Random-deadline missing probability analysis for wireless communications in industrial environments

M. Kashef, N. Moayeri
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引用次数: 3

Abstract

The flexibility of wireless networks, and the need for more data to be transferred in modern industries have motivated the industrial wireless communications. Strict industrial requirements including the time-sensitive delivery of data have led to developing appropriate wireless technologies to satisfy these requirements. Various industrial wireless protocols employ Time division multiple access (TDMA) because of preventing data collision between various transmissions and the easiness of employment. In this work, we study the scheduling problem of multiple wireless data flows for industrial applications. The data flows have random strict deadlines following a given probability distribution. In modern industries, these flows may be sensing data routed from a sensor to the controller or control commands directed from the controller to an actuator. A randomized frame-based scheduling scheme is analyzed where each time slot in the frame is assigned to a data flow randomly. We derive a method to calculate the average number of packets missing their deadlines per frame that can be used for flow admission control or optimization of the scheduling algorithm. Finally, we study the effects of various system parameters on the ratio of the average number of packets missing their deadlines to the average total number of packets generated.
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工业环境下无线通信随机截止日期缺失概率分析
无线网络的灵活性和现代工业对数据传输的需求推动了工业无线通信的发展。严格的工业要求,包括时间敏感的数据传输,导致开发适当的无线技术来满足这些要求。各种工业无线协议都采用时分多址(TDMA)技术,因为它可以防止各种传输之间的数据冲突,并且易于使用。本文研究了工业应用中多无线数据流的调度问题。数据流具有随机的严格截止日期,遵循给定的概率分布。在现代工业中,这些流可能是从传感器路由到控制器的传感数据或从控制器直接到执行器的控制命令。分析了一种基于随机帧的调度方案,该方案将帧中的每个时隙随机分配给一个数据流。我们推导了一种计算每帧错过截止日期的数据包平均数量的方法,该方法可用于流量接纳控制或调度算法的优化。最后,我们研究了各种系统参数对错过截止日期的平均数据包数与生成的平均总数据包数之比的影响。
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