Information-theoretic and algorithmic thresholds for group testing
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In the group testing problem we aim to identify a small number of infected individuals within a large population. We avail ourselves to a procedure that can test a group of multiple individuals, with the test result coming out positive iff at least one individual in the group is infected. With all tests conducted in parallel, what is the least number of tests required to identify the status of all individuals? In a recent test design [Aldridge et al.\ 2016] the individuals are assigned to test groups randomly, with every individual joining an equal number of groups. We pinpoint the sharp threshold for the number of tests required in this randomised design so that it is information-theoretically possible to infer the infection status of every individual. Moreover, we analyse two efficient inference algorithms. These results settle conjectures from [Aldridge et al.\ 2014, Johnson et al.\ 2019].
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Cited by 2 Pith papers
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Derives sharp phase transition at c_inf^TGT k log(n/k) tests for threshold group testing on constant-column designs, with c depending on prevalence and threshold; same as CGT at low prevalence but reduction at higher,...
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Algorithms for Threshold Group Testing
Develops a spatially coupled inference algorithm for threshold group testing that achieves exact recovery at the information-theoretic threshold with a simpler proof than prior methods.
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