Proceedings of the XXth Conference of Open Innovations Association FRUCT (Nov 2024)
Identifying the Prospects of the RedBoard Arduino in LTE Wireless Landscapes
Abstract
In the backdrop of an enormous increase in Internet of Things (IoT) devices and advanced wireless networks like Long-Term Evolution (LTE), it is essential, from various perspectives, to understand the performance behavior. The RedBoard Arduino is a microcontroller that enables real-time insights and performance for your remote monitoring, data gathering, and control applications. The study aims to evaluate the latency and throughput performance of Redboard Arduino in LTE cellular wireless networks. Success of IoT applications in real-time environments is anchored by these performance indicators. An environment set up was created to analyze the RedBoard Arduino in diverse network scenarios. We studied how data packet sizes, network congestion, signal strength and uplink transmissions affect the performance of devices. Trials were conducted under a range of circumstances to mimic real-world scenarios. The RedBoard Arduino was good under perfect network conditions. Latency on the other hand saw a much larger range due to fluctuating network load, signal quality, and packet size. These difference can be very critical to systems which depend on real time data exchange and decision-making. Network characteristics dictate the successful coexistence of RedBoard Arduino with LTE networks for evolving IoT applications. The research contributes to the ongoing debate on performance management of IoT devices over next generation wireless networks, highlighting that adaptive mechanisms are required for communicating with specific network conditions.
