The classical and well-studied group testing problem is to find d defectives in a set of n elements by group tests, which tell us for any chosen subset whether it contains defectives or not. Strategies are preferred that use both a small number of tests close to the information-theoretic lower bound d log n, and a small constant number of stages, where tests in every stage are done in parallel, in order to save time. They should even work if d is completely unknown in advance. An essential ingredient of such competitive and minimal-adaptive group testing strategies is an estimate of d within a constant factor. More precisely, d shall be underestimated only with somegiven error probability, and overestimated only by a constant factor, called...
Group testing is the problem to identify up to d defectives out of n elements, by testing subsets fo...
Group testing is the problem to identify up to d defectives out of n elements, by testing subsets fo...
In this paper, we explore fundamental limits on the number of tests required to identify a given num...
The classical and well-studied group testing problem is to find d defectives in a set of n elements ...
Group testing is a well known search problem that consists in detecting the defective members of a s...
Group testing is a well known search problem that consists in detecting the defective members of a s...
For the well-established group testing problem, i.e., finding defective elements in a set by testing...
Suppose that given is a collection of $n$ elements where $d$ of them are \emph{defective}. We can q...
Group testing (GT) was originally proposed during the World War II in an attempt to minimize the \em...
The classical group testing problem asks to determine at most d defective elements in a set of n ele...
The group testing problem asks to find d<n defective elements out of n elements, by testing subsets ...
We consider algorithms for group testing problems when nothing is known in advance about the number ...
AbstractAlgorithms for the group testing problem when there is no a priori information on the number...
In this paper, we derive mutual information based upper bounds on the number of nonadaptive group te...
We study the problem of determining the exact number of defective items in an adaptive group testing...
Group testing is the problem to identify up to d defectives out of n elements, by testing subsets fo...
Group testing is the problem to identify up to d defectives out of n elements, by testing subsets fo...
In this paper, we explore fundamental limits on the number of tests required to identify a given num...
The classical and well-studied group testing problem is to find d defectives in a set of n elements ...
Group testing is a well known search problem that consists in detecting the defective members of a s...
Group testing is a well known search problem that consists in detecting the defective members of a s...
For the well-established group testing problem, i.e., finding defective elements in a set by testing...
Suppose that given is a collection of $n$ elements where $d$ of them are \emph{defective}. We can q...
Group testing (GT) was originally proposed during the World War II in an attempt to minimize the \em...
The classical group testing problem asks to determine at most d defective elements in a set of n ele...
The group testing problem asks to find d<n defective elements out of n elements, by testing subsets ...
We consider algorithms for group testing problems when nothing is known in advance about the number ...
AbstractAlgorithms for the group testing problem when there is no a priori information on the number...
In this paper, we derive mutual information based upper bounds on the number of nonadaptive group te...
We study the problem of determining the exact number of defective items in an adaptive group testing...
Group testing is the problem to identify up to d defectives out of n elements, by testing subsets fo...
Group testing is the problem to identify up to d defectives out of n elements, by testing subsets fo...
In this paper, we explore fundamental limits on the number of tests required to identify a given num...