Approximating Vertex Cover using Structural Rounding

September 10, 2019 Β· Declared Dead Β· πŸ› Workshop on Algorithm Engineering and Experimentation

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Authors Brian Lavallee, Hayley Russell, Blair D. Sullivan, Andrew van der Poel arXiv ID 1909.04611 Category cs.DS: Data Structures & Algorithms Citations 3 Venue Workshop on Algorithm Engineering and Experimentation Last Checked 4 months ago
Abstract
In this work, we provide the first practical evaluation of the structural rounding framework for approximation algorithms. Structural rounding works by first editing to a well-structured class, efficiently solving the edited instance, and "lifting" the partial solution to recover an approximation on the input. We focus on the well-studied Vertex Cover problem, and edit to the class of bipartite graphs (where Vertex Cover has an exact polynomial time algorithm). In addition to the naive lifting strategy for Vertex Cover described by Demaine et al., we introduce a suite of new lifting strategies and measure their effectiveness on a large corpus of synthetic graphs. We find that in this setting, structural rounding significantly outperforms standard 2-approximations. Further, simpler lifting strategies are extremely competitive with the more sophisticated approaches. The implementations are available as an open-source Python package, and all experiments are replicable.
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