Using Science Education Gateways to Improve Undergraduate STEM Education: The QUBES Platform as a Case Study
Author(s): Sam S Donovan1, Drew LaMar2
1. BioQUEST Curriculum Consortium 2. College of William and Mary
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- Using Science Education Gateways to Improve Undergraduate STEM Education: The QUBES Platform as a Case Study | IEEE Journals & Magazine | IEEE Xplore
- [2301.01760] Using Science Education Gateways to improve undergraduate STEM education: The QUBES Platform as a case study
- Open Access: Using Science Education Gateways to Improve Undergraduate STEM Education: The QUBES Platform as a Case Study (Journal Article) | NSF PAGES
- License terms
Description
As of March 1, 2024 you can access the published paper on the NSF Public Access Repository.
The paper was published in Computing in Science and Engineering an IEEE journal as part of a theme issue: Science Gateways: Accelerating Research and Education (paywall).
A preprint is also available on ARXIV.
Please feel free to email Sam Donovan or Drew LaMar with comments or questions.
Abstract:
The Quantitative Undergraduate Biology Education and Synthesis (QUBES) platform was conceived as a “science education gateway” and designed to accelerate innovation in undergraduate science, technology, engineering, and mathematics (STEM) education. The technical infrastructure was purpose built to provide more equitable access to professional resources, support learning that reflects authentic science, and promote open educational practices. Four platform services (Open Educational Resource library access; professional learning; partner support; and customizable workspaces) support overlapping faculty user communities, provide multiple points of entry, and enable manifold use-case scenarios. The integrated nature of the platform makes it possible to collect, curate, and disseminate a diverse array of reform resources in a scalable and sustainable manner. We believe that the cyberinfrastructure provided by the QUBES platform has the capacity to broaden participation in scholarship around teaching and learning and, furthermore, that it can help to lower faculty barriers to the adoption of reform practices. Thus, we call for further exploration of the roles of cyberinfrastructure in undergraduate STEM education.This paper describes BioQUEST's vision for the QUBES platform as an engine for science education reform.
Notes
Version 2 contains an updated link to the open access version of the paper on the NSF public access repository (NSF-PAR).
Cite this work
Researchers should cite this work as follows:
- Sam S Donovan, Drew LaMar (2024). Using Science Education Gateways to Improve Undergraduate STEM Education: The QUBES Platform as a Case Study. BioQUEST Curriculum Consortium, (Version 2.0). QUBES Educational Resources. doi:10.25334/0WHK-0E11