递归不变β-递归理论

Wolfgand Maass
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引用次数: 4

摘要

引入递归不变β-递归理论,作为对任意极限序β递归理论的一种新方法。我们遵循Friedman和Sacks,称β β的子集为递归可枚举的,如果它在Lβ上是Σ1-definable。由于弗里德曼-萨克斯关于β-有限集的概念在β的β-递归置换下不是不变的,我们转向一个不同的概念。在有限的所有可能的不变推广中,有一个规范的推广,我们称之为i-finite。在不可接受的情况下,我们进一步考虑Kreisel、Moschovakis等人早先提出的有限推广的充分性准则。我们研究了不可容集Lβ上的无穷语言及其紧性定理,用模型论的不变性描述了β-递归理论的基本概念,用方程微积分和计算理论的公理定义了β-递归理论。结果是,在所有这些方法中,有限集分别是β的子集它们表现得像有限集。不变β-递归理论包含经典递归理论和α-递归理论作为特例。在本文的第二部分,我们开始系统地发展所有极限序数β的不变β-递归理论。我们特别研究了i度,它推广了图灵度和α-度。除了0 (β-递归集的次数)和0 ' (β-递归集的最大次数)。度)存在无可比拟的β-r。每个极限有序β的i度。类似于从ω到α的步骤分别引起正则集的引入,我们在不变β-递归理论中得到了i-绝对β-r的新概念。e组。这个概念对于描述超规则β-r - e之间的区别是有用的。只在不可采的情况下发生的集合。对于那些强烈不可接受的β(即σ1 cf β<β *), i度的研究是最困难的。对于那些强不可容许的β,其中β *是正则的,我们给出了两个新的结构,它们严重依赖于正则基的组合性质(闭无界集和Δ-System引理)。我们构造一个β-r。学位a >0使得阶b≤a不包含一个简单集合,并证明了简单β-r的分裂定理。集。我们基于1-有限集的一般概念,给出了简单集的定义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recursively invariant β-recursion theory

We introduce recursively invariant β-recursion theory as a new approach towards recursion theory on an arbitraty limit ordinal β. We follow Friedman and Sacks and call a subset of β β-recursively enumerable if it is Σ1-definable over Lβ. Since Friedman-Sacks' notion of a β-finite set is not invariant under β-recursive permutations of β we turn to a different notion. Under all possible invariant generalizations of finite there is a canonical one which we call i-finite. We consider further in the inadmissible case those criteria for the adequacy of generalizations of finite which have earlier been developed by Kreisel, Moschovakis and others. We look at infinitary languages over inadmissible sets Lβ and the compactness theorem for these languages, the characterization of the basic notions of β-recursion theory in terms of model theoretic invariance, the definition of β-recursion theory via an equation calculus and axioma for computation theories. In turns out that in all these approaches the i-finite sets are those subsets of β respectively Lβ which behave like finite sets.

Invariant β-recursion theory contains classical recursion theory and α-recursion theory as special cases. We start in the second half of this paper the systematic development of invariant β-recursion theory for all limit ordinals β. We study in particular i-degrees, which generalize Turing degrees and α-degrees. Besides 0 (the degree of β-recursive sets) and 0′ (the largest β-r.e. degree) there exist incomparable β-r.e. i-degrees for every limit ordinal β. Similar as the step from ω to α gave rise to the introduction of regular respectively hyperregular sets we arrive in invariant β-recursion theory at the new notion of an i-absolute β-r.e sets. This notion is useful in order to describe a difference among hyperregular β-r.e. sets which occurs exclusively in the inadmissible case. The study of i-degrees is most difficult for those β which are strongly inadmissible (i.e. σ1 cf β<β). For those strongly inadmissible β where β is regular we give two new constructions which rely heavily in the combinatorial properties of regular cardinals (◊, closed unbounded sets and the Δ-System lemma). We construct a β-r.e. degree a > 0 such that no degree ba contains a simple set and we prove a splitting theorem for simple β-r.e. sets. We base the definition of a simple set on the general notion of a 1-finite set.

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