Litcius/Paper detail

Divergence Radii and the Strong Converse Exponent of Classical-Quantum Channel Coding With Constant Compositions

Milán Mosonyi, Tomohiro Ogawa

2020IEEE Transactions on Information Theory28 citationsDOI

Abstract

There are different inequivalent ways to define the Rényi capacity of a channel for a fixed input distribution. In [IEEE Transactions on Information Theory, 41(1):26-34, 1995], Csiszár has shown that for classical discrete memoryless channels there is a distinguished such quantity that has an operational interpretation as a generalized cutoff rate for constant composition channel coding. We show that the analogous notion of Rényi capacity, defined in terms of the sandwiched quantum Rényi divergences, has the same operational interpretation in the strong converse problem of constant composition classical-quantum channel coding.

Topics & Concepts

ConverseMathematicsExponentQuantumConverse theoremClassical capacityCombinatoricsConstant (computer programming)Quantum channelPhysicsDiscrete mathematicsQuantum mechanicsPure mathematicsQuantum informationGeometryProgramming languagePhilosophyLinguisticsAutomorphic formComputer scienceQuantum Computing Algorithms and ArchitectureWireless Communication Security TechniquesComputability, Logic, AI Algorithms
Divergence Radii and the Strong Converse Exponent of Classical-Quantum Channel Coding With Constant Compositions | Litcius