A Primer on Underwater Quantum Key Distribution

The growing importance of underwater networks (UNs) in mission-critical activities at sea enforces the need for secure underwater communications (UCs). Classical encryption techniques can be used to achieve secure data exchange in UNs. However, the advent of quantum computing will pose threats to cl...

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Published inQuantum engineering Vol. 2023; pp. 1 - 26
Main Authors Paglierani, Pietro, Fahim Raouf, Amir Hossein, Pelekanakis, Konstantinos, Petroccia, Roberto, Alves, João, Uysal, Murat
Format Journal Article
LanguageEnglish
Published Hoboken Hindawi 23.12.2023
John Wiley & Sons, Inc
Subjects
Acoustics
Algorithms
Computer systems
Confidentiality
Cryptography
Cybersecurity
Data exchange
Digital signatures
Encryption
Mathematical problems
Parameter identification
Protocol
Quantum computing
Quantum cryptography
Quantum mechanics
Satellite communications
Seawater
Software
Standardization
Underwater communication
Underwater construction
Online AccessGet full text
ISSN2577-0470
2577-0470
DOI10.1155/2023/7185329

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Abstract The growing importance of underwater networks (UNs) in mission-critical activities at sea enforces the need for secure underwater communications (UCs). Classical encryption techniques can be used to achieve secure data exchange in UNs. However, the advent of quantum computing will pose threats to classical cryptography, thus challenging UCs. Currently, underwater cryptosystems mostly adopt symmetric ciphers, which are considered computationally quantum robust but pose the challenge of distributing the secret key upfront. Post-quantum public-key (PQPK) protocols promise to overcome the key distribution problem. The security of PQPK protocols, however, only relies on the assumed computational complexity of some underlying mathematical problems. Moreover, the use of resource-hungry PQPK algorithms in resource-constrained environments such as UNs can require nontrivial hardware/software optimization efforts. An alternative approach is underwater quantum key distribution (QKD), which promises unconditional security built upon the physical principles of quantum mechanics (QM). This tutorial provides a basic introduction to free-space underwater QKD (UQKD). At first, the basic concepts of QKD are presented, based on a fully worked out QKD example. A thorough state-of-the-art analysis of UQKD is carried out. The paper subsequently provides a theoretical analysis of the QKD performance through free-space underwater channels and its dependence on the key optical parameters of the system and seawater. Finally, open challenges, points of strength, and perspectives of UQKD are identified and discussed.
AbstractList The growing importance of underwater networks (UNs) in mission-critical activities at sea enforces the need for secure underwater communications (UCs). Classical encryption techniques can be used to achieve secure data exchange in UNs. However, the advent of quantum computing will pose threats to classical cryptography, thus challenging UCs. Currently, underwater cryptosystems mostly adopt symmetric ciphers, which are considered computationally quantum robust but pose the challenge of distributing the secret key upfront. Post-quantum public-key (PQPK) protocols promise to overcome the key distribution problem. The security of PQPK protocols, however, only relies on the assumed computational complexity of some underlying mathematical problems. Moreover, the use of resource-hungry PQPK algorithms in resource-constrained environments such as UNs can require nontrivial hardware/software optimization efforts. An alternative approach is underwater quantum key distribution (QKD), which promises unconditional security built upon the physical principles of quantum mechanics (QM). This tutorial provides a basic introduction to free-space underwater QKD (UQKD). At first, the basic concepts of QKD are presented, based on a fully worked out QKD example. A thorough state-of-the-art analysis of UQKD is carried out. The paper subsequently provides a theoretical analysis of the QKD performance through free-space underwater channels and its dependence on the key optical parameters of the system and seawater. Finally, open challenges, points of strength, and perspectives of UQKD are identified and discussed.
Author Alves, João
Paglierani, Pietro
Pelekanakis, Konstantinos
Fahim Raouf, Amir Hossein
Petroccia, Roberto
Uysal, Murat
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ContentType Journal Article
Copyright Copyright © 2023 Pietro Paglierani et al.
Copyright © 2023 Pietro Paglierani et al. This is an open access article distributed under the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. https://creativecommons.org/licenses/by/4.0
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Snippet The growing importance of underwater networks (UNs) in mission-critical activities at sea enforces the need for secure underwater communications (UCs)....
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SubjectTerms Acoustics
Algorithms
Computer systems
Confidentiality
Cryptography
Cybersecurity
Data exchange
Digital signatures
Encryption
Mathematical problems
Parameter identification
Protocol
Quantum computing
Quantum cryptography
Quantum mechanics
Satellite communications
Seawater
Software
Standardization
Underwater communication
Underwater construction
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Title A Primer on Underwater Quantum Key Distribution
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Volume 2023
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