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Volg ons Snel echtgenoot strong converse for identification via quantum channels Trappenhuis geloof cache

PDF] On two strong converse theorems for discrete memoryless channels | Semantic Scholar
PDF] On two strong converse theorems for discrete memoryless channels | Semantic Scholar

Capacity bounds via operator space methods: Journal of Mathematical Physics: Vol 59, No 12
Capacity bounds via operator space methods: Journal of Mathematical Physics: Vol 59, No 12

PDF] Compression of sources of probability distributions and density operators | Semantic Scholar
PDF] Compression of sources of probability distributions and density operators | Semantic Scholar

A Survey on Quantum Channel Capacities
A Survey on Quantum Channel Capacities

PDF) Converse Bounds for Private Communication Over Quantum Channels
PDF) Converse Bounds for Private Communication Over Quantum Channels

Secure and Robust Identification via Classical-Quantum Channels | DeepAI
Secure and Robust Identification via Classical-Quantum Channels | DeepAI

Finite-block-length analysis in classical and quantum information theory. - Abstract - Europe PMC
Finite-block-length analysis in classical and quantum information theory. - Abstract - Europe PMC

Quantifying the Magic of Quantum Channels | Quantum Computing | Hilbert Space
Quantifying the Magic of Quantum Channels | Quantum Computing | Hilbert Space

PDF) Universal Coding for Classical-Quantum Channel
PDF) Universal Coding for Classical-Quantum Channel

Wiretap channel capacity: Secrecy criteria, strong converse, and phase change | DeepAI
Wiretap channel capacity: Secrecy criteria, strong converse, and phase change | DeepAI

arXiv:1106.2013v2 [cs.IT] 25 Nov 2012
arXiv:1106.2013v2 [cs.IT] 25 Nov 2012

arXiv:1606.01768v2 [cs.IT] 29 Dec 2016
arXiv:1606.01768v2 [cs.IT] 29 Dec 2016

Quantifying the Magic of Quantum Channels | Quantum Computing | Hilbert Space
Quantifying the Magic of Quantum Channels | Quantum Computing | Hilbert Space

Secure and Robust Identification via Classical-Quantum Channels | DeepAI
Secure and Robust Identification via Classical-Quantum Channels | DeepAI

Strong Converse for Identification via Quantum Channels
Strong Converse for Identification via Quantum Channels

Secure and Robust Identification via Classical-Quantum Channels | DeepAI
Secure and Robust Identification via Classical-Quantum Channels | DeepAI

The quantum reverse Shannon theorem and resource tradeoffs for simulating quantum channels
The quantum reverse Shannon theorem and resource tradeoffs for simulating quantum channels

Amortized channel divergence for asymptotic quantum channel discrimination | SpringerLink
Amortized channel divergence for asymptotic quantum channel discrimination | SpringerLink

Secure and Robust Identification via Classical-Quantum Channels | DeepAI
Secure and Robust Identification via Classical-Quantum Channels | DeepAI

Wiretap channel capacity: Secrecy criteria, strong converse, and phase change | DeepAI
Wiretap channel capacity: Secrecy criteria, strong converse, and phase change | DeepAI

General Theory of Information Transfer and Combinatorics : Rudolf Ahlswede : 9783540462446
General Theory of Information Transfer and Combinatorics : Rudolf Ahlswede : 9783540462446

PDF) Large Deviations in Quantum Information Theory
PDF) Large Deviations in Quantum Information Theory

A Survey on Quantum Channel Capacities
A Survey on Quantum Channel Capacities

Identification via Quantum Channels | SpringerLink
Identification via Quantum Channels | SpringerLink

Technische Universität München Quantum communication under channel uncertainty
Technische Universität München Quantum communication under channel uncertainty

Finite-Block-Length Analysis in Classical and Quantum Information Theory
Finite-Block-Length Analysis in Classical and Quantum Information Theory

Finite-block-length analysis in classical and quantum information theory. - Abstract - Europe PMC
Finite-block-length analysis in classical and quantum information theory. - Abstract - Europe PMC