A New Multi-Party Quantum Private Comparison Protocol Based on Circle Model
Published 2019 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
A New Multi-Party Quantum Private Comparison Protocol Based on Circle Model
Authors
Keywords
Multi-party quantum private comparison, Outside attack, Participants attack
Journal
INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS
Volume -, Issue -, Pages -
Publisher
Springer Science and Business Media LLC
Online
2019-07-09
DOI
10.1007/s10773-019-04197-2
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- A Generic Construction of Quantum-Oblivious-Key-Transfer-Based Private Query with Ideal Database Security and Zero Failure
- (2018) Chun-Yan Wei et al. IEEE TRANSACTIONS ON COMPUTERS
- Cryptanalysis of the Quantum Private Comparison Protocol Based on the Entanglement Swapping Between Three-Particle W-Class State and Bell State
- (2018) Xiang Gao et al. INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS
- The Security Problems in Some Novel Arbitrated Quantum Signature Protocols
- (2017) Long Zhang et al. INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS
- Improvements of Quantum Private Comparison Protocol Based on Cluster States
- (2017) Ming-Kuai Zhou INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS
- An improved arbitrated quantum signature protocol based on the key-controlled chained CNOT encryption
- (2017) Long Zhang et al. Quantum Information Processing
- Multi-party quantum private comparison based on the entanglement swapping of d-level cat states and d-level Bell states
- (2017) Ji Zhao-Xu et al. Quantum Information Processing
- Security of a kind of quantum secret sharing with entangled states
- (2017) Tian-Yin Wang et al. Scientific Reports
- Multi-Party Quantum Private Comparison Protocol Based on Entanglement Swapping of Bell Entangled States
- (2016) Tian-Yu Ye COMMUNICATIONS IN THEORETICAL PHYSICS
- Secure Multiparty Quantum Computation for Summation and Multiplication
- (2016) Run-hua Shi et al. Scientific Reports
- Postprocessing of the Oblivious Key in Quantum Private Query
- (2015) Fei Gao et al. IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS
- QKD-based quantum private query without a failure probability
- (2015) Bin Liu et al. Science China-Physics Mechanics & Astronomy
- Security of quantum digital signatures for classical messages
- (2015) Tian-Yin Wang et al. Scientific Reports
- Quantum secret sharing via local operations and classical communication
- (2015) Ying-Hui Yang et al. Scientific Reports
- Cryptanalysis of a Quantum Proxy Weak Blind Signature Scheme
- (2014) Ke-Jia Zhang et al. INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS
- Security of a sessional blind signature based on quantum cryptograph
- (2014) Tian-Yin Wang et al. Quantum Information Processing
- Multi-party quantum private comparison protocol with $$n$$ n -level entangled states
- (2014) Qing-Le Wang et al. Quantum Information Processing
- Practical quantum private query of blocks based on unbalanced-state Bennett-Brassard-1984 quantum-key-distribution protocol
- (2014) Chun-Yan Wei et al. Scientific Reports
- Multi-party Quantum Private Comparison Protocol Using d-Dimensional Basis States Without Entanglement Swapping
- (2013) Wen Liu et al. INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS
- Private database queries based on counterfactual quantum key distribution
- (2013) Jia-Li Zhang et al. PHYSICAL REVIEW A
- Improving the security of arbitrated quantum signature against the forgery attack
- (2013) Ke-Jia Zhang et al. Quantum Information Processing
- Quantum private comparison of equality protocol without a third party
- (2013) Jason Lin et al. Quantum Information Processing
- Quantum Private Comparison Protocol Based on Bell Entangled States
- (2012) Wen Liu et al. COMMUNICATIONS IN THEORETICAL PHYSICS
- NEW QUANTUM PRIVATE COMPARISON PROTOCOL WITHOUT ENTANGLEMENT
- (2012) YU-GUANG YANG et al. INTERNATIONAL JOURNAL OF QUANTUM INFORMATION
- Quantum Private Comparison Based on GHZ Entangled States
- (2012) Wen Liu et al. INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS
- Flexible quantum private queries based on quantum key distribution
- (2012) Fei Gao et al. OPTICS EXPRESS
- Cryptanalysis of dynamic quantum secret sharing
- (2012) Tian-Yin Wang et al. Quantum Information Processing
- Multi-user private comparison protocol using GHZ class states
- (2012) Yao-Jen Chang et al. Quantum Information Processing
- Efficient and feasible quantum private comparison of equality against the collective amplitude damping noise
- (2012) Xiu-Bo Chen et al. Quantum Information Processing
- Cryptanalysis and improvement of the quantum private comparison protocol with semi-honest third party
- (2012) Wei-Wei Zhang et al. Quantum Information Processing
- Efficient quantum private comparison employing single photons and collective detection
- (2012) Bin Liu et al. Quantum Information Processing
- Comment on quantum private comparison protocols with a semi-honest third party
- (2012) Yu-Guang Yang et al. Quantum Information Processing
- Practical private database queries based on a quantum-key-distribution protocol
- (2011) Markus Jakobi et al. PHYSICAL REVIEW A
- New quantum private comparison protocol using EPR pairs
- (2011) Hsin-Yi Tseng et al. Quantum Information Processing
- An Efficient Protocol for the Secure Multi-party Quantum Summation
- (2010) Xiu-Bo Chen et al. INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS
- Cryptanalysis of multiparty quantum secret sharing with Bell states and Bell measurements
- (2010) Tian-Yin Wang et al. OPTICS COMMUNICATIONS
- Quantum secret sharing with qudit graph states
- (2010) Adrian Keet et al. PHYSICAL REVIEW A
- An efficient two-party quantum private comparison protocol with decoy photons and two-photon entanglement
- (2009) Yu-Guang Yang et al. Journal of Physics A-Mathematical and Theoretical
- Secure quantum private comparison
- (2009) Yu-Guang Yang et al. PHYSICA SCRIPTA
Publish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn MoreCreate your own webinar
Interested in hosting your own webinar? Check the schedule and propose your idea to the Peeref Content Team.
Create Now