Computing Bi-Lipschitz Outlier Embeddings into the Line

Abstract

The problem of computing a bi-Lipschitz embedding of a graphical metric into the line with minimum distortion has received a lot of attention. The best-known approximation algorithm computes an embedding with distortion O(c2), where c denotes the optimal distortion [Badoiu ηl~2005]. We present a bi-criteria approximation algorithm that extends the above results to the setting of outliers. Specifically, we say that a metric space (X,) admits a (k,c)-embedding if there exists K⊂ X, with |K|=k, such that (X K, ) admits an embedding into the line with distortion at most c. Given k≥ 0, and a metric space that admits a (k,c)-embedding, for some c≥ 1, our algorithm computes a ( p o l y(k, c, n), p o l y(c))-embedding in polynomial time. This is the first algorithmic result for outlier bi-Lipschitz embeddings. Prior to our work, comparable outlier embeddings where known only for the case of additive distortion.