Expansion Lemma -- Variations and Applications to Polynomial-Time Preprocessing

March 05, 2023 Β· Declared Dead Β· πŸ› Algorithms

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Authors Ashwin Jacob, Diptapriyo Majumdar, Venkatesh Raman arXiv ID 2303.02687 Category cs.DS: Data Structures & Algorithms Cross-listed cs.DM Citations 5 Venue Algorithms Last Checked 4 months ago
Abstract
In parameterized complexity, it is well-known that a parameterized problem is fixed-parameter tractable if and only if it has a kernel - an instance equivalent to the input instance, whose size is just a function of the parameter. The size of the kernel can be exponential or worse, resulting in a quest for fixed-parameter tractable problems with a polynomial-sized kernel. The developments in machinery to show lower bounds for the sizes of the kernel gave rise to the question of the asymptotically optimum size for the kernel of fixed-parameter tractable problems. In this article, we survey a tool called expansion lemma that helps in reducing the size of the kernel. Its early origin is in the form of Crown Decomposition for obtaining linear kernel for the Vertex Cover problem and the specific lemma was identified as the tool behind an optimal kernel with O(k^2) vertices and edges for the UNDIRECTED FEEDBACK VERTEX SET problem. Since then, several variations and extensions of the tool have been discovered. We survey them along with their applications in this article.
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