In order to transmit secure messages, a quantum secure direct communication protocol based on extended three-particle GHZ state was presented, in which the extended three-particle GHZ state was used to detect eavesdro...In order to transmit secure messages, a quantum secure direct communication protocol based on extended three-particle GHZ state was presented, in which the extended three-particle GHZ state was used to detect eavesdroppers. In the security analysis, the method of the entropy theory is introduced, and three detection strategies are compared quantitatively by using the constraint between the information eavesdroppers can obtain and the interference introduced. If the eavesdroppers intend to obtain all inforrmtion, the detection rate of the original "Ping-pong" protocol is 50% ; the second protocol used two particles of EPR pair as detection particles is also 50%; while the presented protocol is 58%. At last, the security of the proposed protocol is discussed. The analysis results indicate that the protocol in this paper is more secure than the other two.展开更多
In order to solve the various privacy and security problems in RFID system, a new low-cost RFID mutual authentication protocol based on ID updating mechanics is proposed. In the proposed scheme, the backend server kee...In order to solve the various privacy and security problems in RFID system, a new low-cost RFID mutual authentication protocol based on ID updating mechanics is proposed. In the proposed scheme, the backend server keeps both the current ID and potential next ID for each tag, thus to solve the possible problem of de-synchronization attack in the most ID updating-based schemes. In the security analysis section, comparing several protocols in property required and attacker resistances, the comparison results show that the proposed protocol provides strong authentication and strong integrity of the transmissions and can withstand most the possible attacks that break the security of the previous schemes. In the performance evaluation section, the analysis results also indicate that, in terms of computational cost and storage requirement, the proposed scheme is safer, more efficient, more suitable for low-cost tag and more feasible in practice.展开更多
基金Acknowledgements The project was supported by the Specialized Research Found for the Doctoral Program of Higher Education of China under Grant No. 20060013007 the National Natural Science Foundation of Beijing under Caant No. 4092029 and the National Natural Science Foundation of China under Grant No. 61100205, No. 60873001.
文摘In order to transmit secure messages, a quantum secure direct communication protocol based on extended three-particle GHZ state was presented, in which the extended three-particle GHZ state was used to detect eavesdroppers. In the security analysis, the method of the entropy theory is introduced, and three detection strategies are compared quantitatively by using the constraint between the information eavesdroppers can obtain and the interference introduced. If the eavesdroppers intend to obtain all inforrmtion, the detection rate of the original "Ping-pong" protocol is 50% ; the second protocol used two particles of EPR pair as detection particles is also 50%; while the presented protocol is 58%. At last, the security of the proposed protocol is discussed. The analysis results indicate that the protocol in this paper is more secure than the other two.
基金supported by National Natural Science Foundation of China under Grant No. 61100205Foundation of China Information Technology Security Evaluation Center under Grant No. CNITSEC-KY-0910-019/5
文摘In order to solve the various privacy and security problems in RFID system, a new low-cost RFID mutual authentication protocol based on ID updating mechanics is proposed. In the proposed scheme, the backend server keeps both the current ID and potential next ID for each tag, thus to solve the possible problem of de-synchronization attack in the most ID updating-based schemes. In the security analysis section, comparing several protocols in property required and attacker resistances, the comparison results show that the proposed protocol provides strong authentication and strong integrity of the transmissions and can withstand most the possible attacks that break the security of the previous schemes. In the performance evaluation section, the analysis results also indicate that, in terms of computational cost and storage requirement, the proposed scheme is safer, more efficient, more suitable for low-cost tag and more feasible in practice.
