Exploiting Asymmetric EEG Signals with EFD in Deep Learning Domain for Robust BCI

Huang, Binwen; Xu, Haiqin; Miao, Yuan; Aziz, Muhammad Zulkifal; Yu, Xiaojun

doi:10.3390/sym14122677

Cited by 7 publications

(1 citation statement)

References 44 publications

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“…• Machine learning enables tailored rehabilitative interventions. Models can be trained to recognize a user's distinct brain patterns and alter rehabilitation methods as needed [7], [11], [19], [41], [47], [79]. • Machine learning algorithms process brain impulses in real-time, providing consumers with rapid feedback.…”

Section: Introductionmentioning

confidence: 99%

A Survey of EEG and Machine Learning-Based Methods for Neural Rehabilitation

Singh,

Ali,

Gill

et al. 2023

IEEE Access

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One approach to therapy and training for the restoration of damaged muscles and motor systems is rehabilitation. EEG-assisted Brain-Computer Interface (BCI) may aid in restoring or enhancing the brain's lost motor abilities. Assisted by brain activity, BCI offers simple-to-use technology aids and robotic prosthetics. This systematic literature review (SLR) aims to explore the latest developments in BCI and motor control for rehabilitation. Additionally, typical EEG apparatuses available for BCI-driven rehabilitative purposes have been explored. Furthermore, a comparison of significant studies in rehabilitation assessment using machine learning techniques has been summarized. The results of this study may influence policymakers' decisions regarding the use of EEG equipment, particularly wireless devices, to implement BCI technology. Moreover, the SLR results offer suggestions for further study. To identify the additional characteristics of each EEG equipment and determine which one is most suited for each industry, we plan on measuring the user experience based on various devices in future research.

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