Approximation algorithms for maximum independent set of a unit disk graph

Abstract

We propose a 2-approximation algorithm for the maximum independent set problem for a unit disk graph. The time and space complexities are O(n3) and O(n2), respectively. For a penny graph, our proposed 2-approximation algorithm works in O(nlog⁡n) time using O(n) space. We also propose a polynomial-time approximation scheme (PTAS) for the maximum independent set problem for a unit disk graph. Given an integer k>1, it produces a solution of size 1(1+1k)2|OPT| in O(k4nσklog⁡k+nlog⁡n) time and O(n+klog⁡k) space, where OPT is the subset of disks in an optimal solution and σk≤7k3+2. For a penny graph, the proposed PTAS produces a solution of size 1(1+1k)|OPT| in O(22σknk+nlog⁡n) time using O(2σk+n) space.