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Technical Program

Paper Detail

Paper IDD3-S4-T3.1
Paper Title Graph and Cluster Formation Based Group Testing
Authors Batuhan Arasli, Sennur Ulukus, University of Maryland, College Park, United States
Session D3-S4-T3: Group Testing on Graphs
Chaired Session: Wednesday, 14 July, 23:00 - 23:20
Engagement Session: Wednesday, 14 July, 23:20 - 23:40
Abstract We propose a novel infection spread model based on a random connection graph which represents connections between $n$ individuals. Infection spreads via connections between individuals and this results in a probabilistic cluster formation structure as well as a non-i.i.d. (correlated) infection status for individuals. We propose a class of two-step sampled group testing algorithms where we exploit the known probabilistic infection spread model. We investigate the metrics associated with two-step sampled group testing algorithms. To demonstrate our results, for analytically tractable exponentially split cluster formation trees, we calculate the required number of tests and the expected number of false classifications in terms of the system parameters, and identify the trade-off between them. For such exponentially split cluster formation trees, for zero-error construction, we prove that the required number of tests is $O(\log_2 n)$. Thus, for such cluster formation trees, our algorithm outperforms any zero-error non-adaptive group test, binary splitting algorithm, and Hwang's generalized binary splitting algorithm. Our results imply that, by exploiting probabilistic information on the connections of individuals, group testing can be used to reduce the number of required tests significantly even when infection rate is high, contrasting the prevalent belief that group testing is useful only when infection rate is low.