Cryptanalysis and improvement on two party quantum private comparison based on seven-qubit and eight-qubit states

被引：4

作者：

Tsai, Chia-Wei ^{[1
]}

Lin, Jason ^{[2
]}

Chao, Han-Chieh ^{[3
]}

Yang, Chun-Wei ^{[4
]}

机构：

[1] Natl Taichung Univ Sci & Technol, Dept Comp Sci & Informat Engn, 129,Sec 3,Sanmin Rd, Taichung 40401, Taiwan

[2] Natl Chung Hsing Univ, Dept Comp Sci & Engn, 145 Xingda Rd, Taichung 40227, Taiwan

[3] Natl Dong Hwa Univ, Dept Elect Engn, 1,Sec 2,Da Hsueh Rd, Hualien 974301, Taiwan

[4] China Med Univ, Coll Humanities & Sci, Master Program Digital Hlth Innovat, 100,Sec 1,Jingmao Rd, Taichung 406040, Taiwan

来源：

MODERN PHYSICS LETTERS A | 2022年 / 37卷 / 19期

关键词：

Secure multi-party computation; quantum private comparison; entanglement state; quantum key distribution; PROTOCOL;

D O I：

10.1142/S0217732322501206

中图分类号：

P1 [天文学];

学科分类号：

0704 ;

摘要：

Ji et al. [Mod. Phys. Lett. A 34, 1950229 (2019)] and Fan et al. [Mod. Phys. Lett. A 37, 2250026 (2022)] proposed two-party quantum private comparison (QPC) protocols based on 7-qubit and 8-qubit states, respectively. However, these two QPC protocols did not consider third-party (TP) attacks. Therefore, this study focuses on TP attacks and demonstrates that the property of a 7-qubit or 8-qubit entanglement state is useless in this attack situation; that is, the participant wastes resources to maintain the qubits. For the same assumption environment proposed by Ji et al. and Fan et al., this study proposes an improvement and simplification protocol that allows participants to reach the goal of private comparison by using only classical computation and the classical communication channel without any entanglement state.

引用

页数：14

共 50 条

[31] Cryptanalysis and improvement in semi-quantum private comparison based on Bell states
Chia-Wei Tsai
Jason Lin
Chun-Wei Yang
Quantum Information Processing, 2021, 20
[32] Cryptanalysis and Improvement of Quantum Private Comparison Protocol Based on Bell Entangled States
Liu Wen-Jie
Liu Chao
Chen Han-Wu
Li Zhi-Qiang
Liu Zhi-Hao
COMMUNICATIONS IN THEORETICAL PHYSICS, 2014, 62 (02) : 210 - 214
[33] Cryptanalysis and improvement in semi-quantum private comparison based on Bell states
Tsai, Chia-Wei
Lin, Jason
Yang, Chun-Wei
QUANTUM INFORMATION PROCESSING, 2021, 20 (03)
[34] Cryptanalysis and Improvement of Quantum Private Comparison Protocol Based on Bell Entangled States
刘文杰
刘超
陈汉武
李志强
刘志昊
Communications in Theoretical Physics, 2014, 62 (08) : 210 - 214
[35] Quantum Cyclic Controlled Teleportation of Unknown States with Arbitrary Number of Qubits by Using Seven-qubit Entangled Channel
Shiya Sun
Lixin Li
Huisheng Zhang
International Journal of Theoretical Physics, 2020, 59 : 1017 - 1030
[36] A secure deterministic remote state preparation via a seven-qubit entangled channel of a two-qubit entangled state under the impact of quantum noise
Singh, Deepak
Kumar, Sanjeev
Behera, Bikash K.
OPTICS COMMUNICATIONS, 2023, 535
[37] Quantum Cyclic Controlled Teleportation of Unknown States with Arbitrary Number of Qubits by Using Seven-qubit Entangled Channel
Sun, Shiya
Li, Lixin
Zhang, Huisheng
INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS, 2020, 59 (04) : 1017 - 1030
[38] Improvement on Quantum Bidirectional Teleportation Scheme of two ? two or two ? Three Qubit Quantum States
Sisodia, Mitali
INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS, 2023, 62 (03)
[39] Cryptanalysis and improvement of quantum private comparison of equality protocol without a third party
Zhang, Bo
Liu, Xingtong
Wang, Jian
Tang, Chaojing
QUANTUM INFORMATION PROCESSING, 2015, 14 (12) : 4593 - 4600
[40] Cryptanalysis and improvement of quantum private comparison of equality protocol without a third party
Bo Zhang
Xingtong Liu
Jian Wang
Chaojing Tang
Quantum Information Processing, 2015, 14 : 4593 - 4600

← 1 2 3 4 5 →