4.6 Article

Bio-inspired photonics - marine hatchetfish camouflage strategies for RF steganography

Journal

OPTICS EXPRESS
Volume 29, Issue 2, Pages 2587-2596

Publisher

OPTICAL SOC AMER
DOI: 10.1364/OE.414091

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Funding

  1. Directorate for Engineering [1653525, 1917043]
  2. Directorate For Engineering
  3. Div Of Electrical, Commun & Cyber Sys [1917043] Funding Source: National Science Foundation
  4. Div Of Electrical, Commun & Cyber Sys
  5. Directorate For Engineering [1653525] Funding Source: National Science Foundation

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Camouflage is utilized by animals and RF systems for protection and security. The camouflage skills of marine hatchetfish provide survival advantages, which researchers have successfully applied to optical fiber transmission.
Camouflage is a strategy that animals utilize for concealment in their habitat, making themselves invisible to their predators and preys. In RF systems, steganography or stealth transmission is the camouflage of information - a technology of hiding and transmitting secret messages in public media. Steganography conceals the secret message in publicly available media such that the eavesdropper or attacker will not be able to tell if there is a secret message to look for. Marine hatchetfish have two effective camouflage skills to help them hide from their predators - silvering and counterillumination. Silvering in marine hatchetfish uses its microstructured skin on its sides to achieve destructive interference at colors that could indicate the presence of the fish, while they also emit light at their bottom part to match its color and intensity to its surrounding, making it invisible from below, referred to as counterillumination. In this work, we borrow the two underwater camouflage strategies from marine hatchetfish, mimic them with photonic phenomena, and apply the camouflage strategies for physical stealth transmission of a 200 MBaud/s 16QAM OFDM secret signal at 5 GHz over a 25-km of optical fiber. The proposed bio-inspired steganography strategies successfully hid the secret signal in plain sight in temporal, RF spectral, and optical spectral domains, by blending in using counterillumination and turning invisible using silvering techniques. The stealth signal can only be retrieved with the precise and correct parameter for constructive interference at the secret signal frequency to unmask the silvering. (C) 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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