可计算数
可以用會結束的演算法計算有限次數到任意精確度的實數
(重定向自可計算實數)
此条目需要精通或熟悉数学的编者参与及协助编辑。 (2018年8月22日) |
各种各样的数 |
基本 |
延伸 |
其他 |
可计算数(英语:computable numbers),是数学名词,是指可用有限次、会结束的算法计算到任意精确度的实数。可计算数也被称为递归数、递归实数或可计算实数。
定义
编辑如果一个实数 能被某个可计算函数 以下述方式来近似,那么 就是一个可计算数:给定任何正整数 ,函数值 都满足:
不可计算数
编辑非可计算的实数即为不可计算数。1975年,计算机学家格里高里·柴廷做了一个有趣的实验:选择任意一种编程语言,随意输入一段代码,该代码能够成功运行并且能够在有限时间内终止的概率即为柴廷常数,这个数为一个经典的不可计算数。[1]
相关条目
编辑相关书籍
编辑- 科学技朮的哲学反思. 清华大学出版社有限公司. 2004: 119 [2018-06-30]. ISBN 978-7-3020-8560-7. (原始内容存档于2019-06-17).
参考资料
编辑引用
编辑- ^ 比根号2更“无理”的数 | 科学人 | 果壳网 科技有意思. 2011-03-09 [2018-06-30]. (原始内容存档于2019-06-05).
来源
编辑- Oliver Aberth 1968, Analysis in the Computable Number Field, Journal of the Association for Computing Machinery (JACM), vol 15, iss 2, pp 276–299. This paper describes the development of the calculus over the computable number field.
- Errett Bishop and Douglas Bridges, Constructive Analysis, Springer, 1985, ISBN 0-387-15066-8
- Douglas Bridges and Fred Richman. Varieties of Constructive Mathematics, Oxford, 1987.
- Jeffry L. Hirst, Representations of reals in reverse mathematics, Bulletin of the Polish Academy of Sciences, Mathematics, 55, (2007) 303–316.
- 马文·闵斯基 1967, Computation: Finite and Infinite Machines, Prentice-Hall, Inc. Englewood Cliffs, NJ. No ISBN. Library of Congress Card Catalog No. 67-12342. His chapter §9 "The Computable Real Numbers" expands on the topics of this article.
- E. Specker, "Nicht konstruktiv beweisbare Sätze der Analysis" J. Symbol. Logic, 14 (1949) pp. 145–158
- Turing, A.M., On Computable Numbers, with an Application to the Entscheidungsproblem, Proceedings of the London Mathematical Society, 2 42 (1), 1936, 42 (1): 230–651937 [2018-08-22], doi:10.1112/plms/s2-42.1.230, (原始内容存档于2004-04-03) (and Turing, A.M., On Computable Numbers, with an Application to the Entscheidungsproblem: A correction, Proceedings of the London Mathematical Society, 2 43 (6), 1938, 43 (6): 544–61937, doi:10.1112/plms/s2-43.6.544). Computable numbers (and Turing's a-machines) were introduced in this paper; the definition of computable numbers uses infinite decimal sequences.
- Klaus Weihrauch 2000, Computable analysis, Texts in theoretical computer science, Springer, ISBN 3-540-66817-9. §1.3.2 introduces the definition by nested sequences of intervals converging to the singleton real. Other representations are discussed in §4.1.
- Klaus Weihrauch, A simple introduction to computable analysis
- H. Gordon Rice. "Recursive real numbers." Proceedings of the American Mathematical Society 5.5 (1954): 784-791.
- V. Stoltenberg-Hansen, J. V. Tucker "Computable Rings and Fields" in Handbook of computability theory edited by E.R. Griffor. Elsevier 1999