Approximate Quantum Error Correction
Quantum Information Processing
Large Deviations in Quantum Information Theory
Problems of Information Transmission
General theory of information transfer: Updated
Discrete Applied Mathematics
Quantum and classical message protect identification via quantum channels
Quantum Information & Computation
Limitations on quantum dimensionality reduction
ICALP'11 Proceedings of the 38th international colloquim conference on Automata, languages and programming - Volume Part I
General Theory of Information Transfer and Combinatorics
Identification via quantum channels in the presence of prior correlation and feedback
General Theory of Information Transfer and Combinatorics
On concepts of performance parameters for channels
General Theory of Information Transfer and Combinatorics
IEEE Transactions on Information Theory
Identification in the presence of feedback-a discovery of new capacity formulas
IEEE Transactions on Information Theory
Strong converse for identification via quantum channels
IEEE Transactions on Information Theory
Entanglement-assisted capacity of a quantum channel and the reverse Shannon theorem
IEEE Transactions on Information Theory
New results in the theory of identification via channels
IEEE Transactions on Information Theory
Optimal Superdense Coding of Entangled States
IEEE Transactions on Information Theory
The Information-Disturbance Tradeoff and the Continuity of Stinespring's Representation
IEEE Transactions on Information Theory
Approximation theory of output statistics
IEEE Transactions on Information Theory
User-Friendly Tail Bounds for Sums of Random Matrices
Foundations of Computational Mathematics
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We review the development of the quantum version of Ahlswede and Dueck's theory of identification via channels. As is often the case in quantum probability, there is not just one but several quantizations: we know at least two different concepts of identification of classical information via quantum channels, and three different identification capacities for quantum information. In the present summary overview we concentrate on conceptual points and open problems, referring the reader to the small set of original articles for details.