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Related papers: Computing Matveev's complexity via crystallization…

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The idea of computing Matveev complexity by using Heegaard decompositions has been recently developed by two different approaches: the first one for closed 3-manifolds via crystallization theory, yielding the notion of Gem-Matveev…

Geometric Topology · Mathematics 2014-02-04 Maria Rita Casali , Paola Cristofori , Michele Mulazzani

The notion of Gem-Matveev complexity has been introduced within crystallization theory, as a combinatorial method to estimate Matveev's complexity of closed 3-manifolds; it yielded upper bounds for interesting classes of such manifolds. In…

Geometric Topology · Mathematics 2014-02-04 Maria Rita Casali , Paola Cristofori

We compute for all orientable irreducible geometric 3-manifolds certain complexity functions that approximate from above Matveev's natural complexity, known to be equal to the minimal number of tetrahedra in a triangulation. We can show…

Geometric Topology · Mathematics 2011-09-06 Bruno Martelli , Carlo Petronio

We give a summary of known results on Matveev's complexity of compact 3-manifolds. The only relevant new result is the classification of all closed orientable irreducible 3-manifolds of complexity 10.

Geometric Topology · Mathematics 2011-09-06 Bruno Martelli

We give an upper bound for the Matveev complexity of the whole class of closed connected orientable prime graph manifolds that is sharp for all 14502 graph manifolds of the Recognizer catalogue (available at…

Geometric Topology · Mathematics 2019-05-02 Alessia Cattabriga , Michele Mulazzani

The present paper follows the computational approach to 3-manifold classification via edge-coloured graphs, already performed by several authors with respect to orientable 3-manifolds up to 28 coloured tetrahedra, non-orientable 3-manifolds…

Geometric Topology · Mathematics 2012-03-02 M. R. Casali , P. Cristofori

The graph complexity of a compact 3-manifold is defined as the minimum order among all 4-colored graphs representing it. Exact calculations of graph complexity have been already performed, through tabulations, for closed orientable…

Geometric Topology · Mathematics 2017-12-06 P. Cristofori , E. Fominykh , M. Mulazzani , V. Tarkaev

We present the census of all non-orientable, closed, connected 3-manifolds admitting a rigid crystallization with at most 30 vertices. In order to obtain the above result, we generate, manipulate and compare, by suitable computer…

Geometric Topology · Mathematics 2012-03-02 Paola Bandieri , Paola Cristofori , Carlo Gagliardi

We extend Matveev's theory of complexity for 3-manifolds, based on simple spines, to (closed, orientable, locally orientable) 3-orbifolds. We prove naturality and finiteness for irreducible 3-orbifolds, and, with certain restrictions and…

Geometric Topology · Mathematics 2011-01-18 Carlo Petronio

Virtual $3$-manifolds were introduced by S.V. Matveev in 2009 as natural generalizations of the classical $3$-manifolds. In this paper, we introduce a notion of complexity of a virtual $3$-manifold. We investigate the values of the…

Geometric Topology · Mathematics 2016-09-23 Evgeny Fominykh , Vladimir Turaev , Andrei Vesnin

The triangulation complexity of a closed orientable 3-manifold is the minimal number of tetrahedra in any triangulation of the manifold. The main theorem of the paper gives upper and lower bounds on the triangulation complexity of any…

Geometric Topology · Mathematics 2024-07-24 Marc Lackenby , Jessica S. Purcell

We describe an algorithm which has enabled us to give a complete list, without repetitions, of all closed oriented irreducible 3-manifolds of complexity up to 9. More interestingly, we have actually been able to give a "name" to each such…

Geometric Topology · Mathematics 2007-05-23 Bruno Martelli , Carlo Petronio

The triangulation complexity of a compact 3-manifold is the minimal number of tetrahedra in any triangulation of the 3-manifold. We compute the triangulation complexity of all elliptic 3-manifolds and all sol 3-manifolds, to within a…

Geometric Topology · Mathematics 2022-12-12 Marc Lackenby , Jessica S. Purcell

We deal with Matveev complexity of compact orientable 3-manifolds represented via Heegaard diagrams. This lead us to the definition of modified Heegaard complexity of Heegaard diagrams and of manifolds. We define a class of manifolds which…

Geometric Topology · Mathematics 2009-01-16 Alessia Cattabriga , Michele Mulazzani , Andrei Vesnin

For a 3-dimensional manifold $M^3$, its complexity $c(M^3)$, introduced by S.Matveev, is the minimal number of vertices of an almost simple spine of $M^3$; in many cases it is equal to the minimal number of tetrahedra in a singular…

Geometric Topology · Mathematics 2007-05-23 Sergei Anisov

Given an special type of triangulation $T$ for an oriented closed 3-manifold $M^3$ we produce a framed link in $S^3$ which induces the same $M^3$ by an algorithm of complexity $O(n^2)$ where $n$ is the number of tetrahedra in $T$ . The…

Geometric Topology · Mathematics 2013-02-21 Sóstenes Lins , Ricardo Machado

We extend Matveev's complexity of 3-manifolds to PL compact manifolds of arbitrary dimension, and we study its properties. The complexity of a manifold is the minimum number of vertices in a simple spine. We study how this quantity changes…

Geometric Topology · Mathematics 2011-09-06 Bruno Martelli

Let M be a (possibly non-orientable) compact 3-manifold with (possibly empty) boundary consisting of tori and Klein bottles. Let $X\subset\partial M$ be a trivalent graph such that $\partial M\setminus X$ is a union of one disc for each…

Geometric Topology · Mathematics 2007-05-23 Bruno Martelli , Carlo Petronio

We define an invariant, which we call surface-complexity, of compact 3-manifolds by means of Dehn surfaces. The surface-complexity is a natural number measuring how much the manifold is complicated. We prove that it fulfils interesting…

Geometric Topology · Mathematics 2025-01-03 Gennaro Amendola

We define an invariant, which we call surface-complexity, of closed 3-manifolds by means of Dehn surfaces. The surface-complexity of a manifold is a natural number measuring how much the manifold is complicated. We prove that it fulfils…

Geometric Topology · Mathematics 2019-01-30 Gennaro Amendola
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