基于分层身份的ddn端到端安全加密

2008 4th International Conference on Intelligent Computer Communication and Processing Pub Date : 2008-10-10 DOI:10.1109/ICCP.2008.4648376

Rabin K. Patra, S. Surana, S. Nedevschi

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引用次数: 27

摘要

延迟容忍网络(DTN)出现在传统假设的今天的互联网，如连续的端到端连接，低延迟和低错误率不适用。这些挑战对dtn中可能的安全机制的选择和实现施加了限制。DTN安全体系结构的关键要求包括确保DTN基础设施免受未经授权的使用，以及通过为端到端通信提供机密性、完整性和身份验证服务来保护应用程序。在本文中，我们研究了在ddn中提供应用程序保护的问题，并研究了各种可能的机制。然后，我们提出了一种基于分层身份加密(HIBE)的体系结构，该体系结构提供端到端安全服务，以及具有细粒度撤销和访问控制的能力，同时确保有效的密钥管理和分发。我们认为，与标准公钥机制(PKI)相比，基于HIBE的机制在处理ddn的独特约束方面将更加有效。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Hierarchical identity based cryptography for end-to-end security in DTNs

Delay Tolerant Networks (DTN) arise whenever traditional assumptions about todaypsilas Internet such as continuous end-to-end connectivity, low latencies and low error rates are not applicable. These challenges impose constraints on the choice and implementation of possible security mechanisms in DTNs. The key requirements for a security architecture in DTNs include ensuring the protection of DTN infrastructure from unauthorized use as well as application protection by providing confidentiality, integrity and authentication services for end-to-end communication. In this paper, we examine the issues in providing application protection in DTNs and look at various possible mechanisms. We then propose an architecture based on Hierarchical Identity Based Encryption (HIBE) that provides end-to-end security services along with the ability to have fine-grained revocation and access control while at the same time ensuring efficient key management and distribution. We believe that a HIBE based mechanism would be much more efficient in dealing with the unique constraints of DTNs compared to standard public key mechanisms (PKI).

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2008 4th International Conference on Intelligent Computer Communication and Processing

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