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Parameterized algorithms for k - path counting

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dc.contributor.author Bhalerao, Omkar
dc.date.accessioned 2023-07-17T12:49:45Z
dc.date.available 2023-07-17T12:49:45Z
dc.date.issued 2022-07
dc.identifier.citation 41p. en_US
dc.identifier.uri http://hdl.handle.net/10263/7391
dc.description Dissertation under the supervision of Dr. Arijit Ghosh and Prof. Saket Saurabh en_US
dc.description.abstract The problem of counting the number of subgraphs of a specific kind within an input graph G = (V,E) has been extensively studied in literature. However, when it comes to designing good algorithms for such problems, even the most simple cases, such as counting k - paths pose some challenges. One of the many possible ways to cope with the hardness of such problems is by studying them from the lens of Parameterized algorithms. In this thesis, we explore FPT approximation schemes (FPT-AS) for counting k - paths in G. In the first part, we look at additional parameterizations for the problem of k - path counting. In particular, for directed graphs, we design a randomized FPT-AS, whose running time depends upon the size of the hitting set for all k - paths in the graph, along with the parameter k. In case of undirected graphs, we design a randomized FPT-AS, with running time dependent on k and the size of the max-cut in G, conditioned on the existence of efficient sensitivity oracles of certain kind. For both these algorithms, our primary tool is the KNAPSACK problem. In the second part of the thesis, we look at the problem of counting the number of isomorphic copies of a connected subgraph on k vertices within graphs of bounded degree. We do so by introducing the notion of a subgraph-separating family, which is a natural extension to the Random-Separation technique. Subsequently, by establishing its equivalence with parsimonious families in regular graphs, we design a deterministic FPT-AS for #k-PATH. iii en_US
dc.language.iso en en_US
dc.publisher Indian Statistical Institute, Kolkata en_US
dc.relation.ispartofseries Dissertation;2022-15
dc.subject Parameterized algorithms en_US
dc.subject k - path counting en_US
dc.title Parameterized algorithms for k - path counting en_US
dc.type Other en_US


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