Raqibul Mostafa scite author profile

Brain computer interfaces (BCI) provide a direct communication link between the brain and a computer or other external devices. They offer an extended degree of freedom either by strengthening or by substituting human peripheral working capacity and have potential applications in various fields such as rehabilitation, affective computing, robotics, gaming, and neuroscience. Significant research efforts on a global scale have delivered common platforms for technology standardization and help tackle highly complex and non-linear brain dynamics and related feature extraction and classification challenges. Time-variant psycho-neurophysiological fluctuations and their impact on brain signals impose another challenge for BCI researchers to transform the technology from laboratory experiments to plug-and-play daily life. This review summarizes state-of-the-art progress in the BCI field over the last decades and highlights critical challenges.

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Wideband air-to-ground radio channel measurements using an antenna array at 2 GHz for low-alititude operations

Newhall

Mostafa

Dietrich

et al.

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Evidence of Variabilities in EEG Dynamics During Motor Imagery-Based Multiclass Brain–Computer Interface

Saha

Ahmed

Mostafa

et al. 2018

IEEE Trans. Neural Syst. Rehabil. Eng.

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Enhanced inter‐subject brain computer interface with associative sensorimotor oscillations

Saha

Ahmed

Mostafa

et al. 2017

Healthcare Technology Letters

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Electroencephalography (EEG) captures electrophysiological signatures of cortical events from the scalp with high-dimensional electrode montages. Usually, excessive sources produce outliers and potentially affect the actual event related sources. Besides, EEG manifests inherent inter-subject variability of the brain dynamics, at the resting state and/or under the performance of task(s), caused probably due to the instantaneous fluctuation of psychophysiological states. A wavelet coherence (WC) analysis for optimally selecting associative inter-subject channels is proposed here and is being used to boost performances of motor imagery (MI)-based inter-subject brain computer interface (BCI). The underlying hypothesis is that optimally associative inter-subject channels can reduce the effects of outliers and, thus, eliminate dissimilar cortical patterns. The proposed approach has been tested on the dataset IVa from BCI competition III, including EEG data acquired from five healthy subjects who were given visual cues to perform 280 trials of MI for the right hand and right foot. Experimental results have shown increased classification accuracy (81.79%) using the WC-based selected 16 channels compared to the one (56.79%) achieved using all the available 118 channels. The associative channels lie mostly around the sensorimotor regions of the brain, reinforced by the previous literature, describing spatial brain dynamics during sensorimotor oscillations. Apparently, the proposed approach paves the way for optimised EEG channel selection that could boost further the efficiency and real-time performance of BCI systems.

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Performance Evaluation of Cellular Mobile Radio Systems With Interference Nulling of Dominant Interferers

Mostafa

Annamalai

Reed

2004

IEEE Trans. Commun.

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Raqibul Mostafa

Progress in Brain Computer Interface: Challenges and Opportunities

Wideband air-to-ground radio channel measurements using an antenna array at 2 GHz for low-alititude operations

Evidence of Variabilities in EEG Dynamics During Motor Imagery-Based Multiclass Brain–Computer Interface

Enhanced inter‐subject brain computer interface with associative sensorimotor oscillations

Performance Evaluation of Cellular Mobile Radio Systems With Interference Nulling of Dominant Interferers

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