Finite-block-length analysis in classical and quantum information theory. - Abstract - Europe PMC
Secure and Robust Identification via Classical-Quantum Channels | DeepAI
Figure 1 from Approximation theory of output statistics | Semantic Scholar
A Survey on Quantum Channel Capacities
PDF) Converse Bounds for Private Communication Over Quantum Channels
Amortized channel divergence for asymptotic quantum channel discrimination | SpringerLink
Finite-Block-Length Analysis in Classical and Quantum Information Theory
PDF) Exponential Strong Converse for Content Identification with Lossy Recovery
arXiv:1106.2013v2 [cs.IT] 25 Nov 2012
Secure and Robust Identification via Classical-Quantum Channels | DeepAI
Finite-Block-Length Analysis in Classical and Quantum Information Theory
Quantum channel discrimination without entanglement | SpringerLink
PDF) Large Deviations in Quantum Information Theory
Secure and Robust Identification via Classical-Quantum Channels | DeepAI
![PDF] On two strong converse theorems for discrete memoryless channels | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/8643a027650c3908d1585f3550797c94ce5824fa/5-Table1-1.png "PDF] On two strong converse theorems for discrete memoryless channels | Semantic Scholar")
PDF] On two strong converse theorems for discrete memoryless channels | Semantic Scholar
Secure and Robust Identification via Classical-Quantum Channels | DeepAI
A Survey on Quantum Channel Capacities
Wiretap channel capacity: Secrecy criteria, strong converse, and phase change | DeepAI
General Theory of Information Transfer and Combinatorics : Rudolf Ahlswede : 9783540462446
Strong Converse for Identification via Quantum Channels
PDF) Programmable quantum channels and measurements
Strong Converse for Identification via Quantum Channels
