AI Chat AI Image Generator AI Video Text to Speech

One-Shot Achievable Secrecy Rate Regions for Quantum Interference Wiretap Channel

01/09/2023

∙

by Hadi Aghaee, et al.

∙

∙

In this paper, we want to derive achievable secrecy rate regions for quantum interference channel with classical inputs under one-shot setting. The main idea to this end is to use the combination of superposition and rate splitting for encoding scheme and constructing a decoding scheme based on simultaneous decoding.

Hadi Aghaee
2 publications
Bahareh Akhbari
3 publications

page 1

page 2

page 3

page 4

research

∙ 01/06/2023

Quantum Multiple Access Wiretap Channel: On the One-Shot Achievable Secrecy Rate Regions

In this paper, we want to investigate classical-quantum multiple access ...

0 Hadi Aghaee, et al. ∙

research

∙ 09/19/2018

One-shot Capacity bounds on the Simultaneous Transmission of Classical and Quantum Information

We study the communication capabilities of a quantum channel under the m...

0 Farzin Salek, et al. ∙

research

∙ 05/19/2021

On the Secrecy Capacity of 2-user Gaussian Z-Interference Channel with Shared Key

In this paper, the role of secret key with finite rate is studied to enh...

0 Somalatha U, et al. ∙

research

∙ 04/24/2018

On the Secrecy Capacity of a Full-Duplex Wirelessly Powered Communication System in the Presence of a Passive Eavesdropper

In this paper, we investigate the secrecy capacity of a point-to-point, ...

0 Ivana Nikoloska, et al. ∙

research

∙ 01/23/2018

On the Key Generation Rate of Physically Unclonable Functions

In this paper, an algebraic binning based coding scheme and its associat...

0 Yitao Chen, et al. ∙

research

∙ 12/16/2022

Innovation-Based Remote State Estimation Secrecy with no Acknowledgments

Secrecy encoding for remote state estimation in the presence of adversar...

0 Justin M. Kennedy, et al. ∙

research

∙ 01/03/2018

Secure communication over fully quantum Gel'fand-Pinsker wiretap channel

In this work we study the problem of secure communication over a fully q...

0 Anurag Anshu, et al. ∙