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Specker sequence : ウィキペディア英語版
Specker sequence

In computability theory, a Specker sequence is a computable, monotonically increasing, bounded sequence of rational numbers whose supremum is not a computable real number. The first example of such a sequence was constructed by Ernst Specker in 1949.
The existence of Specker sequences has consequences for computable analysis. The fact that such sequences exist means that the collection of all computable real numbers does not satisfy the least upper bound principle of real analysis, even when considering only computable sequences. A common way to resolve this difficulty is to consider only sequences that are accompanied by a modulus of convergence; no Specker sequence has a computable modulus of convergence.
The least upper bound principle has also been analyzed in the program of reverse mathematics, where the exact strength of this principle has been determined. In the terminology of that program, the least upper bound principle is equivalent to ACA0 over RCA0.
== Construction ==

The following construction is described by Kushner (1984). Let ''A'' be any recursively enumerable set of natural numbers that is not decidable, and let (''a''''i'') be a computable enumeration of ''A'' without repetition. Define a sequence (''q''''n'') of rational numbers with the rule
:q_n = \sum_^n 2^.
It is clear that each ''q''''n'' is nonnegative and rational, and that the sequence ''q''''n'' is strictly increasing. Moreover, because ''a''''i'' has no repetition, it is possible to estimate each ''q''''n'' against the series
:\sum_^\infty 2^ = 1.
Thus the sequence (''q''''n'') is bounded above by 1. Classically, this means that ''q''''n'' has a supremum ''x''.
It is shown that ''x'' is not a computable real number. The proof uses a particular fact about computable real numbers. If ''x'' were computable then there would be a computable function ''r''(''n'') such that |''q''''j'' - ''q''''i''| < 1/''n'' for all ''i'',''j'' > ''r''(''n''). To compute ''r'', compare the binary expansion of ''x'' with the binary expansion of ''q''''i'' for larger and larger values of ''i''. The definition of ''q''''i'' causes a single binary digit to go from 0 to 1 each time ''i'' increases by 1. Thus there will be some ''n'' where a large enough initial segment of ''x'' has already been determined by ''q''''n'' that no additional binary digits in that segment could ever be turned on, which leads to an estimate on the distance between ''q''''i'' and ''q''''j'' for ''i'',''j'' > ''n''.
If any such a function ''r'' were computable, it would lead to a decision procedure for ''A'', as follows. Given an input ''k'', compute ''r''(2''k''+1). Note that if ''k'' were to appear in the sequence (''a''''i''), this would cause the sequence (''q''''i'') to increase by 2−''k''-1, but this cannot happen once all the elements of (''q''''i'') are within 2−''k''-1 of each other. Thus, if ''k'' is going to be enumerated into ''a''''i'', it must be enumerated for a value of ''i'' less than ''r''(2k+1). This leaves a finite number of possible places where ''k'' could be enumerated. To complete the decision procedure, check these in an effective manner and the return 0 or 1 depending on whether ''k'' is found.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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