Journal
QUANTUM INFORMATION PROCESSING
Volume 21, Issue 9, Pages -Publisher
SPRINGER
DOI: 10.1007/s11128-022-03676-6
Keywords
Blockchain; Internet of things; Quantum signature; Asymmetric cryptography; Quantum security
Funding
- Heilongjiang Touyan Innovation Team Program
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The Internet of things (IoT) devices are vulnerable to attacks due to lack of trust and coordination mechanisms. Blockchain provides low-cost credible communication for IoT nodes. However, traditional digital signature algorithms are not secure enough against quantum computing attacks. Therefore, we propose a quantum-assisted blockchain of things (QBoT) based on quantum signature to protect IoT systems and ensure secure communication between nodes.
The Internet of things (IoT) is a heterogeneous network, and devices produced by different manufacturers lack trust and coordination mechanisms, so they are vulnerable to attacks. Blockchain can provide credible communication at a low cost for IoT nodes. However, the classic digital signature algorithms commonly used in blockchain are no longer secure enough against quantum computing attacks. Given that the emergence of universal quantum computers is just around the corner, we propose a quantum-assisted blockchain of things (QBoT) based on quantum signature. This scheme can protect IoT systems from computation-based attacks and provide more secure communication assurance between nodes. Finally, we analyze the possible attacks on the IoT, and the results show that our proposed scheme can guarantee the security of common IoT attacks. Furthermore, compared with previous quantum-assisted blockchain schemes, QBoT is more efficient and scalable.
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