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Message transmission over classical quantum channels with a jammer with side information: Correlation as resource, common randomness generation

Holger Boche, Minglai Cai, Ning Cai

2020Journal of Mathematical Physics10 citationsDOIOpen Access PDF

Abstract

In this paper, we analyze the capacity of a general model for arbitrarily varying classical-quantum channels (AVCQCs) when the sender and the receiver use correlation as a resource. In this general model, a jammer has side information about the channel input. We determine a single letter formula for the correlation assisted capacity. As an application of our main result, we determine the correlation assisted common randomness generation capacity. In this scenario, the two channel users have access to correlation as a resource and further use an AVCQC with an informed jammer for additional discussion. The goal is to create common randomness between the two channel users. We also analyze these capacity formulas when only a small number of signals from the correlation are available. For the correlation assisted common randomness generation capacity, we show an additional interesting property: For a sufficient amount of “public communication,” common randomness generation capacity is Turing computable; however, without this public communication constraint, the correlation assisted common randomness generation capacity is, in general, not Turing computable. Furthermore, we show that even without knowing the capacity formula of the deterministic capacity using the maximal error criterion, we can show that it is impossible to evaluate the performance algorithmically on any current or future digital computer.

Topics & Concepts

RandomnessStatistical physicsTransmission (telecommunications)Computer scienceInformation transmissionQuantumResource dependence theoryStochastic processPhysicsTelecommunicationsTheoretical computer scienceMathematicsQuantum mechanicsComputer networkStatisticsEconomicsMicroeconomicsQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum Computing Algorithms and Architecture