On the logical and computational properties of the Vitali covering theorem

IF 0.6 2区数学 Q2 LOGIC

Annals of Pure and Applied Logic Pub Date : 2024-08-12 DOI:10.1016/j.apal.2024.103505

Dag Normann , Sam Sanders

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引用次数: 0

Abstract

We study a version of the Vitali covering theorem, which we call $WHBU$ and which is a direct weakening of the Heine-Borel theorem for uncountable coverings, called $HBU$ . We show that $WHBU$ is central to measure theory by deriving it from various central approximation results related to Littlewood's three principles. A natural question is then how hard it is to prove $WHBU$ (in the sense of Kohlenbach's higher-order Reverse Mathematics), and how hard it is to compute the objects claimed to exist by $WHBU$ (in the sense of Kleene's computation schemes S1-S9). The answer to both questions is ‘extremely hard’, as follows: on one hand, in terms of the usual scale of (conventional) comprehension axioms, $WHBU$ is only provable using Kleene's $\exists^{3}$ , which implies full second-order arithmetic. On the other hand, realisers (aka witnessing functionals) for $WHBU$ , so-called Λ-functionals, are computable from Kleene's $\exists^{3}$ , but not from weaker comprehension functionals. Despite this hardness, we show that $WHBU$ , and certain Λ-functionals, behave much better than $HBU$ and the associated class of realisers, called Θ-functionals. In particular, we identify a specific Λ-functional called $Λ_{S}$ which adds no computational power to the Suslin functional, in contrast to Θ-functionals. Finally, we introduce a hierarchy involving Θ-functionals and $HBU$ .

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论维塔利覆盖定理的逻辑和计算特性

我们研究了维塔利覆盖定理的一个版本，我们称之为 WHBU，它是不可数覆盖的海涅-伯勒尔定理（Heine-Borel theorem）的直接弱化，称之为 HBU。我们从与利特尔伍德三大原则相关的各种中心逼近结果中推导出 WHBU，从而证明 WHBU 是度量理论的核心。那么，一个自然的问题是，证明 WHBU 有多难（在科伦巴赫的高阶反演数学的意义上），以及计算 WHBU 声称存在的对象有多难（在克莱因的计算方案 S1-S9 的意义上）。这两个问题的答案都是 "极难"，具体如下：一方面，就（传统）理解公理的通常尺度而言，只有使用克莱因的 ∃3才能证明 WHBU，这意味着完全的二阶算术。另一方面，WHBU 的实现者（又称见证函数），即所谓的Λ-函数，可以用克莱因的∃3 计算，但不能用较弱的理解函数计算。尽管存在这种困难，我们还是证明了 WHBU 和某些 Λ 函数的表现比 HBU 和相关的实现者（称为 Θ 函数）要好得多。特别是，我们发现了一种称为ΛS的特定Λ函数，与Θ函数相比，它不会增加苏斯林函数的计算能力。最后，我们介绍了涉及 Θ 函数和 HBU 的层次结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Annals of Pure and Applied Logic 数学-数学

CiteScore

1.40

自引率

12.50%

发文量

审稿时长

200 days

期刊介绍： The journal Annals of Pure and Applied Logic publishes high quality papers in all areas of mathematical logic as well as applications of logic in mathematics, in theoretical computer science and in other related disciplines. All submissions to the journal should be mathematically correct, well written (preferably in English)and contain relevant new results that are of significant interest to a substantial number of logicians. The journal also considers submissions that are somewhat too long to be published by other journals while being too short to form a separate memoir provided that they are of particular outstanding quality and broad interest. In addition, Annals of Pure and Applied Logic occasionally publishes special issues of selected papers from well-chosen conferences in pure and applied logic.