2 research outputs found
Phase Transitions in the Pooled Data Problem
In this paper, we study the pooled data problem of identifying the labels
associated with a large collection of items, based on a sequence of pooled
tests revealing the counts of each label within the pool. In the noiseless
setting, we identify an exact asymptotic threshold on the required number of
tests with optimal decoding, and prove a phase transition between complete
success and complete failure. In addition, we present a novel noisy variation
of the problem, and provide an information-theoretic framework for
characterizing the required number of tests for general random noise models.
Our results reveal that noise can make the problem considerably more difficult,
with strict increases in the scaling laws even at low noise levels. Finally, we
demonstrate similar behavior in an approximate recovery setting, where a given
number of errors is allowed in the decoded labels.Comment: Accepted to NIPS 201