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Abstract
Wireless mesh networks are a promising technology for connecting sensors and actuators with high flexibility and low investment costs. In industrial applications, however, reliability is essential. Therefore, two time-slotted medium access methods, DSME and TSCH, were added to the IEEE 802.15.4 standard. They allow collision-free communication in multi-hop networks and provide channel hopping for mitigating external interferences. The slot schedule used in these networks is of high importance for the network performance. This paper supports the development of efficient schedules by providing an analytical model for the assessment of such schedules, focused on TSCH. A Markov chain model for the finite queue on every node is introduced that takes the slot distribution into account. The models of all nodes are interconnected to calculate network metrics such as packet delivery ratio, end-to-end delay, and throughput. An evaluation compares the model with a simulation of the Orchestra schedule. The model is applied to Orchestra as well as to two simple distributed scheduling algorithms to demonstrate the importance of traffic-awareness for achieving high throughput.
Highlights
Wireless multi-hop networks are currently on the transition from a popular research topic to the application in real-world scenarios in the industry
9 Conclusions The paper presents an analytical approach for the assessment of wireless mesh networks that use a collision-free time-division multiple access (TDMA)
A queuing model based on a Markov chain is proposed that models forwarding traffic and irregular slot schedules accurately, in contrast to the well-known M/D/1/K model
Summary
Wireless multi-hop networks are currently on the transition from a popular research topic to the application in real-world scenarios in the industry. Examples include oil refineries [1] and solar tower power plants [2]. For such applications, the reliability of state-of-the-art techniques is not sufficient. This can often be traced back to packet collisions due to badly coordinated access to the wireless channel [3]. The IEEE has recently extended the IEEE 802.15.4 standard with two approaches for time-division multiple access (TDMA) in multi-hop networks, namely DSME and TSCH [4].
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