Möller, Moritz; Nirmal, Gargi; Fabietti, Dario; Stierstorfer, Quintus; Zakhvatkin, Mark; Sommerfeld, Holger; Schütt, Sven
Revolutionising Distance Learning: A Comparative Study of Learning Progress with AI-Driven Tutoring Sonstige
Preprint, 2024.
Abstract | Links | BibTeX | Schlagwörter: A, artificial intelligence, higher education, large language models, university teaching
@misc{Möller2024,
title = {Revolutionising Distance Learning: A Comparative Study of Learning Progress with AI-Driven Tutoring},
author = {Moritz Möller and Gargi Nirmal and Dario Fabietti and Quintus Stierstorfer and Mark Zakhvatkin and Holger Sommerfeld and Sven Schütt},
url = {https://arxiv.org/abs/2403.14642v1
https://doi.org/10.48550/arXiv.2403.14642
},
doi = {10.48550/arXiv.2403.14642},
year = {2024},
date = {2024-02-21},
issue = {arXiv:2403.14642v1},
abstract = {Generative AI is expected to have a vast, positive impact on education; however, at present, this potential has not yet been demonstrated at scale at university level. In this study, we present first evidence that generative AI can increase the speed of learning substantially in university students. We tested whether using the AI-powered teaching assistant Syntea affected the speed of learning of hundreds of distance learning students across more than 40 courses at the IU International University of Applied Sciences. Our analysis suggests that using Syntea reduced their study time substantially--by about 27% on average--in the third month after the release of Syntea. Taken together, the magnitude of the effect and the scalability of the approach implicate generative AI as a key lever to significantly improve and accelerate learning by personalisation.},
howpublished = {Preprint},
keywords = {A, artificial intelligence, higher education, large language models, university teaching},
pubstate = {published},
tppubtype = {misc}
}
Generative AI is expected to have a vast, positive impact on education; however, at present, this potential has not yet been demonstrated at scale at university level. In this study, we present first evidence that generative AI can increase the speed of learning substantially in university students. We tested whether using the AI-powered teaching assistant Syntea affected the speed of learning of hundreds of distance learning students across more than 40 courses at the IU International University of Applied Sciences. Our analysis suggests that using Syntea reduced their study time substantially--by about 27% on average--in the third month after the release of Syntea. Taken together, the magnitude of the effect and the scalability of the approach implicate generative AI as a key lever to significantly improve and accelerate learning by personalisation.