Providing secure optical wireless communication is a crucial challenge also in underwater scenarios, even though it has not been extensively investigated in the literature yet. In this paper, we propose a novel physical layer optical jamming scheme for underwater communications that, by leveraging signal reflection by mirror surfaces integrated with the reference transmitter (Alice), allows a reliable signal detection for a legitimate node while denying the transmission interception to potential eavesdroppers. Preliminary results demonstrate the proposed solution to effectively deny a reliable signal detection for an eavesdropper, while preserving the legitimate link integrity.
A Mirror-Based Jamming Scheme Against Eavesdropping in Underwater Optical Communication / Petroni, Andrea; Khan, Muhammad Shoaib; Loscri, Valeria; Biagi, Mauro. - (2025), pp. 1-5. ( OCEANS 2025 Brest, OCEANS 2025 Brest; France ) [10.1109/oceans58557.2025.11104603].
A Mirror-Based Jamming Scheme Against Eavesdropping in Underwater Optical Communication
Petroni, Andrea;Khan, Muhammad Shoaib;Biagi, Mauro
2025
Abstract
Providing secure optical wireless communication is a crucial challenge also in underwater scenarios, even though it has not been extensively investigated in the literature yet. In this paper, we propose a novel physical layer optical jamming scheme for underwater communications that, by leveraging signal reflection by mirror surfaces integrated with the reference transmitter (Alice), allows a reliable signal detection for a legitimate node while denying the transmission interception to potential eavesdroppers. Preliminary results demonstrate the proposed solution to effectively deny a reliable signal detection for an eavesdropper, while preserving the legitimate link integrity.| File | Dimensione | Formato | |
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