Contention Based Proportional Fairness (CBPF) Transmission Scheme for Time Slotted Channel Hopping Networks
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Time Slotted Channel Hopping (TSCH) is a Medium Access Control (MAC) protocol introduced in IEEE802.15.4e standard, addressing low power requirements of the Internet of Things (IoT) and Low Power Lossy Networks (LLNs). The 6TiSCH Operation sublayer (6top) of IEEE802.15.4e defines the schedule that includes sleep, transmit and receive routines of the nodes. However, the design of schedule is not specified by the standard. In this paper, we propose a contention based proportional fairness (CBPF) transmission scheme for TSCH networks to maximize the system throughput addressing fair allocation of resources to the nodes. We propose a convex programming based method to achieve the fairness and throughput objectives. We model TSCH MAC as a multichannel slotted aloha and analyse it for a schedule given by the 6top layer. Performance metrics like throughput, delay and energy spent per successful transmission are derived and validated through simulations. The proposed CBPF transmission scheme has been implemented in the IoT-LAB public testbed to evaluate its performance and to compare with the existing scheduling algorithms.
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