Opportunistic Transmission of Control Packets for Faster Formation of 6TiSCH Network

IF 3.5 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS ACM Transactions on Internet of Things Pub Date : 2021-01-02 DOI:10.1145/3430380
Alakesh Kalita, M. Khatua
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引用次数: 10

Abstract

Network bootstrapping is one of the initial tasks executed in any wireless network such as Industrial Internet of Things (IIoT). Fast formation of IIoT network helps in resource conservation and efficient data collection. Our probabilistic analysis reveals that the performance of 6TiSCH based IIoT network formation degrades with time because of the following reasons: (i) IETF 6TiSCH Minimal Configuration (6TiSCH-MC) standard considered that beacon frame has the highest priority over all other control packets, (ii) 6TiSCH-MC provides minimal routing information during network formation, and (iii) sometimes, joined node can not transmit control packets due to high congestion in shared slots. To deal with these problems, this article proposes two schemes—opportunistic priority alternation and rate control (OPR) and opportunistic channel access (OCA). OPR dynamically adjusts the priority of control packets and provides sufficient routing information during network bootstrapping, whereas OCA allows the nodes having urgent packet to transmit it in less time. Along with the theoretical analysis of the proposed schemes, we also provide comparison-based simulation and real testbed experiment results to validate the proposed schemes together. The received results show significant performance improvements in terms of joining time and energy consumption.
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6TiSCH网络快速形成控制包的机会传输
网络引导是任何无线网络(如工业物联网(IIoT))中执行的初始任务之一。工业物联网网络的快速形成有助于资源节约和高效的数据收集。我们的概率分析表明,由于以下原因,基于6TiSCH的IIoT网络形成性能随着时间的推移而下降:(i) IETF 6TiSCH最小配置(6TiSCH- mc)标准认为信标帧具有高于所有其他控制数据包的最高优先级;(ii) 6TiSCH- mc在网络形成过程中提供的路由信息最少;(iii)有时,由于共享槽的高度拥塞,加入节点无法传输控制数据包。针对这些问题,本文提出了机会优先级交替和速率控制(OPR)和机会信道接入(OCA)两种方案。OPR可以动态调整控制报文的优先级,并在网络启动过程中提供足够的路由信息,而OCA则允许具有紧急报文的节点在更短的时间内传输。在对所提方案进行理论分析的同时,我们还提供了基于对比的仿真和真实试验台实验结果来验证所提方案。得到的结果表明,在连接时间和能耗方面有显著的性能改进。
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来源期刊
CiteScore
5.20
自引率
3.70%
发文量
0
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