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Don't Shoot the Messenger: Localization Prevention of Satellite Internet Users

Koisser, David ; Mitev, Richard ; Chilese, Marco ; Sadeghi, Ahmad-Reza (2024)
Don't Shoot the Messenger: Localization Prevention of Satellite Internet Users.
45th IEEE Symposium on Security and Privacy. San Francisco, USA (19.05.2024 - 23.05.2024)
Conference or Workshop Item, Bibliographie

Abstract

Satellite Internet plays an increasingly important role in geopolitical conflicts. This notion was affirmed in the Ukrainian conflict escalating at the beginning of 2022, with the large-scale deployment of the Starlink satellite Internet service which consequently demonstrated the strategic importance of a free flow of information. Aside from military use, many citizens publish sensitive information on social media platforms to influence the public narrative. However, the use of satellite communication has proven to be dangerous, as the signals can be monitored by other satellites and used to triangulate the source on the ground. Unfortunately, the targeted killings of journalists have shown this threat to be effective. While the increasing deployment of satellite Internet systems gives citizens an unprecedented mouthpiece in conflicts, protecting them against localization is an unaddressed problem. To address this threat, we present AnonSat, a novel scheme to protect satellite Internet users from triangulation. AnonSat works with cheap off-the-shelf devices, leveraging long-range wireless communication to span a local network among satellite base stations. This allows rerouting users’ communication to other satellite base stations, some distance away from each user, thus, preventing their localization. AnonSat is designed for easy deployment and usability, which we demonstrate with a prototype implementation. Our large-scale network simulations using real-world data sets show the effectiveness of AnonSat in various practical settings.

Item Type: Conference or Workshop Item
Erschienen: 2024
Creators: Koisser, David ; Mitev, Richard ; Chilese, Marco ; Sadeghi, Ahmad-Reza
Type of entry: Bibliographie
Title: Don't Shoot the Messenger: Localization Prevention of Satellite Internet Users
Language: English
Date: 20 May 2024
Publisher: IEEE
Book Title: Proceedings: 45th IEEE Symposium on Security and Privacy - SP 2024
Event Title: 45th IEEE Symposium on Security and Privacy
Event Location: San Francisco, USA
Event Dates: 19.05.2024 - 23.05.2024
Corresponding Links:
Abstract:

Satellite Internet plays an increasingly important role in geopolitical conflicts. This notion was affirmed in the Ukrainian conflict escalating at the beginning of 2022, with the large-scale deployment of the Starlink satellite Internet service which consequently demonstrated the strategic importance of a free flow of information. Aside from military use, many citizens publish sensitive information on social media platforms to influence the public narrative. However, the use of satellite communication has proven to be dangerous, as the signals can be monitored by other satellites and used to triangulate the source on the ground. Unfortunately, the targeted killings of journalists have shown this threat to be effective. While the increasing deployment of satellite Internet systems gives citizens an unprecedented mouthpiece in conflicts, protecting them against localization is an unaddressed problem. To address this threat, we present AnonSat, a novel scheme to protect satellite Internet users from triangulation. AnonSat works with cheap off-the-shelf devices, leveraging long-range wireless communication to span a local network among satellite base stations. This allows rerouting users’ communication to other satellite base stations, some distance away from each user, thus, preventing their localization. AnonSat is designed for easy deployment and usability, which we demonstrate with a prototype implementation. Our large-scale network simulations using real-world data sets show the effectiveness of AnonSat in various practical settings.

Divisions: 20 Department of Computer Science
20 Department of Computer Science > System Security Lab
Profile Areas
Profile Areas > Cybersecurity (CYSEC)
Date Deposited: 10 Jul 2024 13:09
Last Modified: 10 Jul 2024 13:09
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