Robustness, Scott continuity, and computability

IF 0.4 4区 计算机科学 Q4 COMPUTER SCIENCE, THEORY & METHODS Mathematical Structures in Computer Science Pub Date : 2023-06-01 DOI:10.1017/s0960129523000233
Amin Farjudian, Eugenio Moggi
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Abstract

Abstract Robustness is a property of system analyses, namely monotonic maps from the complete lattice of subsets of a (system’s state) space to the two-point lattice. The definition of robustness requires the space to be a metric space. Robust analyses cannot discriminate between a subset of the metric space and its closure; therefore, one can restrict to the complete lattice of closed subsets. When the metric space is compact, the complete lattice of closed subsets ordered by reverse inclusion is $\omega$ -continuous, and robust analyses are exactly the Scott-continuous maps. Thus, one can also ask whether a robust analysis is computable (with respect to a countable base). The main result of this paper establishes a relation between robustness and Scott continuity when the metric space is not compact. The key idea is to replace the metric space with a compact Hausdorff space, and relate robustness and Scott continuity by an adjunction between the complete lattice of closed subsets of the metric space and the $\omega$ -continuous lattice of closed subsets of the compact Hausdorff space. We demonstrate the applicability of this result with several examples involving Banach spaces.
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鲁棒性,斯科特连续性和可计算性
鲁棒性是系统分析的一个性质,即从一个(系统状态)空间子集的完备格到两点格的单调映射。鲁棒性的定义要求空间是度量空间。鲁棒分析不能区分度量空间的子集及其闭包;因此,可以限定为闭子集的完备格。当度量空间紧化时,由反向包含排序的闭子集的完备格是连续的,鲁棒分析正是scott -连续映射。因此,人们也可以问一个鲁棒分析是否可计算(相对于可数基)。本文的主要结果建立了度量空间不紧时鲁棒性与Scott连续性之间的关系。其核心思想是将度量空间替换为紧致Hausdorff空间,并通过紧致Hausdorff空间的闭子集的完备格与紧致Hausdorff空间的闭子集的$ $连续格之间的附加关系将鲁棒性和Scott连续性联系起来。我们用几个涉及Banach空间的例子证明了这一结果的适用性。
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来源期刊
Mathematical Structures in Computer Science
Mathematical Structures in Computer Science 工程技术-计算机:理论方法
CiteScore
1.50
自引率
0.00%
发文量
30
审稿时长
12 months
期刊介绍: Mathematical Structures in Computer Science is a journal of theoretical computer science which focuses on the application of ideas from the structural side of mathematics and mathematical logic to computer science. The journal aims to bridge the gap between theoretical contributions and software design, publishing original papers of a high standard and broad surveys with original perspectives in all areas of computing, provided that ideas or results from logic, algebra, geometry, category theory or other areas of logic and mathematics form a basis for the work. The journal welcomes applications to computing based on the use of specific mathematical structures (e.g. topological and order-theoretic structures) as well as on proof-theoretic notions or results.
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