Theoretical analysis of IPv6 stateless address autoconfiguration in Low-power and Lossy Wireless Networks

The 2015 IEEE RIVF International Conference on Computing & Communication Technologies - Research, Innovation, and Vision for Future (RIVF) Pub Date : 2015-02-26 DOI:10.1109/RIVF.2015.7049899

J. Montavont, Cosmin Cobarzan, Thomas Noël

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引用次数: 14

Abstract

Low-power and Lossy Wireless Networks (LLN) is a crucial enabling technology for a broad range of applications that will touch everybody's life and be driving forces for new businesses. Example of the rapidly emerging application domains are the Internet of Things, Smart Cities and Smart Homes. Recently, there is strong effort to provide LLN with IP connectivity. Supporting IP provides interoperability with existing IP devices and infrastructure together with the access to a large panel of tools for diagnostic, management and commissioning. However, enabling such solutions on LLN requires to optimize the IP communication stack. Among the features introduced by IP, the stateless address autoconfiguration is of particular importance as the success of IP is largely because of its ability to connect together networks of different sizes and types. In this article, we propose a complete evaluation of the stateless address autoconfiguration in LLN. Our theoretical analysis is based on neighbor discovery optimizations especially designed for LLN.

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低功耗和有损无线网络中IPv6无状态地址自动配置的理论分析

低功耗和有损无线网络(LLN)是一项至关重要的使能技术，它将影响到每个人的生活，并推动新业务的发展。快速崛起的应用领域包括物联网、智慧城市和智能家居。最近，人们正在努力为LLN提供IP连接。支持IP提供了与现有IP设备和基础设施的互操作性，以及对用于诊断、管理和调试的大型工具面板的访问。但是，在LLN上启用此类解决方案需要优化IP通信堆栈。在IP引入的特性中，无状态地址自动配置尤为重要，因为IP的成功很大程度上是因为它能够将不同规模和类型的网络连接在一起。在本文中，我们对LLN中的无状态地址自动配置进行了完整的评估。我们的理论分析是基于专门为LLN设计的邻居发现优化。

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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The 2015 IEEE RIVF International Conference on Computing & Communication Technologies - Research, Innovation, and Vision for Future (RIVF)

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