A simple quadratic kernel for Token Jumping on surfaces
Abstract
The problem Token Jumping asks whether, given a graph G and two independent sets of tokens I and J of G, we can transform I into J by changing the position of a single token in each step and having an independent set of tokens throughout. We show that there is a polynomial-time algorithm that, given an instance of Token Jumping, computes an equivalent instance of size O(g2 + gk + k2), where g is the genus of the input graph and k is the size of the independent sets.
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