Neuroaffirmative Approaches to Extended Reality: Empowering Individuals with Autism Spectrum Condition through Immersive Learning Environments

Authors

DOI:

https://doi.org/10.46328/ijtes.499

Keywords:

, extended reality (XR), virtual reality (VR), neurodivergence, ASC, ASD, neuroaffirmation, autism, future of education, future of work

Abstract

Traditional teaching and working environments often prioritize extroverted qualities, disadvantaging individuals with conditions that impact social engagement, such as autism spectrum condition (ASC). These individuals usually thrive in calmer, low-key learning environments but face challenges in lecture-style classes, and traditional office environments leading to marginalization in academic and professional settings. This study explores the neuroaffirming potential of extended reality (XR) in creating immersive learning and working environments tailored to the unique needs of individuals with ASC. By focusing on four key factors—indirect social engagement, digital communication preferences, sensory sensitivity, and avatar-based communication—XR technologies can provide a supportive and accommodating environment for those with sensory processing disorders (SPD). As the metaverse and virtual reality (VR) technology advances, education and industry can harness social VR to prepare students for a future of work defined by virtual collaboration. This research investigates the transformative role of XR and the metaverse in promoting a more inclusive educational and professional landscape by adapting environments to empower individuals with ASC, enabling them to reach their full potential in a neuroaffirmative manner.

Author Biographies

James Hutson, Lindenwood University

Prof. James Hutson is an administrator and researcher in higher education specializing in artificial intelligence, neurohumanities, neurodiversity, immersive realities, digital humanities, and gamification of education. He received his BA in Art from the University of Tulsa, MA in Art History from Southern Methodist University, and his PhD in Art History from the University of Maryland, College Park. He has also received his MA in Leadership and MA in Game Design at Lindenwood University and is now pursuing his PhD in Artificial Intelligence at Capitol Technology University. Dr. Hutson has taught at five universities across the country since 2006 and has served as chair of Art History and program manager of Pre-Art Therapy and Pre-Art Conservation, Assistant Dean of Graduate and Online Programs for the School of Arts, Media, and Communication, and now serves as Lead XR Disruptor and Department Head of Art History and Visual Culture for the College of Arts and Humanities. His scholarship focuses on the intersections of art, culture, and technology.   

Caitlyn McGinley, Center for Developing Minds, Developmental and Behavioral Pediatrics

Caitlyn McGinley https://orcid.org/0009-0007-6138-713XCenter for Developing Minds, Developmental and Behavioral PediatricsLos GatosUSAContact e-mail: caitlyn@devminds.com

References

Hutson, J., & McGinley, C. (2023). Neuroaffirmative approaches to extended reality: Empowering individuals with autism spectrum condition through immersive learning environments. International Journal of Technology in Education and Science (IJTES), 7(3), 400-414. https://doi.org/10.46328/ijtes.499

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Published

2023-08-12

Issue

Vol. 7 No. 3 (2023)

Section

Articles

License

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