Secrecy capacities of compound quantum wiretap channels and applications

Boche H, Cai M, Cai N, Deppe C (2013) .

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Abstract
We determine the secrecy capacity of the compound channel with quantumwiretapper and channel state information at the transmitter. Moreover, wederive a lower bound on the secrecy capacity of this channel without channelstate information and determine the secrecy capacity of the compoundclassical-quantum wiretap channel with channel state information at thetransmitter. We use this result to derive a new proof for a lower bound on theentanglement generating capacity of compound quantum channel. We also derive anew proof for the entanglement generating capacity of compound quantum channelwith channel state information at the encoder.
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Boche H, Cai M, Cai N, Deppe C. Secrecy capacities of compound quantum wiretap channels and applications. 2013.
Boche, H., Cai, M., Cai, N., & Deppe, C. (2013). Secrecy capacities of compound quantum wiretap channels and applications.
Boche, H., Cai, M., Cai, N., and Deppe, C. (2013). Secrecy capacities of compound quantum wiretap channels and applications.
Boche, H., et al., 2013. Secrecy capacities of compound quantum wiretap channels and applications.
H. Boche, et al., “Secrecy capacities of compound quantum wiretap channels and applications”, 2013.
Boche, H., Cai, M., Cai, N., Deppe, C.: Secrecy capacities of compound quantum wiretap channels and applications. (2013).
Boche, Holger, Cai, Minglai, Cai, Ning, and Deppe, Christian. “Secrecy capacities of compound quantum wiretap channels and applications”. (2013).
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