| 1. | Public - key encryption asymmetric cryptography
公钥加密(不对称加密) |
| 2. | Part 3 : asymmetric cryptography
第3部分:非对称密码术 |
| 3. | Digital signature technology is based on the asymmetric cryptography technology
这一点,即为本论文的出发点和研究对象。 |
| 4. | Key pair in asymmetric cryptography , the public and private keys together . key recovery
在非对称密码术中,公钥和私钥组合在一起成为密钥对。 |
| 5. | It is generated by the transformation of the electronic record using asymmetric cryptography and a hash function
而该签署是用非对称密码技术及杂凑函数,将该电子记录作数据变换而产生。 |
| 6. | Public key cryptography or asymmetric cryptography forms the basis of digital signatures and public key infrastructure
公开密码匙加密术或非对称加密术构成数码签署及公开密码匙基础建设的基础。 |
| 7. | Public key cryptography or asymmetric cryptography forms the basis of digital signatures and public key infrastructure
公开密码匙加密术或非对称加密术构成数码签署及公开密码匙基础建设的基础。 |
| 8. | Public key cryptography is also known as asymmetric cryptography , which is different from symmetric cryptography described in last month s column
公钥密码术也称为非对称密码术,它不同于在上个月的专栏文章中所讲的对称密码术。 |
| 9. | Provides an introduction to key concepts in cryptography , such as asymmetric cryptography , symmetric cryptography , digital signatures , and cryptographic hashes
介绍加密的主要概念,例如不对称加密、对称加密、数字签名和加密哈希。 |
| 10. | Namespace contains classes that allow you to perform both symmetric and asymmetric cryptography , create hashes , and provide random number generation
命名空间包含一些类,通过这些类您可以执行对称和不对称加密,创建哈希值和提供随机数生成。 |
