On Secure Uplink Transmissions in Satellite-Aerial Systems

Haoxing Zhang; Pingyue Yue; Shuai Wang; Gaofeng Pan; Jianping An

doi:10.1109/TAES.2022.3230380

On Secure Uplink Transmissions in Satellite-Aerial Systems

Haoxing Zhang, Pingyue Yue^*, Shuai Wang, Gaofeng Pan, Jianping An

^*Corresponding author for this work

School of Cyberspace Science and Technology

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Satellite communication plays an increasingly important role in global wireless systems, which leads to rising concerns about the secure transmission of confidential information. In this article, we investigate the secrecy outage performance of an uplink satellite-aerial communication system, in which an aerial platform (S) transmits its information over the uplink to a legitimate satellite(D), while an eavesdropping satellite (E) trying to overhear the information delivery between S and D. Specifically, considering the randomness of the positions of D and E and employing the geometric probability theory, a closed-form expression for the lower bound on the secrecy outage probability of the considered system is derived. Finally, Monte-Carlo simulations are conducted to verify our proposed analytical models.

Original language	English
Pages (from-to)	4666-4673
Number of pages	8
Journal	IEEE Transactions on Aerospace and Electronic Systems
Volume	59
Issue number	4
DOIs	https://doi.org/10.1109/TAES.2022.3230380
Publication status	Published - 1 Aug 2023

Keywords

Geometric probability
satellite-aerial communication
secrecy outage probability

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10.1109/TAES.2022.3230380

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abstract = "Satellite communication plays an increasingly important role in global wireless systems, which leads to rising concerns about the secure transmission of confidential information. In this article, we investigate the secrecy outage performance of an uplink satellite-aerial communication system, in which an aerial platform (S) transmits its information over the uplink to a legitimate satellite(D), while an eavesdropping satellite (E) trying to overhear the information delivery between S and D. Specifically, considering the randomness of the positions of D and E and employing the geometric probability theory, a closed-form expression for the lower bound on the secrecy outage probability of the considered system is derived. Finally, Monte-Carlo simulations are conducted to verify our proposed analytical models.",

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AU - An, Jianping

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AB - Satellite communication plays an increasingly important role in global wireless systems, which leads to rising concerns about the secure transmission of confidential information. In this article, we investigate the secrecy outage performance of an uplink satellite-aerial communication system, in which an aerial platform (S) transmits its information over the uplink to a legitimate satellite(D), while an eavesdropping satellite (E) trying to overhear the information delivery between S and D. Specifically, considering the randomness of the positions of D and E and employing the geometric probability theory, a closed-form expression for the lower bound on the secrecy outage probability of the considered system is derived. Finally, Monte-Carlo simulations are conducted to verify our proposed analytical models.

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On Secure Uplink Transmissions in Satellite-Aerial Systems

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