Classical-quantum arbitrarily varying wiretap channel: Secret message transmission under jamming attacks

Holger Boche, Minglai Cai, Christian Deppe, Janis Nötzel

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Resumen

We analyze arbitrarily varying classical-quantum wiretap channels. These channels are subject to two attacks at the same time: one passive (eavesdropping) and one active (jamming). We elaborate on our previous studies [H. Boche et al., Quantum Inf. Process. 15(11), 4853-4895 (2016) and H. Boche et al., Quantum Inf. Process. 16(1), 1-48 (2016)] by introducing a reduced class of allowable codes that fulfills a more stringent secrecy requirement than earlier definitions. In addition, we prove that non-symmetrizability of the legal link is sufficient for equality of the deterministic and the common randomness assisted secrecy capacities. Finally, we focus on analytic properties of both secrecy capacities: We completely characterize their discontinuity points and their super-activation properties.
Idioma originalInglés
Número de artículo102203
PublicaciónJournal of Mathematical Physics
Volumen58
N.º10
DOI
EstadoPublicada - 1 oct 2017

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