DoTHa - a Double-Threshold Hand-off algorithm for managing mobility in wireless mesh networks

J. Aísa, H. Fotouhi, L. Almeida, J. L. Villarroel
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引用次数: 3

Abstract

Wireless communication will play an increasingly important role in future factory automation and process control, where the presence of mobile autonomous devices is expected to grow. However, wireless links are prone to errors due to shadowing and multi-path fading, which is even more severe in dynamic environments. These problems can be attenuated by using a mesh backbone to which mobile node connect to, using a hand-off algorithm. This solution is particularly important under real-time requirements typically found in factory automation. In this paper, we devise the Double-Threshold Hand-off (DoTHa) algorithm, a novel hand-off mechanism that triggers a hand-off in various environmental conditions. As a case study, we carry out the tele-operation of a mobile robot through a wireless mesh network in an indoor setting, using a wireless chain network protocol (WICKPro-SRT) that supports soft real-time traffic. We empirically compared DoTHa with two existing hand-off algorithms based on single and double hysteresis margin. The results revealed that DoTHa achieves Data Delivery Ratio (DDR) close to 100% whereas the single hysteresis-based hand-off suffers from frequent disconnections, dropping DDR to 88%. The double hysteresis-based hand-off shows higher ping-pong effect than DoTHa, doubling the number of hand-offs in some scenarios.
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DoTHa -一种管理无线网状网络移动性的双阈值切换算法
无线通信将在未来的工厂自动化和过程控制中发挥越来越重要的作用,预计移动自主设备的存在将会增长。然而,无线链路容易由于阴影和多径衰落而产生错误,在动态环境中这种情况更加严重。这些问题可以通过使用移动节点连接到的网状主干,使用切换算法来减轻。这种解决方案在工厂自动化的实时需求下尤为重要。在本文中,我们设计了双阈值切换(DoTHa)算法,这是一种新的切换机制,可以在各种环境条件下触发切换。作为一个案例研究,我们使用支持软实时流量的无线链网络协议(WICKPro-SRT),在室内环境中通过无线网状网络对移动机器人进行远程操作。我们将DoTHa与现有的两种基于单滞后余量和双滞后余量的切换算法进行了实证比较。结果显示,DoTHa实现了接近100%的数据传递率(DDR),而基于单一迟滞的切换受到频繁断开的影响,DDR降至88%。基于双迟滞的移交比DoTHa表现出更高的乒乓效应,在某些情况下移交的次数翻倍。
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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