Recursive Languages and Sets: Instruction, Computational Problem, Mathematics, Numerology, Pure Mathematics, Human-Computer Interaction, Programming Language, Operating System - Softcover
Synopsis
Please note that the content of this book primarily consists of articles available from Wikipedia or other free sources online. In computability theory, a set is decidable, computable, or recursive if there is an algorithm that terminates after a finite amount of time and correctly decides whether or not a given object belongs to the set. Decidability of a set is of particular interest when the set is viewed as a decision problem; a decidable set is also a decidable problem, computable problem, and recursive problem. The remainder of this article uses the term decidable, although recursive and computable are equivalent in this context. A language is a set of finite strings over a particular alphabet. A language is decidable (also computable, recursive) if it is a decidable set. A set, language, or decision problem that is not decidable is undecidable, non-recursive, non-computable, or uncomputable. There are many known undecidable sets; one of the earliest, and most famous, examples is the halting problem.
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Please note that the content of this book primarily consists of articles available from Wikipedia or other free sources online. In computability theory, a set is decidable, computable, or recursive if there is an algorithm that terminates after a finite amount of time and correctly decides whether or not a given object belongs to the set. Decidability of a set is of particular interest when the set is viewed as a decision problem; a decidable set is also a decidable problem, computable problem, and recursive problem. The remainder of this article uses the term decidable, although recursive and computable are equivalent in this context. A language is a set of finite strings over a particular alphabet. A language is decidable (also computable, recursive) if it is a decidable set. A set, language, or decision problem that is not decidable is undecidable, non-recursive, non-computable, or uncomputable. There are many known undecidable sets; one of the earliest, and most famous, examples is the halting problem.
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Recursive Languages and Sets
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VDM Verlag Dr. Müller E.K. Jan 2010, 2010
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Taschenbuch. Condition: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -High Quality Content by WIKIPEDIA articles! In computability theory, a set is decidable, computable, or recursive if there is an algorithm that terminates after a finite amount of time and correctly decides whether or not a given object belongs to the set. Decidability of a set is of particular interest when the set is viewed as a decision problem; a decidable set is also a decidable problem, computable problem, and recursive problem. The remainder of this article uses the term decidable, although recursive and computable are equivalent in this context. A language is a set of finite strings over a particular alphabet. A language is decidable (also computable, recursive) if it is a decidable set. A set, language, or decision problem that is not decidable is undecidable, non-recursive, non-computable, or uncomputable. There are many known undecidable sets; one of the earliest, and most famous, examples is the halting problem. Englisch. Seller Inventory # 9786130345938
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Recursive Languages and Sets : Instruction, Computational Problem, Mathematics, Numerology, Pure Mathematics, Human-Computer Interaction, Programming Language, Operating System
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Taschenbuch. Condition: Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - High Quality Content by WIKIPEDIA articles! In computability theory, a set is decidable, computable, or recursive if there is an algorithm that terminates after a finite amount of time and correctly decides whether or not a given object belongs to the set. Decidability of a set is of particular interest when the set is viewed as a decision problem; a decidable set is also a decidable problem, computable problem, and recursive problem. The remainder of this article uses the term decidable, although recursive and computable are equivalent in this context. A language is a set of finite strings over a particular alphabet. A language is decidable (also computable, recursive) if it is a decidable set. A set, language, or decision problem that is not decidable is undecidable, non-recursive, non-computable, or uncomputable. There are many known undecidable sets; one of the earliest, and most famous, examples is the halting problem. Seller Inventory # 9786130345938
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Recursive Languages and Sets | Instruction, Computational Problem, Mathematics, Numerology, Pure Mathematics, Human-Computer Interaction, Programming Language, Operating System
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Taschenbuch. Condition: Neu. Recursive Languages and Sets | Instruction, Computational Problem, Mathematics, Numerology, Pure Mathematics, Human-Computer Interaction, Programming Language, Operating System | Lambert M. Surhone (u. a.) | Taschenbuch | Englisch | 2026 | OmniScriptum | EAN 9786130345938 | Verantwortliche Person für die EU: preigu GmbH & Co. KG, Lengericher Landstr. 19, 49078 Osnabrück, mail[at]preigu[dot]de | Anbieter: preigu Print on Demand. Seller Inventory # 101376888