Title :
Group Testing Algorithms: Bounds and Simulations
Author :
Aldridge, Matthew ; Baldassini, Leonardo ; Johnson, O.
Author_Institution :
Sch. of Math., Univ. of Bristol, Bristol, UK
Abstract :
We consider the problem of nonadaptive noiseless group testing of N items of which K are defective. We describe four detection algorithms, the COMP algorithm of Chan et al., two new algorithms, DD and SCOMP, which require stronger evidence to declare an item defective, and an essentially optimal but computationally difficult algorithm called SSS. We consider an important class of designs for the group testing problem, namely those in which the test structure is given via a Bernoulli random process. In this class of Bernoulli designs, by considering the asymptotic rate of these algorithms, we show that DD outperforms COMP, that DD is essentially optimal in regimes where K ≥ √N, and that no algorithm can perform as well as the best nonrandom adaptive algorithms when K > N0.35. In simulations, we see that DD and SCOMP far outperform COMP, with SCOMP very close to the optimal SSS, especially in cases with larger K.
Keywords :
combinatorial mathematics; compressed sensing; optimisation; Bernoulli random process; COMP algorithm; DD algorithms; SCOMP algorithms; SSS algorithm; combinatorial optimisation problem; compressed sensing; detection algorithms; nonadaptive noiseless group testing algorithm; nonrandom adaptive algorithms; Algorithm design and analysis; Decoding; Detection algorithms; Inference algorithms; Matching pursuit algorithms; Testing; Upper bound; Algorithm design and analysis; group testing; sparse models;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2014.2314472
