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Lower Bounds for Protrusion Replacement by Counting Equivalence Classes * †
unpublished
Garnero et al. [SIAM J. Discrete Math. 2015, 29(4):1864-1894] recently introduced a framework based on dynamic programming to make applications of the protrusion replacement technique constructive and to obtain explicit upper bounds on the involved constants. They show that for several graph problems, for every boundary size t one can find an explicit set R t of representatives. Any subgraph H with a boundary of size t can be replaced with a representative H ∈ R t such that the effect of this
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