Litcius/Paper detail

Single-Shot Secure Quantum Network Coding for General Multiple Unicast Network With Free One-Way Public Communication

Go Kato, Masaki Owari, Masahito Hayashi

2021IEEE Transactions on Information Theory13 citationsDOIOpen Access PDF

Abstract

It is natural in a quantum network system that multiple users intend to send their quantum message to their respective receivers, which is called a multiple unicast quantum network. We propose a canonical method to derive a secure quantum network code over a multiple unicast quantum network from a secure classical network code. Our code correctly transmits quantum states when there is no attack. It also guarantees the secrecy of the transmitted quantum state even with the existence of an attack when the attack satisfies a certain natural condition. In our security proof, the eavesdropper is allowed to modify wiretapped information dependently on the previously wiretapped messages. Our protocol guarantees the secrecy by utilizing one-way classical information transmission (public communication) in the same direction as the quantum network although the verification of quantum information transmission requires two-way classical communication. In the protocol, some nodes may share secret randomness as resources in advance. Our secure network code can be applied to several networks including the butterfly network.

Topics & Concepts

Computer scienceUnicastComputer networkQuantum networkLinear network codingInformation-theoretic securityTheoretical computer scienceSecrecyQuantum cryptographyQuantum informationQuantumComputer securityEncryptionMulticastPhysicsQuantum mechanicsNetwork packetQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications
Single-Shot Secure Quantum Network Coding for General Multiple Unicast Network With Free One-Way Public Communication | Litcius