伽罗瓦格中形式概念稳定性的有效评估

IF 2.4 4区计算机科学 Q2 COMPUTER SCIENCE, THEORY & METHODS

International Journal of General Systems Pub Date : 2022-07-31 DOI:10.1080/03081079.2022.2084728

Amira Mouakher, Andrea Kő

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引用次数: 1

摘要

形式概念分析（FCA）是一种用于分析数据和形式化表示概念知识的数学工具。在这种形式下，概念稳定性度量可以用于许多应用：社区检测、噪声数据中的模式选择、患者护理轨迹和类似对象的双聚类等。然而，计算稳定性是一个#P-完全问题。因此，大多数现有的研究要么集中在使用一些启发式方法来估计这个度量，要么提出递归方法来评估稳定性的确切值。在本文中，我们介绍了一种称为Galois格Esc-Gl的精确稳定性计算算法，用于计算给定基本偏关系的形式概念的稳定性。基于给定概念的下盖，该算法可以提高可扩展性，降低计算复杂度。我们在FCA领域的大型基准数据集上进行的实验表明，我们的贡献大大超过了专门文献中的所有开创性方法。

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Efficient assessment of formal concept stability in the Galois lattice

Formal concept analysis (FCA) is a mathematical tool for analyzing data and formally representing conceptual knowledge. Under this formalism, the concept stability metric can be used in many applications: community detection, pattern selection in noisy data, patient care trajectories, and biclusters of similar objects, etc. However, computing the stability is a #P-complete problem. Therefore, most existing studies have focused either on estimating this metric using some heuristics or by proposing recursive approaches to assess the exact value of the stability. In this paper, we introduce an algorithm called the Exact Stability Computing for Galois Lattice Esc-Gl for computing the stability of a formal concept given the underlying partial relation. Based on the lower cover of a given concept, the algorithm can improve scalability and reduce computational complexity. Our experiments performed on large benchmark datasets from the FCA field show that our contributions sharply outperform all the pioneering approaches of the dedicated literature.

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来源期刊

International Journal of General Systems 工程技术-计算机：理论方法

CiteScore

4.10

自引率

20.00%

发文量

审稿时长

6 months

期刊介绍： International Journal of General Systems is a periodical devoted primarily to the publication of original research contributions to system science, basic as well as applied. However, relevant survey articles, invited book reviews, bibliographies, and letters to the editor are also published. The principal aim of the journal is to promote original systems ideas (concepts, principles, methods, theoretical or experimental results, etc.) that are broadly applicable to various kinds of systems. The term “general system” in the name of the journal is intended to indicate this aim–the orientation to systems ideas that have a general applicability. Typical subject areas covered by the journal include: uncertainty and randomness; fuzziness and imprecision; information; complexity; inductive and deductive reasoning about systems; learning; systems analysis and design; and theoretical as well as experimental knowledge regarding various categories of systems. Submitted research must be well presented and must clearly state the contribution and novelty. Manuscripts dealing with particular kinds of systems which lack general applicability across a broad range of systems should be sent to journals specializing in the respective topics.