On the Security and Reliability Trade-off of the Satellite Terrestrial Networks with Fountain Codes and Friendly Jamming

On the Security and Reliability Trade-off of the Satellite Terrestrial Networks with Fountain Codes and Friendly Jamming

The performance of the satellite-terrestrial network with Fountain codes (FCs) is conducted in the present work. More precisely, the air-to-ground link is modeled according to the shadow-Rician distribution to capture the strong light-of-sight (LOS) path as well as the impact of the shadowing. As a...

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Bibliographic Details
Published in:EAI endorsed transactions on industrial networks and intelligent systems Vol. 10; no. 4; p. e3
Main Authors: Nguyen, Quang Sang, Nguyen, Van Hien, Tran, Trung Duy, Nguyen, Luong Nhat, Tu, Lam-Thanh
Format: Journal Article
Language:English
Published: European Alliance for Innovation (EAI) 07-12-2023
Subjects:
Fountain Codes
Intercept Probability
Outage Probability
Satellite-Terrestrial Communications
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Summary:The performance of the satellite-terrestrial network with Fountain codes (FCs) is conducted in the present work. More precisely, the air-to-ground link is modeled according to the shadow-Rician distribution to capture the strong light-of-sight (LOS) path as well as the impact of the shadowing. As a result, we employ the directional beamforming at both the satellite and relay to mitigate such an ultra-long transmission distance. We investigate the trade-off between the reliability and security aspects. Particularly, we derive the outage probability (OP) and intercept probability (IP) in the closed-form expressions. To further facilitate the security of the considered networks, the friendly jamming scheme is deployed as well. Finally, simulation results based on the Monte-Carlo method are given to corroborate the exactness of the developed mathematical framework and to identify key parameters such as antenna gain, and transmit power that have a big impact on the considered networks.
ISSN:2410-0218
2410-0218
DOI:10.4108/eetinis.v10i4.4192