Quantum key distribution(QKD)provides an unconditional secure key generation method between two distant legitimate parties Alice and Bob based on the fundamental properties of quantum mechanics,in the presence of an e...Quantum key distribution(QKD)provides an unconditional secure key generation method between two distant legitimate parties Alice and Bob based on the fundamental properties of quantum mechanics,in the presence of an eavesdropper Eve.Since key reconciliation cannot always assure that the reconciled keys between Alice and Bob are identical,error verification is an important step in QKD.In this paper,we propose a scheme of delayed error verification using extra keys gained by privacy amplification with an arbitrarily small failure probability.The proposed scheme simplifies the post-processing procedure in QKD,which can be applied in practical QKD systems.展开更多
基于无线信道特征的密钥生成过程中,为了降低通信双方生成的密钥不一致率常采取的措施是密钥协商。通常的密钥协商过程是在BSC信道下进行密钥协商,但是协商的效率较低。为了提高密钥协商的效率,本文提出一种在等效信道下基于LDPC编译码...基于无线信道特征的密钥生成过程中,为了降低通信双方生成的密钥不一致率常采取的措施是密钥协商。通常的密钥协商过程是在BSC信道下进行密钥协商,但是协商的效率较低。为了提高密钥协商的效率,本文提出一种在等效信道下基于LDPC编译码的协议机制。在此协议机制中,无线信道下采用Mathur[1-2]等人提出的Level-Crossing算法(LCA)提取密钥的过程构成了本协议中的等效信道,该机制对LCA提取后的密钥协商信息进行建模,推导了等效信道的最佳似然比,并据此采用LDPC码简单的加权比特翻转等译码算法[3-5]来有效进行密钥协商。将等效信道下LDPC码加权比特译码算法用于协商过程的性能和BSC信道下协商后的性能进行仿真,在SNR大于6 d B的前提下,仿真结果表明:1)在相同低门限的条件下,和LCA算法生成的初始密钥相比较,利用LDPC码比特翻转译码等算法在等效信道下和在BSC信道下协商后的密钥不一致率比初始密钥不一致率降低1至2个数量级;2)在等效信道下利用简单加权比特翻转译码算法进行密钥协商后的密钥不一致率比BSC信道下协商后的密钥不一致率降低大约1个数量级。展开更多
基金supported by the National Basic Research Program of China (2011CBA00200 and 2011CB921200)the National Natural Science Foundation of China (61101137,61201239,61205118,and 11304397)
文摘Quantum key distribution(QKD)provides an unconditional secure key generation method between two distant legitimate parties Alice and Bob based on the fundamental properties of quantum mechanics,in the presence of an eavesdropper Eve.Since key reconciliation cannot always assure that the reconciled keys between Alice and Bob are identical,error verification is an important step in QKD.In this paper,we propose a scheme of delayed error verification using extra keys gained by privacy amplification with an arbitrarily small failure probability.The proposed scheme simplifies the post-processing procedure in QKD,which can be applied in practical QKD systems.
文摘基于无线信道特征的密钥生成过程中,为了降低通信双方生成的密钥不一致率常采取的措施是密钥协商。通常的密钥协商过程是在BSC信道下进行密钥协商,但是协商的效率较低。为了提高密钥协商的效率,本文提出一种在等效信道下基于LDPC编译码的协议机制。在此协议机制中,无线信道下采用Mathur[1-2]等人提出的Level-Crossing算法(LCA)提取密钥的过程构成了本协议中的等效信道,该机制对LCA提取后的密钥协商信息进行建模,推导了等效信道的最佳似然比,并据此采用LDPC码简单的加权比特翻转等译码算法[3-5]来有效进行密钥协商。将等效信道下LDPC码加权比特译码算法用于协商过程的性能和BSC信道下协商后的性能进行仿真,在SNR大于6 d B的前提下,仿真结果表明:1)在相同低门限的条件下,和LCA算法生成的初始密钥相比较,利用LDPC码比特翻转译码等算法在等效信道下和在BSC信道下协商后的密钥不一致率比初始密钥不一致率降低1至2个数量级;2)在等效信道下利用简单加权比特翻转译码算法进行密钥协商后的密钥不一致率比BSC信道下协商后的密钥不一致率降低大约1个数量级。
