8 research outputs found
MapReduce and Streaming Algorithms for Diversity Maximization in Metric Spaces of Bounded Doubling Dimension
Given a dataset of points in a metric space and an integer , a diversity
maximization problem requires determining a subset of points maximizing
some diversity objective measure, e.g., the minimum or the average distance
between two points in the subset. Diversity maximization is computationally
hard, hence only approximate solutions can be hoped for. Although its
applications are mainly in massive data analysis, most of the past research on
diversity maximization focused on the sequential setting. In this work we
present space and pass/round-efficient diversity maximization algorithms for
the Streaming and MapReduce models and analyze their approximation guarantees
for the relevant class of metric spaces of bounded doubling dimension. Like
other approaches in the literature, our algorithms rely on the determination of
high-quality core-sets, i.e., (much) smaller subsets of the input which contain
good approximations to the optimal solution for the whole input. For a variety
of diversity objective functions, our algorithms attain an
-approximation ratio, for any constant , where
is the best approximation ratio achieved by a polynomial-time,
linear-space sequential algorithm for the same diversity objective. This
improves substantially over the approximation ratios attainable in Streaming
and MapReduce by state-of-the-art algorithms for general metric spaces. We
provide extensive experimental evidence of the effectiveness of our algorithms
on both real world and synthetic datasets, scaling up to over a billion points.Comment: Extended version of
http://www.vldb.org/pvldb/vol10/p469-ceccarello.pdf, PVLDB Volume 10, No. 5,
January 201