移动切换与 6LoWPAN 邻区发现辅助通信

Shanshan Jia, Gaukhar A. Kamalova, Dmytro Mykhalevskiy
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摘要

本研究课题的重要性源于物联网(IoT)模式的蓬勃发展,以及由此产生的设计和实施一种有效的邻居检测方法以促进移动节点的补充连接的必要性。本研究的主要目的是阐明一种与 6LoWPAN 固有的邻居发现范例相一致的移动切换技术。本文采用的方法框架结合了对 IEEE 802.15.4aa 个人无线网络中 IPv6 协议 6LoWPAN 通信标准基本原则的系统分析,以及对指定个人无线网络离散节点间信息传播动态的经验评估。调查结果表明,6LoWPAN 网络标准是加强物联网远程实体可靠通信的主要工具,其前提是使用 IPv6 通信协议。与 IPv4 协议(32 位)相比,IPv6 协议的地址容量更大(128 位),因此在监控领域尤为突出。这种网络连接固有的适应性提高了移动切换的质量,特别是考虑到 6LoWPAN 的邻居发现辅助通信标准在现实世界中的应用。这些研究成果的实际意义表明,它们在满足物联网系统用户需求和实现 6LoWPAN 通信标准固有的网络协作精神方面具有潜在的实用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mobile Handoff with 6LoWPAN Neighbour Discovery Auxiliary Communication
The importance of the topic under investigation stems from the burgeoning prominence of the Internet of Things (IoT) paradigm and the consequent imperative to devise and institute an efficacious methodology for neighbour detection that facilitates supplementary connections to mobile nodes. This research primarily aims to elucidate a mobile handover technique aligning with the neighbour discovery paradigm inherent in 6LoWPAN. The methodological framework employed herein amalgamates a systematic analysis of the foundational tenets governing 6LoWPAN communication standards over the IPv6 protocol in the context of IEEE 802.15.4aa personal wireless networks, supplemented with empirical evaluation of message propagation dynamics among discrete nodes of a designated personal wireless network. The findings of this investigation underscore the pre-eminence of the 6LoWPAN networking standard as a prime vehicle for bolstering the dependable communication of IoT's remote entities, contingent upon the utilization of the IPv6 communication protocol. This iteration of the Internet protocol is superior, particularly in surveillance contexts, given its expansive address capacity (128 bits) juxtaposed against its antecedent, the IPv4 protocol (32 bits). The inherent adaptability of this network connection augments the quality of mobile handover, especially when one considers the real-world application of 6LoWPAN's neighbour discovery auxiliary communication standard. The tangible implications of these findings beckon their potential utility in satiating the demands of IoT system users and actualizing the network collaboration ethos intrinsic to the 6LoWPAN communication standard. 
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