Results show that OTAA procedure incurs high activation delays and power consumption, especially in large scale where the network traffic is high. This is due to three main factors: collisions, the back-off retransmission mechanism and join-request duty-cycle.
Our study shows that in a LoRaWAN cell composed of 1000 end-devices, the average activation delay for an end-device is about 35 minutes and this activation ...
Our objective is to analyse the end-device activation delay and power consumption at large scale LoRaWAN. To achieve this goal, we design an experimental ...
Performance analysis of the on-the-air activation in LoRaWAN. In 2016 IEEE ... Experimental analysis of the Over-The-Air activation procedure in LoRaWAN.
Jan 13, 2024 · Our study shows that in a LoRaWAN cell composed of 1000 end-devices, the average activation delay for an end-device is about 35 minutes and this ...
Aug 1, 2022 · Our study shows that in a LoRaWAN cell composed of 1000 end-devices, the average activation delay for an end-device is about 35 minutes and this ...
This paper explores the best way to wirelessly (Over The Air, OTA) update low-end IoT nodes with difficult access, combining the use of unicast and broadcast ...
This paper proposes a Markov chain model of the on-the-air activation of the LoRaWAN (long-range wide area network) standard, and derives the expected delay ...
In this paper, we analyze the behavior and performance of a LoRaWAN network supporting the smart parking service in the city of Santander.
Our study shows that in a LoRaWAN cell composed of 1000 end-devices, the average activation delay for an end-device is about 35 minutes and this activation ...