Forschungs- & Publikationsdatenbank

  
Publikation Nr. 2703 - Details

Kasch, J., Rosmalen, P.v. & Kalz, M. (2021). Educational scalability in MOOCs: Analysing instructional designs to find best practices, Computers & Education, 2021(104054), 1-12.

URL: https://www.sciencedirect.com/science/article/pii/S0360131520302529
ISSN: 0360-1315
DOI: https://doi.org/10.1016/j.compedu.2020.104054


Abstract
MOOCs provide interaction and formative feedback to high student numbers without being highly depending on the capacity of the teacher? We have applied a design analysis instrument that was specifically developed for large-scale online courses to analyse fifty MOOCs in a qualitative way. The goal of the analysis was to detect scalable best practices of formative feedback and interaction and focused on when, how and from whom students received formative feedback. To get more insight into the scalable best practices we also investigated on which complexity level they were provided. The analysis indicated scalable best practices on various complexity levels and across different learning activities. This shows that scalable formative feedback and interaction can be provided in MOOCs through different formats such quizzes, peer-feedback and simulations. The majority of the MOOCs in our sample provide student-content interaction during knowledge transfer activities (‘knows’). A selection of design examples is discussed as potentially best practices for educational scalability, not only for MOOCs but also for online education in general. While the study shows examples of scalable design choices in (open) online education, it also indicates a need for more elaborate interactions and feedback in MOOCs in order to improve their educational value and quality.


Attribute:
Sprache:
Art der Begutachtung: Peer Review(Double-blind peer review)
Print: Ja
Online: Ja, mit Open Access und CC-Lizenz
Datenmedium: Nein