analysis and discrete-time simulations to understand their limitations. However, current
literature is not always coherent in its assumptions and network setups. This paper proposes
a comprehensive analysis of the known causes of packet loss in an uplink-only LoRaWAN
network: duty cycle limitations, packet collision, insufficient coverage, and saturation of a
receiver's demodulation paths. Their impact on the overall Quality of Service (QoS) for a two …
The large-scale behaviour of LoRaWAN networks has been studied through mathematical
analysis and discrete-time simulations to understand their limitations. However, current
literature is not always coherent in its assumptions and network setups. This paper proposes
a comprehensive analysis of the known causes of packet loss in an uplink-only LoRaWAN
network: duty cycle limitations, packet collision, insufficient coverage, and saturation of a
receiver's demodulation paths. Their impact on the overall Quality of Service (QoS) for a two …