Work-In-Progress: Assessing Supply/Demand-Bound Based Schedulability Tests For Wireless Sensor-Actuator Networks

2020 16th IEEE International Conference on Factory Communication Systems (WFCS) Pub Date : 2020-04-01 DOI:10.1109/WFCS47810.2020.9114438

Miguel Gutiérrez Gaitán, P. Yomsi, P. Santos, Luís Almeida

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引用次数: 5

Abstract

The rising adoption of wireless technologies in the In- dustrial Internet of Things has stressed the need for traffic schedulability validation at system design-time to support safety and time critical streams (e.g., process control and emergency response). In this context, the demand-based schedulability tests have recently been proposed in the literature. This work revisits two well-established techniques borrowed from the multi-processor scheduling theory, namely the demand-bound-function (DBF) and the forced-forward-demand-bound-function (FFDBF), and evaluates their performances when adapted to the field of wireless sensor-actuator networks. Simulation experiments when varying network configurations confirm the equal or better accuracy of FFDBF over DBF to estimate both network demand and schedulability. In future work, we aim at building upon these promising results in order to design novel admission control and adaptation strategies that improve network schedulability under varying workload conditions.

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正在进行的工作:评估无线传感器-执行器网络的基于供应/需求约束的可调度性测试

工业物联网中越来越多地采用无线技术，强调了在系统设计时对流量可调度性进行验证的必要性，以支持安全和时间关键流(例如，过程控制和应急响应)。在这方面，最近在文献中提出了基于需求的可调度性测试。本文回顾了从多处理器调度理论中借鉴的两种成熟的技术，即需求约束函数(DBF)和强制前向需求约束函数(FFDBF)，并评估了它们在无线传感器-执行器网络领域的性能。不同网络配置下的仿真实验证实，在估计网络需求和可调度性方面，FFDBF与DBF具有相同或更好的准确性。在未来的工作中，我们的目标是在这些有希望的结果的基础上，设计新的准入控制和适应策略，以提高不同工作负载条件下的网络可调度性。

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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2020 16th IEEE International Conference on Factory Communication Systems (WFCS)

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