Improved Approximation Algorithms for Individually Fair Clustering

Abstract

We consider the k-clustering problem with _p-norm cost, which includes k-median, k-means and k-center, under an individual notion of fairness proposed by Jung et al. [2020]: given a set of points P of size n, a set of k centers induces a fair clustering if every point in P has a center among its n/k closest neighbors. Mahabadi and Vakilian [2020] presented a (p^O(p),7)-bicriteria approximation for fair clustering with _p-norm cost: every point finds a center within distance at most 7 times its distance to its (n/k)-th closest neighbor and the _p-norm cost of the solution is at most p^O(p) times the cost of an optimal fair solution. In this work, for any >0, we present an improved (16^p +,3)-bicriteria for this problem. Moreover, for p=1 (k-median) and p= (k-center), we present improved cost-approximation factors 7.081+ and 3+ respectively. To achieve our guarantees, we extend the framework of [Charikar et al., 2002, Swamy, 2016] and devise a 16^p-approximation algorithm for the facility location with _p-norm cost under matroid constraint which might be of an independent interest. Besides, our approach suggests a reduction from our individually fair clustering to a clustering with a group fairness requirement proposed by Kleindessner et al. [2019], which is essentially the median matroid problem [Krishnaswamy et al., 2011].

Tasks

Reproductions