Computing the Geometric Intersection Number of Curves

Author:

Despré Vincent1,Lazarus Francis2

Affiliation:

1. Université de Nancy, Nancy, France

2. CNRS, Grenoble, France

Abstract

The geometric intersection number of a curve on a surface is the minimal number of self-intersections of any homotopic curve, i.e., of any curve obtained by continuous deformation. Given a curve c represented by a closed walk of length at most ℓ on a combinatorial surface of complexity n , we describe simple algorithms to (1) compute the geometric intersection number of c in O ( n + ℓ 2 ) time, (2) construct a curve homotopic to c that realizes this geometric intersection number in O ( n +ℓ 4 ) time, and (3) decide if the geometric intersection number of c is zero, i.e., if c is homotopic to a simple curve, in O ( n +ℓ log ℓ) time. The algorithms for (2) and (3) are restricted to orientable surfaces, but the algorithm for (1) is also valid on non-orientable surfaces. To our knowledge, no exact complexity analysis had yet appeared on those problems. An optimistic analysis of the complexity of the published algorithms for problems (1) and (3) gives at best a O ( n + g 22 ) time complexity on a genus g surface without boundary. No polynomial time algorithm was known for problem (2) for surfaces without boundary. Interestingly, our solution to problem (3) provides a quasi-linear algorithm to a problem raised by Poincaré more than a century ago. Finally, we note that our algorithm for problem (1) extends to computing the geometric intersection number of two curves of length at most ℓ in O ( n + ℓ 2 ) time.

Publisher

Association for Computing Machinery (ACM)

Subject

Artificial Intelligence,Hardware and Architecture,Information Systems,Control and Systems Engineering,Software

Cited by 3 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. A Lagrangian filling for every cluster seed;Inventiones mathematicae;2024-05-27

2. Geometric intersections of loops on surfaces;Topology and its Applications;2022-08

3. Algorithms for Contractibility of Compressed Curves on 3-Manifold Boundaries;Discrete & Computational Geometry;2022-07-18

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