Open science as a path to education of new psychophysiologists

Abstract

There is a pressing need for resources to train the next generation of psychophysiologists. Psychophysiology, and especially the subfield of cognitive electrophysiology, poses challenges for educators because it requires an understanding of complex concepts and experimental design, advanced analysis and programming skills, and access to specialized software and equipment. These challenges are common to other STEM fields as well. We present PURSUE (Preparing Undergraduates for Research in STEM Using Electrophysiology - www.PursueERP.com) as an example initiative that engages open educational practices to create and share freely available electrophysiology training materials. This model uses evidence-based pedagogy to create accessible and flexible materials, an open database with supporting lab-based training resources, and also provides instructor support during implementation. This model can be used for other areas within STEM. We review benefits and challenges of using open science research and publishing practices for training. Open science resources have benefits for both course-based undergraduate research experiences and other types of training by increasing access to publications, software, and code for conducting experiments and analyses, as well as access to data for those who do not have access to research equipment. Further, we argue that coordinated open educational practices are necessary to take full advantage of open science resources for training students. Open educational practices such as open educational resources, collaborative course building, and implementation support greatly enhance the ability to incorporate these open science resources into a curriculum.

Keywords: Cognitive electrophysiology; Open education; Open science; Psychophysiology; Teaching.