Abstract:
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The Internet of Things (IoT) has appeared and has become a hot topic in our society in the recent years and is growing a lot and quickly. The IoT is based on a group of connected objects, using embedded electronic, software, sensors and communication protocols able to collect and exchange information with different types of applications through networks connected to the internet. Within the different communications technologies that exists for the IoT, the LPWAN has emerged where the technologies that have triumphed and have been deployed successfully are the ones based on the LoRa/LoRaWAN protocol. The main feature and the reason why this technology has all the attention is that achieves long range transmissions in exchange of a very low energy consumption. To reach these aims, all the sensors on the network have to be well configured. Unfortunately, not all devices are powered by the electricity grid so external batteries are needed to feed all these devices to continue working. The main objective of this project is to modulate the energy consumption of this technology using commercially sensors and laboratory tools as power analysers to achieve these aims in a realistic environment. A study will be generated based on the possibilities that offer these models and which is the associated energy consumption for the many configurable parameters that LoRa/LoRaWAN offers. Therefore, an analytical model will be generated based on the obtained results in terms of battery lifetime, energy cost of data delivery and energy consumption of the LoRa/LoRaWAN protocol. In this document, all the necessary elements to deploy a fully LoRaWAN network will be shown as well as the correct configuration to demonstrate how these parameters affects the energy consumption of an end-device. |