The Nemhauser-Trotter local optimization theorem applies to the NP-hard Vertex Cover problem and has applications in approximation as well as parameterized algorithmics. We generalize Nemhauser and Trotters result to vertex deletion problems, introducing a novel algorithmic strategy based on purely combinatorial arguments (not referring to linear programming as the Nemhauser-Trotter result originally did). The essence of our strategy can be understood as a doubly iterative process of cutting away "easy parts" of the input instance, finally leaving a "hard core" whose size is (almost) linearly related to the cardinality of the solution set. We exhibit our approach using a generalization of Vertex Cover, called Bounded-Degree Vertex Deletion. For some fixed d≥0, Bounded-Degree Vertex Deletion asks to delete at most k vertices from a graph in order to transform it into a graph with maximum vertex degree at most d. Vertex Cover is the special case of d=0. Our generalization of the Nemhauser-Trotter-Theorem implies that Bounded-Degree Vertex Deletion, parameterized by k, admits an O(k)-vertex problem kernel for d≤1 and, for any ω>0, an O(k1+ω)-vertex problem kernel for d≥2. Finally, we provide a W[2]-completeness result for Bounded-Degree Vertex Deletion in case of unbounded d-values. © 2010 Elsevier Inc.
CITATION STYLE
Fellows, M. R., Guo, J., Moser, H., & Niedermeier, R. (2011). A generalization of Nemhauser and Trotters local optimization theorem. Journal of Computer and System Sciences, 77(6), 1141–1158. https://doi.org/10.1016/j.jcss.2010.12.001
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