Streaming Deletion Problems Parameterized by Vertex Cover

Oostveen, Jelle J.; Leeuwen, Erik Jan van

doi:10.1007/978-3-030-86593-1_29

Fundamentals of Computation Theory

2021

DOI: 10.1007/978-3-030-86593-1_29

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Streaming Deletion Problems Parameterized by Vertex Cover

Jelle J. Oostveen

Erik Jan van Leeuwen

Abstract: Streaming is a model where an input graph is provided one edge at a time, instead of being able to inspect it at will. In this work, we take a parameterized approach by assuming a vertex cover of the graph is given, building on work of Bishnu et al. [COCOON 2020]. We show the further potency of combining this parameter with the Adjacency List streaming model to obtain results for vertex deletion problems. This includes kernels, parameterized algorithms, and lower bounds for the problems of Π-free Deletion, H-f… Show more

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2024

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Cited by 1 publication

References 37 publications

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Parameterized Complexity of Streaming Diameter and Connectivity Problems

Oostveen,

van Leeuwen

2024

Algorithmica

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We initiate the investigation of the parameterized complexity of Diameter and Connectivity in the streaming paradigm. On the positive end, we show that knowing a vertex cover of size k allows for algorithms in the Adjacency List (AL) streaming model whose number of passes is constant and memory is $$\mathcal {O}(\log n)$$ O ( log n ) for any fixed k. Underlying these algorithms is a method to execute a breadth-first search in $$\mathcal {O}(k)$$ O ( k ) passes and $$\mathcal {O}(k \log n)$$ O ( k log n ) bits of memory. On the negative end, we show that many other parameters lead to lower bounds in the AL model, where $$\Omega (n/p)$$ Ω ( n / p ) bits of memory is needed for any p-pass algorithm even for constant parameter values. In particular, this holds for graphs with a known modulator (deletion set) of constant size to a graph that has no induced subgraph isomorphic to a fixed graph H, for most H. For some cases, we can also show one-pass, $$\Omega (n \log n)$$ Ω ( n log n ) bits of memory lower bounds. We also prove a much stronger $$\Omega (n^2/p)$$ Ω ( n 2 / p ) lower bound for Diameter on bipartite graphs. Finally, using the insights we developed into streaming parameterized graph exploration algorithms, we show a new streaming kernelization algorithm for computing a vertex cover of size k. This yields a kernel of 2k vertices (with $$\mathcal {O}(k^2)$$ O ( k 2 ) edges) produced as a stream in $$\text {poly}(k)$$ poly ( k ) passes and only $$\mathcal {O}(k \log n)$$ O ( k log n ) bits of memory.

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Parameterized Complexity of Streaming Diameter and Connectivity Problems

Oostveen,

van Leeuwen

2024

Algorithmica

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Streaming Deletion Problems Parameterized by Vertex Cover

Cited by 1 publication

References 37 publications

Parameterized Complexity of Streaming Diameter and Connectivity Problems

Parameterized Complexity of Streaming Diameter and Connectivity Problems

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