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2020 – today
- 2024
[c12]Minglai Cai, Andreas Winter:
Quantum Wiretap Channel Coding Assisted by Noisy Correlation. ISIT 2024: 3101-3105- [i13]Minglai Cai, Andreas Winter:
Quantum Wiretap Channel Coding Assisted by Noisy Correlation. CoRR abs/2402.13194 (2024) - 2022
- [c11]Holger Boche, Minglai Cai, Moritz Wiese:
Mosaics of Combinatorial Designs for Semantic Security on Quantum Wiretap Channels. ISIT 2022: 856-861 - [i12]Holger Boche, Minglai Cai, Moritz Wiese:
Mosaics of Combinatorial Designs for Semantic Security on Quantum Wiretap Channels. CoRR abs/2202.05314 (2022) - 2021
- [c10]Holger Boche, Minglai Cai, H. Vincent Poor
, Rafael F. Schaefer:
Detectability of Denial-of-Service Attacks on Arbitrarily Varying Classical-Quantum Channels. ISIT 2021: 912-917 - 2020
- [c9]Holger Boche, Minglai Cai, Moritz Wiese, Christian Deppe, Roberto Ferrara:
Semantic Security for Quantum Wiretap Channels. ISIT 2020: 1990-1995 - [i11]Holger Boche, Minglai Cai, Christian Deppe, Roberto Ferrara, Moritz Wiese:
Semantic Security for Quantum Wiretap Channels. CoRR abs/2001.05719 (2020)
2010 – 2019
- 2019
- [j4]Holger Boche, Minglai Cai, Ning Cai:
Message Transmission Over Classical Quantum Channels With a Jammer With Side Information: Message Transmission Capacity and Resources. IEEE Trans. Inf. Theory 65(5): 2922-2943 (2019) - [c8]Holger Boche, Minglai Cai, Ning Cai:
Message Transmission over Classical Quantum Channels with a Jammer with Side Information, Correlation as Resource and Common Randomness Generating. ISIT 2019: 1722-1726 - [i10]Holger Boche, Minglai Cai, Ning Cai:
Message transmission over classical quantum channels with a Jammer with side information; correlation as resource and common randomness generating. CoRR abs/1902.01764 (2019) - 2018
- [c7]Holger Boche, Minglai Cai, Ning Cai:
Message Transmission over Classical Quantum Channels with a Jammer with Side Information. ISIT 2018: 2017-2021 - [c6]Holger Boche, Minglai Cai, Christian Deppe, Janis Nötzel:
Secret Message Transmission over Quantum Channels under Adversarial Quantum Noise: Secrecy Capacity and Super-activations. ITW 2018: 1-5 - [i9]Holger Boche, Minglai Cai, Ning Cai:
Message Transmission over Classical Quantum Channels with a Jammer with Side Information: Message Transmission Capacity and Resources. CoRR abs/1801.10550 (2018) - 2017
- [j3]Holger Boche, Minglai Cai, Christian Deppe, Janis Nötzel:
Classical-quantum arbitrarily varying wiretap channel: common randomness assisted code and continuity. Quantum Inf. Process. 16(1): 35 (2017) - [c5]Holger Boche, Minglai Cai, Christian Deppe, Janis Nötzel:
Classical-quantum arbitrarily varying wiretap channel: Secret message transmission under jamming attacks. ISIT 2017: 1983-1987 - [i8]Holger Boche, Minglai Cai, Christian Deppe, Janis Nötzel:
Classical-Quantum Arbitrarily Varying Wiretap Channel: Secret Message Transmission under Jamming Attacks. CoRR abs/1702.03483 (2017) - [i7]Holger Boche, Minglai Cai, Christian Deppe, Janis Nötzel:
Secret Message Transmission over Quantum Channels under Adversarial Quantum Noise: Secrecy Capacity and Super-Activation. CoRR abs/1712.05702 (2017) - 2016
- [j2]Holger Boche, Minglai Cai, Christian Deppe, Janis Nötzel:
Classical-quantum arbitrarily varying wiretap channel: Ahlswede dichotomy, positivity, resources, super-activation. Quantum Inf. Process. 15(11): 4853-4895 (2016) - [c4]Holger Boche, Minglai Cai, Christian Deppe, Janis Noetzel:
Classical-quantum arbitrarily varying wiretap channel: Common randomness assisted code and continuity. ISIT 2016: 2059-2063 - [i6]Holger Boche, Minglai Cai, Christian Deppe, Janis Nötzel:
Classical - Quantum Arbitrarily Varying Wiretap Channel: Common Randomness Assisted Code and Continuity. CoRR abs/1606.01768 (2016) - 2015
- [j1]Holger Boche, Minglai Cai, Christian Deppe:
The broadcast classical-quantum capacity region of a two-phase bidirectional relaying channel. Quantum Inf. Process. 14(10): 3879-3897 (2015) - 2014
- [c3]Holger Boche, Minglai Cai, Christian Deppe:
Classical-quantum arbitrarily varying wiretap channel - A capacity formula with Ahlswede Dichotomy - Resources. ISIT 2014: 146-150 - [i5]Holger Boche, Minglai Cai, Christian Deppe:
Broadcast Classical-Quantum Capacity Region of Two-Phase Bidirectional Relaying Channel. CoRR abs/1401.3682 (2014) - 2013
- [c2]Vladimir M. Blinovsky, Minglai Cai:
Classical-Quantum Arbitrarily Varying Wiretap Channel. Information Theory, Combinatorics, and Search Theory 2013: 234-246 - [i4]Holger Boche, Minglai Cai, Ning Cai, Christian Deppe:
Secrecy capacities of compound quantum wiretap channels and applications. CoRR abs/1302.3412 (2013) - [i3]Holger Boche, Minglai Cai, Christian Deppe:
Classical-Quantum Arbitrarily Varying Wiretap Channel - A Capacity Formula with Ahlswede Dichotomy - Resources. CoRR abs/1307.8007 (2013) - 2012
- [c1]Minglai Cai, Ning Cai, Christian Deppe:
Capacities of classical compound quantum wiretap and classical quantum compound wiretap channels. ISIT 2012: 726-730 - [i2]Minglai Cai, Ning Cai, Christian Deppe:
Capacities of classical compound quantum wiretap and classical quantum compound wiretap channels. CoRR abs/1202.0773 (2012) - [i1]Vladimir M. Blinovsky, Minglai Cai:
Classical-Quantum Arbitrarily Varying Wiretap Channel. CoRR abs/1208.1151 (2012)
Coauthor Index
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