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Dr. Mohammad Abedrabbu Alkhawaldeh, Dr. Mohamad Ahmad Saleem Khasawneh

Abstract

The advent of neurofeedback-based brain-computer interfaces (BCIs) has presented a highly promising avenue in the realm of assistive technology for individuals with learning disabilities. The primary objective of this research endeavor was to explore the efficacy of neurofeedback-based brain-computer interfaces (BCIs) in mitigating the challenges associated with learning disabilities, particularly those pertaining to attention-deficit/hyperactivity disorder (ADHD), dyslexia, and autism spectrum disorder (ASD). The study utilized a rigorous quantitative approach, employing a methodology that encompassed both pre- and post-assessments of cognitive functioning, attention, and academic performance measures. The findings of the study revealed noteworthy enhancements in these metrics among individuals diagnosed with ADHD who participated in neurofeedback training. These results underscore the promising prospects of employing neurofeedback-based brain-computer interfaces as a viable and efficacious intervention for this specific population. Nevertheless, the findings pertaining to individuals with dyslexia and autism spectrum disorder (ASD) exhibited a complex and diverse array of outcomes, thereby underscoring the imperative for additional investigation and the development of customized interventions. The discoveries presented in this study make a valuable addition to the expanding collection of evidence that endorses the promising capabilities of neurofeedback-based brain-computer interfaces (BCIs) as a transformative assistive technology for individuals with learning disabilities. Moreover, these findings underscore the significance of tailoring interventions to meet the unique needs of distinct learning disability populations. Additional investigation is merited to delve into individualized neurofeedback protocols and augment the amalgamation of assistive technology within educational environments for individuals grappling with learning disabilities.

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How to Cite

Neurofeedback-Based Brain-Computer Interfaces: Revolutionizing Assistive Technology For Learning Disabilities. (2023). Journal of Namibian Studies : History Politics Culture, 37, 25-48. https://doi.org/10.59670/jns.v37i.4650

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