Trust security mechanism for marine Wireless Sensor Networks

2015 Federated Conference on Computer Science and Information Systems (FedCSIS) Pub Date : 2015-11-09 DOI:10.15439/2015F169

Walid Elgenaidi, T. Newe

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引用次数: 5

Abstract

To provide a strong security service in Wireless Sensor Networks (WSNs), cryptographic mechanisms are required. Generally these security mechanisms demand intensive use of limited resource, such as memory, and energy to provide a defense against attacks. Monitoring the behavior of nodes and detecting risks according to these behaviors, and then taking decisions based on these measurements generally requires the use of a trusted Key Management scheme. In this paper we compare two existing security key management schemes that were designed for use in mobile ad hoc networks: “An overlay approach to data security in ad-hoc networks” authored by Jorg Liebeherr, Guangyu Dong, and “A hierarchical key management scheme for secure group communications in mobile ad hoc networks” authored by Nen-Chung Wang, Shian-Zhang Fang. Then a Hybrid Security Key Management Mechanism designed for use in the marine environment is proposed. This scheme focuses on reducing the memory storage of keys, using a leader node that is responsible for both the node joining and the node revoke processes. This security mechanism is implementing in real time on the Waspmote sensor platform.

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船舶无线传感器网络信任安全机制

为了在无线传感器网络(WSNs)中提供强大的安全服务，需要加密机制。通常，这些安全机制需要大量使用有限的资源(如内存和能源)来防御攻击。监视节点的行为并根据这些行为检测风险，然后根据这些度量做出决策，通常需要使用可信的密钥管理方案。在本文中，我们比较了设计用于移动自组织网络的两种现有安全密钥管理方案:Jorg Liebeherr, Guangyu Dong撰写的“自组织网络中数据安全的覆盖方法”和由Nen-Chung Wang, Shian-Zhang Fang撰写的“移动自组织网络中安全组通信的分层密钥管理方案”。然后提出了一种适用于海洋环境的混合安全密钥管理机制。该方案侧重于减少密钥的内存存储，使用负责节点加入和节点撤销过程的领导节点。该安全机制在Waspmote传感器平台上实时实现。

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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来源期刊

2015 Federated Conference on Computer Science and Information Systems (FedCSIS)

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