in a style familiar to computer scientists, the intent is to greatly broaden their influence and appeal. Topics and features: -         All other books in this field focus on the mathematical results, rather than on the algorithms. -         There are many exercises here, most of which relate to details of the algorithms. -         The proofs involving priority trees are written here in greater detail, and with more intuition, than can be found elsewhere in the literature. -         The algorithms are presented in a pseudocode very similar to that used in textbooks (such as that by Cormen, Leiserson, Rivest, and Stein) on concrete algorithms. -         In addition to their aesthetic value, the algorithmic ideas developed for these abstract problems might find applications in more practical areas. Graduate students in computer science or in mathematical logic constitute the primary audience. Furthermore, when the author taught a one-semester graduate course based on this material, a number of advanced undergraduates, majoring in computer science or mathematics or both, took the course and flourished in it. Kenneth J. Supowit  is an Associate Professor Emeritus, Department of Computer Science & Engineering, Ohio State University, Columbus, Ohio, US.
Logicians have developed beautiful algorithmic techniques for the construction of computably enumerable sets.  This textbook presents these techniques in a unified way that should appeal to computer scientists. Specifically, the book explains, organizes, and compares various algorithmic techniques used in computability theory (which was formerly called "classical recursion theory").  This area of study has produced some of the most beautiful and subtle algorithms ever developed for any problems.  These algorithms are little-known outside of a niche within the mathematical logic community.  By presenting them in a style familiar to computer scientists, the intent is to greatly broaden their influence and appeal. Topics and features: -         All other books in this field focus on the mathematical results, rather than on the algorithms. -         There are many exercises here, most of which relate to details of the algorithms. -         The proofs involving priority trees are written here in greater detail, and with more intuition, than can be found elsewhere in the literature. -         The algorithms are presented in a pseudocode very similar to that used in textbooks (such as that by Cormen, Leiserson, Rivest, and Stein) on concrete algorithms. -         In addition to their aesthetic value, the algorithmic ideas developed for these abstract problems might find applications in more practical areas. Graduate students in computer science or in mathematical logic constitute the primary audience. Furthermore, when the author taught a one-semester graduate course based on this material, a number of advanced undergraduates, majoring in computer science or mathematics or both, took the course and flourished in it. Kenneth J. Supowit  is an Associate Professor Emeritus, Department of Computer Science & Engineering, Ohio State University, Columbus, Ohio, US.

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