公开密钥基础设施(PKI)是解决网络安全的技术。
Public key infrastructure (PKI) is one of the important techniques for solving network security problem.
公开密钥基础设施被用于创建、管理、存储、分发和吊销公钥证书。
Public key infrastructures can be used to create, manage, store, distribute and revocate certificates.
公钥-私钥组合是公共密钥基础设施的核心,建立在非对称密码的基础上。
Public-private key combination is at the heart of Public key Infrastructure (PKI), and is based on asymmetric cypher.
Yocto项目旨在为构建嵌入式Linux的开发人员提供密钥基础设施。
The Yocto project aims to provide key infrastructure for people working on building embedded Linux.
SPKM是一种GSS - API机制,其基于公钥而非对称密钥基础设施。
SPKM is a GSS-API mechanism which is based on a public key rather than a symmetric key infrastructure.
分析了应用证书撤消列表(CRL)发布公共密钥基础设施(PKI)证书状态信息的传统模型。
This paper analyzed the traditional model of public key infrastructure (PKI) certificate status information issued by certificate revocation list (CRL).
因此,当应用程序需要一种基于公共密钥基础设施的GSS-API机制时,SPKM 就能满足它的要求。
So for applications that need to have a GSS-API mechanism which is based on a public-key infrastructure, SPKM is the answer.
公开密钥基础设施PKI是一种利用非对称密码技术为电子商务、电子政务和电子事务的开展提供一整套安全保护的基础平台。
Public Key Infrastructure (PKI) utilizes the asymmetrical cryptography technology to lay the security foundation for the electronic commerce, the electronic government and the electronic business.
为了很好工作,数字信封需要有一个公开的密钥基础设施:没有正确的数字密钥对包装器解密,入侵者就不能看到里面的信息。
To work well, digital envelopes require that a public key infrastructure is in place: without the correct digital key to decrypt the wrapper, an intruder can't view the message inside.
xml加密和数字签名依赖于公共密钥基础设施(Public Key Infrastructure,PKI)来帮助加密(encrypt)、解密(decrypt)、签名(sign)和验证(verify)各种文档。
XML encryption and digital signatures rely on Public Key Infrastructure (PKI) to help encrypt, decrypt, sign, and verify various documents.
该产品的优点在于顾客取代提供商保存自己的密钥而不需要创建一个复杂的安全文件基础设施。
The advantage here are that customers, not the providers, own their own keys without the need to create a complex secure file infrastructure.
相同的基础设施还负责管理用于加密LTPA令牌的密钥。
The same infrastructure manages the keys used to encrypt LTPA tokens.
SPKM使用公钥基础设施在一个联机分布式应用程序环境下提供身份验证、密钥设立、数据完整性和数据机密性。
SPKM provides authentication, key establishment, data integrity, and data confidentiality in an online distributed application environment using a public key infrastructure.
xml密钥管理规范(XML Key Management Specification,XKMS)使得安全性基础设施易于管理,而安全性断言标记语言(Security Assertion Markup Language,SAML)则使信任可以移植。
The XML Key management Specification (XKMS) allows for easy management of the security infrastructure, while the security Assertion Markup Language (SAML) makes trust portable.
在按需付费的基础设施中,灾难恢复、专用密钥管理和控件行为公开是SaaS环境中的主要安全性顾虑。
Disaster recovery, private key management, and disclosure of controls activities are security concerns in the SaaS environment in the pay-on-demand infrastructure.
WPKI是在有线pki基础上进行优化拓展,为无线通信环境提供密钥管理的基础设施。
WPKI (wireless Public key infrastructure) is carried on the optimized development in the wired PKI foundation, provides the key management infrastructure for the wireless correspondence environment.
能提供这种服务的基础设施就是公开密钥安全基础设施(PKI)。
The infrastructure which can provide security services is called Public Key infrastructure (PKI).
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.
该方案基于公钥基础设施体系架构,采用了随机数、“盐”和多轮迭代等手段保证系统的安全性,并且通过在客户端进行密钥生成和加解密操作的方式实现了系统的可扩展性。
The scheme was based on the public key infrastructure(PKI) architecture with system security achieved by various means such as random numbers, salt, and multiple round iterations.
该方案基于公钥基础设施体系架构,采用了随机数、“盐”和多轮迭代等手段保证系统的安全性,并且通过在客户端进行密钥生成和加解密操作的方式实现了系统的可扩展性。
The scheme was based on the public key infrastructure(PKI) architecture with system security achieved by various means such as random numbers, salt, and multiple round iterations.
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