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A topological approach to evasiveness

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Abstract

The complexity of a digraph property is the number of entries of the vertex adjacency matrix of a digraph which must be examined in worst case to determine whether the graph has the property. Rivest and Vuillemin proved the result (conjectured by Aanderaa and Rosenberg) that every graph property that is monotone (preserved by addition of edges) and nontrivial (holds for some but not all graphs) has complexity Ω(v 2) wherev is the number of vertices. Karp conjectured that every such property is evasive, i.e., requires that every entry of the incidence matrix be examined. In this paper the truth of Karp’s conjecture is shown to follow from another conjecture concerning group actions on topological spaces. A special case of the conjecture is proved which is applied to prove Karp’s conjecture for the case of properties of graphs on a prime power number of vertices.

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Authors and Affiliations

  1. Department of Mathematics, Rutgers University, 08903, New Brunswick, NJ, U.S.A.

    Jeff Kahn & Michael Saks

  2. Department of Mathematics, University of Illinois, Chicago, U.S.A.

    Dean Sturtevant

Authors
  1. Jeff Kahn
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  2. Michael Saks
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  3. Dean Sturtevant
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Additional information

Supported in part by an NSF postdoctoral fellowship

Supported in part by NSF under grant No. MCS-8102248

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Kahn, J., Saks, M. & Sturtevant, D. A topological approach to evasiveness. Combinatorica 4, 297–306 (1984). https://doi.org/10.1007/BF02579140

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  • DOI: https://doi.org/10.1007/BF02579140

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