Lifetime bounds of Wi-Fi enabled sensor nodes

Wireless sensor and actuator networks are often deployed in areas that already have a wireless infrastructure. Coexisting in this infrastructure is a challenge, as the used communication techniques interfere. Instead of fighting to fit in, one could try to tap into the existing infrastructure. This solves the coexistence problem, does not require new infrastructure and makes the integration of systems trivial. To determine the feasibility of such a solution, our work focuses on analysing energy consumption and power management policies of Wi-Fi enabled nodes based on recent hardware. Our analysis shows that for some tasks, Wi-Fi nodes are becoming a viable option and it may not be necessary to retain the current practice of deploying and maintaining specialised wireless sensor and actuator networks

A Survey on LoRaWAN Technology: Recent Trends, Opportunities, Simulation Tools and Future Directions

Low-power wide-area network (LPWAN) technologies play a pivotal role in IoT applications, owing to their capability to meet the key IoT requirements (e.g., long range, low cost, small data volumes, massive device number, and low energy consumption). Between all obtainable LPWAN technologies, long-range wide-area network (LoRaWAN) technology has attracted much interest from both industry and academia due to networking autonomous architecture and an open standard specification. This paper presents a comparative review of five selected driving LPWAN technologies, including NB-IoT, SigFox, Telensa, Ingenu (RPMA), and LoRa/LoRaWAN. The comparison shows that LoRa/LoRaWAN and SigFox surpass other technologies in terms of device lifetime, network capacity, adaptive data rate, and cost. In contrast, NB-IoT technology excels in latency and quality of service. Furthermore, we present a technical overview of LoRa/LoRaWAN technology by considering its main features, opportunities, and open issues. We also compare the most important simulation tools for investigating and analyzing LoRa/LoRaWAN network performance that has been developed recently. Then, we introduce a comparative evaluation of LoRa simulators to highlight their features. Furthermore, we classify the recent efforts to improve LoRa/LoRaWAN performance in terms of energy consumption, pure data extraction rate, network scalability, network coverage, quality of service, and security. Finally, although we focus more on LoRa/LoRaWAN issues and solutions, we introduce guidance and directions for future research on LPWAN technologies