智能卡上的常用公钥算法为RSA和ECC算法。
RSA and ECC are two public-key algorithms generally used on smart card.
组合公钥技术是一种新的认证技术,它是基于标识的公钥算法技术。
This technology is a new authentication technique, and it's an algorithm based on the identity technology.
此外,文中以公钥与单钥算法相结合的方式来确保数据的安全传输和认证。
In addition, public key and symmetric key operations are employed simultaneously to ensure the secure transmission and authentication of data.
大多数公钥算法,包括RSA和ECDSA,可以容易地扩展以支持数字签名。
Most public key algorithms, including RSA and ECDSA, can be easily extended to support digital signatures.
不对称加密算法(也称为公钥算法)要求每个实体都维护一对相关密钥:私钥和公钥。
Asymmetric cryptographic algorithms, also known as public-key algorithms, require that each entity maintains a pair of related keys: a private key and a public key.
RSA算法是一种既能用于数据加密也能用于数字签名的公钥算法,具有较高的安全性。
RSA algorithm is a sort of public-key cipher algorithm with high security is used in both data encryption and digital signature.
综合运用对称加密算法和公钥算法,既保证敏感信息的存储安全又为密钥提供安全高效的管理。
This scheme used of symmetry encryption and public key encryption which provided secured storage for sensitive data and effective key management.
在连接握手时,SSL利用公钥算法和数字证书在素不相识的各方之间建立信任并交换当前会话的私钥。
At a connection handshake, SSL utilizes public key algorithms and digital certificates to establish trust between parties that haven't met before and exchange private keys for the current session.
此属性标识创建XML数字签名时涉及到的所有加密功能,包括哈希算法、公钥算法、消息身份验证代码(MAC)和填充。
This property identifies all cryptographic functions involved in creating an XML digital signature, including hashing, public key algorithms, Message Authentication Codes (MACs), and padding.
公钥基础设施(PKI)通过公钥算法来实现身份认证和密钥交换,但由于其采用集中管理的模式,容易成为网络访问的瓶颈。
Public key infrastructures (PKI) achieve authentication and key exchange by utilizing public key cryptography; however, the system's centralized models tend to be the bottleneck in the network.
两个广泛使用的公钥加密算法是RSA(根据其发明者Rivest、Shamir和Adleman 命名)和DSA(数字签名算法)。
Two public-key cryptography algorithms that are widely used are RSA (named after its inventors Rivest, Shamir and Adleman) and DSA (Digital Signature Algorithm).
非对称算法使用不同的密钥对消息进行加密或解密;其中一个秘钥必须是秘密的,而另一个密钥通常是公开的。
An asymmetric algorithm USES a different key for encrypting or decrypting the message; one of the keys must be kept secret, and the other key is usually made public.
这种应用程式必须指定附加金钥、算法、处理和再现需要。
Such an application must specify additional key, algorithm, processing and rendering requirements.
这是摘录算法、金钥从属算法和可能的其它算法的组合。
It is a combination of a digest algorithm, a key dependent algorithm, and possibly other algorithms.
传递的数据使用公钥(非对称)加密算法加密,所以只有对应私钥的持有者才能解密数据。
The transmitted data is encrypted using public key (asymmetric) cryptography so that only the holder of the corresponding private key can decrypt the data.
对称算法将使用服务器的数字证书中的公钥。
The asymmetric algorithm USES the public key in the server's digital certificate.
您从第1部分中可以看到,这个公钥是基于rsa算法生成的。
As you saw in Part 1, this public key would be based on the RSA algorithm.
识别资料机制可以包括证书、金钥名称和金钥协定算法。
Identification mechanisms can include certificates, key names, and key agreement algorithms.
对称算法的性能比非对称算法的性能快,但是在参与者之间安全地传递秘钥会引起分发问题。
Symmetric algorithms have faster performance than asymmetric algorithms, but passing the secret key securely between participants poses a distribution problem.
对称密钥(公钥)算法用于交换在对称算法中使用的加密密钥,以及用于数字签名。
An asymmetric key (public key) algorithm is used for the exchange of the secret keys to be used in symmetric algorithm and for digital signatures.
通过一个数学算法,一个私钥如同您的电子身份证;公钥如同您向其出示身份证的锁或门机制。
Through a mathematical algorithm, a private key is like your electronic identification card; the public key is like the lock or gate mechanism that you present your ID card to.
JCE 提供程序必须支持生成公钥和私钥的RSA算法。
The JCE provider must support the RSA algorithm type for generating public and private keys.
对称算法要求消息的发送方和接收方使用同一个秘钥;这通常被称作秘钥密码术。
A symmetric algorithm requires that both the sender and receiver of the message use the same secret key; this is often referred to as secret key cryptography.
用于数据加密的密钥是使用带有与服务提供者(Service Provider)的 X.509证书相关联的公钥的非对称算法进行加密的。
The key used for the data encryption is encrypted itself using an asymmetric algorithm with the public key associated with the Service Provider's X.509 certificate.
在公钥密码系统中加密和解密算法是公开的,因此私钥存储管理成了公钥系统安全中薄弱的环节。
As the encryption algorithm and decryption algorithm are open to everyone, so the private key storage management becomes an insecure part in public key system.
我知道所有的公钥密码体制的使用1 - 1关键的关系。所以它不可能与标准算法。
All Public key cryptosystems I know of USES a 1-1 key relationship. So it's not possible with the standard algorithms available.
本文详细地分析了乘除算法,并讨论了该算法在RSA公钥保密系统中的应用。
Analysis of MD algorithm and its application to RSA public-key cryptosystems are given in detail.
水印的嵌入和提取算法都是公开的,公钥系统取代了普通的水印密钥。
The algorithms for the watermark embedding and extracting are both open, and public key cryptosystem is utilized instead of common watermark key.
在此基础上我们构造出快速高效的公钥密码算法,并对该算法进行了安全性和效率分析。
And from which the fast and efficient public-key cryptosystems are constructed, and their security and efficiency are analysed.
介绍了曲线公钥密码算法的体制和特点,着重分析了用椭圆曲线密码算法实现SSL协议的过程。
With the presentation of ECC algorithm and its traits, the thesis specially analyses the process by using ECC to implement SSL.
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