A generating set of Reidemeister moves of oriented virtual knots

IF 0.5 4区数学 Q3 MATHEMATICS

Topology and its Applications Pub Date : 2025-05-30 DOI:10.1016/j.topol.2025.109468

Danish Ali

引用次数: 0

Abstract

In oriented knot theory, verifying a quantity is an invariant involves checking its invariance under all oriented Reidemeister moves, a process that can be intricate and time-consuming. A generating set of oriented moves simplifies this by requiring verification for only a minimal subset from which all other moves can be derived. While generating sets for classical oriented Reidemeister moves are well-established, their virtual counterparts are less explored. In this study, we enumerate the oriented virtual Reidemeister moves, identifying seventeen distinct moves after accounting for redundancies due to rotational and combinatorial symmetries. We prove that a four-element subset serves as a generating set for these moves. This result offers a streamlined approach to verifying invariants of oriented virtual knots and lays the groundwork for future advancements in virtual knot theory, particularly in the study of invariants and their computational properties.

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有向虚节的瑞德迈斯特移动生成集

在有向结理论中，验证一个量是否为不变性涉及到在所有有向Reidemeister移动下检验其不变性，这个过程可能是复杂且耗时的。定向招式的生成集简化了这一点，它只需要验证一个最小子集，所有其他招式都可以从这个子集派生出来。虽然面向经典的Reidemeister移动的生成集已经建立，但它们的虚拟对应对象却很少被探索。在本研究中，我们列举了定向的虚拟Reidemeister移动，在考虑了由于旋转和组合对称性造成的冗余后，确定了17种不同的移动。我们证明了一个四元素子集可以作为这些移动的生成集。这一结果为验证定向虚拟结的不变量提供了一种简化的方法，并为虚拟结理论的未来发展奠定了基础，特别是在不变量及其计算性质的研究方面。

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

Topology and its Applications 数学-数学

CiteScore

1.20

自引率

33.30%

发文量

251

审稿时长

6 months

期刊介绍： Topology and its Applications is primarily concerned with publishing original research papers of moderate length. However, a limited number of carefully selected survey or expository papers are also included. The mathematical focus of the journal is that suggested by the title: Research in Topology. It is felt that it is inadvisable to attempt a definitive description of topology as understood for this journal. Certainly the subject includes the algebraic, general, geometric, and set-theoretic facets of topology as well as areas of interactions between topology and other mathematical disciplines, e.g. topological algebra, topological dynamics, functional analysis, category theory. Since the roles of various aspects of topology continue to change, the non-specific delineation of topics serves to reflect the current state of research in topology. At regular intervals, the journal publishes a section entitled Open Problems in Topology, edited by J. van Mill and G.M. Reed. This is a status report on the 1100 problems listed in the book of the same name published by North-Holland in 1990, edited by van Mill and Reed.