Engineering End-to-End Remote Labs using IoT-based Retrofitting
Abstract
Remote labs are a groundbreaking development in the education industry, providing students with access to laboratory education anytime, anywhere. However, most remote labs are costly and difficult to scale, especially in developing countries. With this as a motivation, this paper proposes a new remote labs (RLabs) solution that includes two use case experiments: Vanishing Rod and Focal Length. The hardware experiments are built at a low-cost by retrofitting Internet of Things (IoT) components. They are also made portable by designing miniaturised and modular setups. The software architecture designed as part of the solution seamlessly supports the scalability of the experiments, offering compatibility with a wide range of hardware devices and IoT platforms. Additionally, it can live-stream remote experiments without needing dedicated server space for the stream. The software architecture also includes an automation suite that periodically checks the status of the experiments using computer vision (CV). RLabs is qualitatively evaluated against seven non-functional attributes - affordability, portability, scalability, compatibility, maintainability, usability, and universality. Finally, user feedback was collected from a group of students, and the scores indicate a positive response to the students' learning and the platform's usability.
Keywords
Cite
@article{arxiv.2402.05466,
title = {Engineering End-to-End Remote Labs using IoT-based Retrofitting},
author = {K. S. Viswanadh and Akshit Gureja and Nagesh Walchatwar and Rishabh Agrawal and Shiven Sinha and Sachin Chaudhari and Karthik Vaidhyanathan and Venkatesh Choppella and Prabhakar Bhimalapuram and Harikumar Kandath and Aftab Hussain},
journal= {arXiv preprint arXiv:2402.05466},
year = {2025}
}
Comments
30 pages, 7 tables and 20 figures. Submitted to ACM Transactions on IoT