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Quantum steganography over noiseless channels: Achievability and bounds

Chris Sutherland, Todd A. Brun

2020Physical review. A/Physical review, A13 citationsDOIOpen Access PDF

Abstract

Quantum steganography is the study of hiding secret quantum information by encoding it into what an eavesdropper would perceive as an innocent-looking message. Here we study an explicit steganographic encoding for Alice to hide her secret message in the syndromes of an error-correcting code, so that the encoding simulates a given noisy quantum channel. We calculate achievable rates of steganographic communication over noiseless quantum channels using this encoding. We give definitions of secrecy and reliability for the communication process, and with these assumptions derive upper bounds on the amount of steganographic communication possible and show that these bounds match the communication rates achieved with our encoding. This gives a steganographic capacity for a noiseless channel emulating a given noisy channel.

Topics & Concepts

SteganographyEncoding (memory)Computer scienceSecrecyChannel (broadcasting)Information-theoretic securityTheoretical computer scienceInformation hidingQuantumCode (set theory)AlgorithmQuantum channelComputer networkComputer securityQuantum informationEmbeddingArtificial intelligencePhysicsSet (abstract data type)Programming languageQuantum mechanicsQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyWireless Communication Security Techniques
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