交响乐团

Q2 Computer Science

ACM SIGBED Review Pub Date : 2020-01-06 DOI:10.1017/9781316662519.038

Harrison Kurunathan, Ricardo Severino, A. Koubâa, E. Tovar

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引用次数: 0

摘要

确定性同步多通道扩展(DSME)是在IEEE 802.15.4e中首次引入的一种重要的MAC行为。它的多层超框架结构可以实现确定性和最佳努力服务。RPL是一种无线网络路由协议，具有低功耗和易丢包的特点。这两个标准是独立设计的，但共同的目标是满足物联网设备在有限能源、可靠性和确定性方面的要求。这两种协议的组合可以集成实时QoS需求和大规模物联网网络。在本文中，我们提出了一种新的多通道，多时隙调度算法，称为Symphony，它在DSME网络中提供QoS高效调度。在本文中，我们对我们的方法提供了基于分析和仿真的延迟分析，以对抗一些最新的算法。在这项工作中，我们表明将路由与DSME集成可以将可靠性提高40%，并且通过使用Symphony，我们可以将网络延迟减少10- 20%，而不是最先进的算法。

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Symphony

Deterministic Synchronous Multichannel Extension (DSME) is a prominent MAC behavior first introduced in IEEE 802.15.4e. It can avail deterministic and best effort Service using its multisuperframe structure. RPL is a routing protocol for wireless networks with low power consumption and generally susceptible to packet loss. These two standards were designed independently but with the common objective to satisfy the requirements of IoT devices in terms of limited energy, reliability and determinism. A combination of these two protocols can integrate real-time QoS demanding and large-scale IoT networks. In this paper, we propose a new multi-channel, multi-timeslot scheduling algorithm called Symphony that provides QoS efficient schedules in DSME networks. In this paper we provide analytical and simulation based delay analysis for our approach against some state of the art algorithms. In this work, we show that integrating routing with DSME can improve reliability by 40% and by using Symphony, we can reduce the network delay by 10--20% against the state of the art algorithms.

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来源期刊

ACM SIGBED Review Computer Science-Computer Science (miscellaneous)

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