RT-Ranked: Towards Network Resiliency by Anticipating Demand in TSCH/RPL Communication Environments

IF 4.1 3区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS Journal of Network and Systems Management Pub Date : 2024-01-03 DOI:10.1007/s10922-023-09796-3
Ivanilson França Vieira Junior, Jorge Granjal, Marilia Curado
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Abstract

Time-slotted Channel Hopping (TSCH) Media Access Control (MAC) was specified to target the Industrial Internet of Things needs. This MAC balances energy, bandwidth, and latency for deterministic communications in unreliable wireless environments. Building a distributed or autonomous TSCH schedule is arduous because the node negotiates cells with its neighbours based on queue occupancy, latency, and consumption metrics. The Minimal TSCH Configuration defined by RFC 8180 was specified for bootstrapping a 6TiSCH network and detailed configurations necessary to be supported. In particular, it adopts Routing Protocol for Low Power and Lossy networks (RPL) Non-Storing mode, which reduces the node’s network awareness. Dealing with unpredicted traffic far from the forwarding node is difficult due to limited network information. Anticipating this unexpected flow from multiple network regions is essential because it can turn the forwarding node into a network bottleneck leading to high latency, packet discard or disconnection rates, forcing RPL to change the topology. To cope with that, this work proposes a new mechanism that implements an RPL control message option for passing forward the node’s cell demand, allowing the node to anticipate the proper cell allocation for supporting the traffic originating by nodes far from the forwarding point embedded in Destination-Oriented Directed Acyclic Graph (DODAG) Information Object (DIO) and Destination Advertisement Object (DAO) RPL control messages. Implementing this mechanism in a distributed TSCH Scheduling developed in Contiki-NG yielded promising results in supporting unforeseen traffic bursts and has the potential to significantly improve the performance and reliability of TSCH schedules in challenging network environments.

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RT-Ranked:通过预测 TSCH/RPL 通信环境中的需求实现网络弹性
时隙信道跳频 (TSCH) 媒体访问控制 (MAC) 是针对工业物联网的需求而设计的。这种 MAC 可在不可靠的无线环境中平衡确定性通信的能量、带宽和延迟。建立分布式或自主 TSCH 计划非常困难,因为节点会根据队列占用率、延迟和消耗指标与其邻居协商单元。RFC 8180 中定义的最小 TSCH 配置是为引导 6TiSCH 网络和支持所需的详细配置而指定的。特别是,它采用了低功耗和低损耗网络路由协议(RPL)非存储模式,减少了节点的网络感知。由于网络信息有限,很难处理远离转发节点的意外流量。预测这种来自多个网络区域的意外流量至关重要,因为它会使转发节点成为网络瓶颈,导致高延迟、数据包丢弃率或断开率,从而迫使 RPL 改变拓扑结构。为了应对这种情况,本研究提出了一种新的机制,它实现了一种 RPL 控制信息选项,用于转发节点的小区需求,允许节点预测适当的小区分配,以支持嵌入在面向目的地的有向无环图(DODAG)信息对象(DIO)和目的地广告对象(DAO)RPL 控制信息中的远离转发点的节点所产生的流量。在 Contiki-NG 中开发的分布式 TSCH 调度中实施这种机制,在支持不可预见的流量突发方面取得了可喜的成果,并有可能显著提高 TSCH 调度在具有挑战性的网络环境中的性能和可靠性。
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来源期刊
CiteScore
7.60
自引率
16.70%
发文量
65
审稿时长
>12 weeks
期刊介绍: Journal of Network and Systems Management, features peer-reviewed original research, as well as case studies in the fields of network and system management. The journal regularly disseminates significant new information on both the telecommunications and computing aspects of these fields, as well as their evolution and emerging integration. This outstanding quarterly covers architecture, analysis, design, software, standards, and migration issues related to the operation, management, and control of distributed systems and communication networks for voice, data, video, and networked computing.
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