Russ Woodroofe scite author profile

Abstract. Inspired by several recent papers on the edge ideal of a graph , we study the equivalent notion of the independence complex of . Using the tool of vertex decomposability from geometric combinatorics, we show that 5-chordal graphs with no chordless 4-cycles are shellable and sequentially CohenMacaulay. We use this result to characterize the obstructions to shellability in flag complexes, extending work of Billera, Myers, and Wachs. We also show how vertex decomposability may be used to show that certain graph constructions preserve shellability.

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Matchings, coverings, and Castelnuovo-Mumford regularity

Woodroofe¹

2014

J. Commut. Algebra

121

104

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We show that the co-chordal cover number of a graph G gives an upper bound for the Castelnuovo-Mumford regularity of the associated edge ideal. Several known combinatorial upper bounds of regularity for edge ideals are then easy consequences of covering results from graph theory, and we derive new upper bounds by looking at additional covering results.Comment: 12 pages; v4 has minor changes for publicatio

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Chordal and Sequentially Cohen-Macaulay Clutters

Woodroofe¹

2011

Electron. J. Combin.

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Mathematics Subject Classifications: 05E45, 13F55, 13C14, 05C65. AbstractWe extend the definition of chordal from graphs to clutters. The resulting family generalizes both chordal graphs and matroids, and obeys many of the same algebraic and geometric properties. Specifically, the independence complex of a chordal clutter is shellable, hence sequentially Cohen-Macaulay; and the circuit ideal of a certain complement to such a clutter has a linear resolution. Minimal non-chordal clutters are also closely related to obstructions to shellability, and we give some general families of such obstructions, together with a classification by computation of all obstructions to shellability on 6 vertices.

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The geometric maximum traveling salesman problem

Barvinok

Fekete

Johnson

et al. 2003

J. ACM

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We consider the traveling salesman problem when the cities are points in R d for some fixed d and distances are computed according to geometric distances, determined by some norm. We show that for any polyhedral norm, the problem of finding a tour of maximum length can be solved in polynomial time. If arithmetic operations are assumed to take unit time, our algorithms run in time O(n f −2 log n), where f is the number of facets of the polyhedron determining the polyhedral norm. Thus for example we have O(n 2 log n) algorithms for the cases of points in the plane under the Rectilinear and Sup norms. This is in contrast to the fact that finding a minimum length tour in each case is NP-hard. Our approach can be extended to the more general case of quasi-norms with not necessarily symmetric unit ball, where we get a complexity of O(n 2f −2 log n). For the special case of two-dimensional metrics with f = 4 (which includes the Rectilinear and Sup norms), we present a simple algorithm with O(n) running time. The algorithm does not use any indirect addressing, so its running time remains valid even in comparison based models in which sorting requires Ω(n log n) time. The basic mechanism of the algorithm provides some intuition on why polyhedral norms allow fast algorithms. * Preliminary versions of parts of this paper appear in the Proceedings of IPCO'98 [7] and SODA'99 [12].

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Results on the regularity of square-free monomial ideals

Harbourne

Woodroofe

2014

Advances in Applied Mathematics

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Abstract. In a 2008 paper, the first author and Van Tuyl proved that the regularity of the edge ideal of a graph G is at most one greater than the matching number of G. In this note, we provide a generalization of this result to any square-free monomial ideal. We define a 2-collage in a simple hypergraph to be a collection of edges with the property that for any edge E of the hypergraph, there exists an edge F in the 2-collage such that |E \ F | ≤ 1. The Castelnuovo-Mumford regularity of the edge ideal of a simple hypergraph is bounded above by a multiple of the minimum size of a 2-collage. We also give a recursive formula to compute the regularity of a vertex-decomposable hypergraph. Finally, we show that regularity in the graph case is bounded by a certain statistic based on maximal packings of nondegenerate star subgraphs.

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Russ Woodroofe

Vertex decomposable graphs and obstructions to shellability

Matchings, coverings, and Castelnuovo-Mumford regularity

Chordal and Sequentially Cohen-Macaulay Clutters

The geometric maximum traveling salesman problem

Results on the regularity of square-free monomial ideals

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