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The School of Computing
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On the independence number of graphs with maximum degree 3
CTIPageSubheading
Title:
On the independence number of graphs with maximum degree 3
Reference:
Authors:
CTIResearchPaperAuthors
Iyad A. Kanj and Fenghui Zhang
Abstract:
Abstract
Let G be an undirected graph with maximum degree at most 3 such that G does not contain any of the three graphs shown in Figure 1 as a subgraph. We prove that the independence number of G is at least n(G)/3 + nt(G)/42, where n(G) is the number of vertices in G and nt(G) is the number of nontriangle vertices in G. This bound is tight as implied by the well-known tight lower bound of 5n(G)/14 on the independence number of triangle-free graphs of maximum degree at most 3.
We show an algorithmic application of the aforementioned combinatorial result to the area of parameterized complexity. We present a linear-time kernelization algorithm for the independent set problem on graphs with maximum degree at most 3 that computes a kernel of size at most
420 k/141 < 3k, where k is the given parameter. This improves the known 3k upper bound on the kernel size for the problem.
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