E-payment protocol scheme based on quantum entanglement measurement theory
Received date: 2023-04-06
Online published: 2024-05-25
朱旻昊 , 马雷 . 基于量子纠缠测量理论的电子支付协议设计[J]. 华东师范大学学报(自然科学版), 2024 , 2024(3) : 136 -146 . DOI: 10.3969/j.issn.1000-5641.2024.03.015
An electronic payment protocol based on basic quantum mechanics is proposed. Some current loopholes in the classic payment systems pose security risks. The proposed scheme utilizes the correlations existing between entangled particles at the quantum level to implement the steps of signing, purchasing, and paying, whereby the validity of a signature is verified via quantum one-way functions and quantum SWAP test circuits. Payment information is transmitted through redundant particles in channel detection, thereby saving costs. Experimental results show that the proposed scheme has unconditional security as guaranteed by the basic principles of quantum mechanics and meets the basic requirements of payment systems.
| 1 | CHAUM D. Blind signatures for untraceable payments [C]// Advances in Cryptology: Proceedings of Crypto 82. Boston, Springer, 1983: 199-203. |
| 2 | MOHANTY S, MAJHI B, DAS S, et al.. A secure electronic cash based on a certificateless group signcryption scheme. Mathematical and Computer Modelling, 2013, 58 (1/2): 186- 195. |
| 3 | MESHRAM C, IMOIZE A L, ALJAEDI A, et al.. An efficient electronic cash system based on certificateless group signcryption scheme using conformable chaotic maps. Sensors, 2021, 21 (21): 7039- 7039. |
| 4 | HATEFI Z, BAYAT M, ALAGHBAND M R, et al. A conditional privacy-preserving fair electronic payment scheme based on blockchain without trusted third party [J]. Journal of Ambient Intelligence and Humanized Computing, 2023, 14: 10089–10102. |
| 5 | SHOR P W.. Algorithms for quantum computation: Discrete logarithms and factoring. Artificial Ergy, 1994, 11 (5): 124- 134. |
| 6 | WOOTTERS W K, ZUREK W H.. A single quantum cannot be cloned. Nature, 1982, 299 (5886): 802- 803. |
| 7 | WEHNER S, WINTER A.. Entropic uncertainty relations—a survey. New Journal of Physics, 2010, 12 (2): 025009. |
| 8 | 田原, 温晓军, 公延军, 等.. 应用量子盲签名和群签名的电子支付系统. 计算机工程与应用, 2011, 47 (19): 108- 112. |
| 9 | ZHOU R G, LI W, HUAN T T, et al.. An online banking system based on quantum cryptography communication. International Journal of Theoretical Physics, 2014, 53 (7): 2177- 2190. |
| 10 | ZHANG J Z, YANG Y Y, XIE S C, et al.. A third-party e-payment protocol based on quantum group blind signature. International Journal of Theoretical Physics, 2017, 56 (9): 2981- 2989. |
| 11 | NIU X F, ZHANG J Z, XIE S C, et al.. A third-party e-payment protocol based on quantum multi-proxy blind signature. International Journal of Theoretical Physics, 2018, 57 (8): 2563- 2573. |
| 12 | TILIWALIDI K, ZHANG J Z, XIE S C, et al.. A multi-bank e-payment protocol based on quantum proxy blind signature. International Journal of Theoretical Physics, 2019, 58 (10): 3510- 3520. |
| 13 | NIU X F, ZHANG J Z, XIE S C, et al.. A quantum multi-proxy blind signature scheme based on entangled four-qubit cluster state. Communications in Theoretical Physics, 2018, 70 (1): 43- 48. |
| 14 | JIANG D H, HU Q Z, LIANG X Q, et al.. A trusted third-party e-payment protocol based on locally indistinguishable orthogonal product states. International Journal of Theoretical Physics, 2020, 59, 1442- 1450. |
| 15 | GOU X L, SHI R H, GAO W, et al.. A novel quantum e-payment protocol based on blockchain. Quantum Information Processing, 2021, 20 (5): 192. |
| 16 | 何业锋, 杨梦玫, 李智, 等.. 基于量子行走的电子支付协议. 光学学报, 2023, 43 (5): 0527001. |
| 17 | BUHRMAN H, CLEVE R, WATROUS J, et al.. Quantum fingerprinting. Physical Review Letters, 2001, 87 (16): 167902. |
| 18 | BENNETT C H, BRASSARD G.. Quantum cryptography: Public key distribution and coin tossing. Theoretical Computer Science, 2014, 560, 7- 11. |
| 19 | SHOR P W, PRESKILL J.. Simple proof of security of the BB84 quantum key distribution protocol. Physical Review Letters, 2000, 85 (2): 441- 444. |
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