Non-Adaptive Group Testing with Inhibitors
Abstract
Group testing with inhibitors (GTI) introduced by Farach at al. is studied in this paper. There are three types of items, defectives, inhibitors and normal items in a population of items. The presence of any inhibitor in a test can prevent the expression of a defective. For this model, we propose a probabilistic non-adaptive pooling design with a low complexity decoding algorithm. We show that the sample complexity of the number of tests required for guaranteed recovery with vanishing error probability using the proposed algorithm scales as and in the regimes and respectively. In the former regime, the number of tests meets the lower bound order while in the latter regime, the number of tests is shown to exceed the lower bound order by a multiplicative factor. When only upper bounds on the number of defectives and the number of inhibitors are given instead of their exact values, the sample complexity of the number of tests using the proposed algorithm scales as and in the regimes and respectively. In the former regime, the number of tests meets the lower bound order while in the latter regime, the number of tests exceeds the lower bound order by a multiplicative factor. The time complexity of the proposed decoding algorithms scale as .
Keywords
Cite
@article{arxiv.1410.8440,
title = {Non-Adaptive Group Testing with Inhibitors},
author = {Abhinav Ganesan and Javad Ebrahimi and Sidharth Jaggi and Venkatesh Saligrama},
journal= {arXiv preprint arXiv:1410.8440},
year = {2014}
}
Comments
Updated with results for the case of knowledge of only upper bounds on no. of defectives and inhibitors; 11 pages, 2 figures