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One-shot capacity bounds on the simultaneous transmission of public and private information over quantum channels

Author
Salek, F.; Anshu, A.; Hsieh, M.; Jain, R.; R. Fonollosa, Javier
Type of activity
Presentation of work at congresses
Name of edition
2018 IEEE International Symposium on Information Theory
Date of publication
2018
Presentation's date
2018-07-18
Book of congress proceedings
2018 IEEE International Symposium on Information Theory (ISIT)
First page
1
Last page
5
Publisher
Institute of Electrical and Electronics Engineers (IEEE)
DOI
https://doi.org/10.1109/ISIT.2018.8437856 Open in new window
Project funding
001-P-001644_ Agrupació Emergent en Tecnologies Quàntiques de Catalunya (QUANTUM)
COMONSENS Network
Coding and Signal Processing for Emerging Wireless Communication and Sensor Networks
Distributed techniques for the management and operation of wireless cellular networks, sensor networks and the smart energy grid
Grup de processament del senyal i comunicacions
Repository
http://hdl.handle.net/2117/126813 Open in new window
URL
https://ieeexplore.ieee.org/document/8437856 Open in new window
Abstract
We aim to study the optimal rates of transmission of public and private classical information over a quantum channel in the most general channel model. To this end, we discuss a scenario in which a quantum channel is being used only once, i.e., one-shot regime is considered. A quantum channel can be used to send classical information (bits) either publicly or privately and for either case, one-shot bounds have been reported in the literature. This paper investigates the one-shot capacity capabil...
Citation
Salek, F., Anshu, A., Hsieh, M., Jain, R., R. Fonollosa, J. One-shot capacity bounds on the simultaneous transmission of public and private information over quantum channels. A: IEEE International Symposium on Information Theory. "2018 IEEE International Symposium on Information Theory (ISIT)". Institute of Electrical and Electronics Engineers (IEEE), 2018, p. 1-5.
Keywords
On shot quantum communication, Quantum information theory
Group of research
SPCOM - Signal Processing and Communications Group

Participants