分布式乘法计算是安全多方计算中的重要部分,也是设计门限密码体制的基本协议。
Distributed multiplication computation is an important part of secure multi-party computation and a basic protocol of threshold cryptography.
仿真结果表明该方案在平均签名时间和签名验证成功率上要优于传统的门限密码体制。
Simulation results demonstrate that it is better than traditional threshold cryptosystem with respect to the average signature of time and successful signature rate.
分布式乘法计算是构造门限密码体制的基本模块,同时也是安全多方计算领域的重要研究内容。
They are basic modules to construct threshold cryptosystems, and also important components of secure multiparty computation.
最后,基于本文提出的椭圆曲线密码体制上的门限代理签名方案,设计开发了一个电子审稿系统。
Last, based on the above scheme, an electronic review system is designed and developed, which can reduce the workload of editors and increase the automation of review systems.
结合椭圆曲线密码体制、门限密码技术和盲签名方案,该文提出了一种基于椭圆曲线可验证的门限盲签名方案。
This paper presents a new verifiable threshold blind signature scheme based on the elliptic curve by adopting threshold cryptography and blind signature scheme.
结合椭圆曲线密码体制、门限密码技术和盲签名方案,该文提出了一种基于椭圆曲线可验证的门限盲签名方案。
This paper proposes a threshold multi-proxy blind multi-signature scheme based on elliptic curve by adopting threshold cryptography and blind signature scheme.
目前的门限代理签名方案几乎都是基于离散对数问题的,基于RSA密码体制的门限代理签名方案几乎很少。
The proposed threshold proxy signature schemes have been based on the discrete logarithm problem, and there are few RSA-based schemes.
目前的门限代理签名方案几乎都是基于离散对数问题的,基于RSA密码体制的门限代理签名方案几乎很少。
The proposed threshold proxy signature schemes have been based on the discrete logarithm problem, and there are few RSA-based schemes.
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