Sequential Waterfilling for Adaptive Data Rate allocation in LoraWAN
LoRaWAN (Long Range Wide Area Network) is emerging as an attractive network infrastructure for ultra low power Internet of Things devices. Even if the technology itself is quite mature and specified, the currently deployed wireless resource allocation strategies are still coarse and based on rough heuristics. This paper proposes an innovative "sequential waterfilling" strategy for assigning Spreading Factors (SF) to end-devices. Our design relies on three complementary approaches: i) equalize the Time-on-Air of the packets transmitted by the system's end-devices in each spreading factor's group; ii) balance the spreading factors across multiple access gateways, and iii) keep into account the channel capture, which our experimental results show to be very substantial in LoRa. While retaining an extremely simple and scalable implementation, this strategy yields a significant improvement (up to 38%) in the network capacity over the default Adaptive Data Rate (ADR), and appears to be extremely robust to different operating/load conditions and network topology configurations.
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