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Signal Processing for Brain–Computer Interfaces

With the astounding ability to capture a wealth of brain signals, Brain–Computer Interfaces (BCIs) have the potential to revolutionize humans’ quality of life by processing these brain signals for controlling external devices. Being an emerging and innovative field, BCIs offer numerous applications...

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Formáid: Online
Teanga:Béarla
Foilsithe / Cruthaithe: MDPI - Multidisciplinary Digital Publishing Institute 2024
Ábhair:
functional near-infrared spectroscopy (fNIRS)
finger-tapping
classification
motor cortex
machine learning
artificial neural network (ANN)
upper-limb prosthesis
transhumeral amputee
error-related potentials
brain-computer interface
cerebral palsy
amputation
stroke
neurorehabilitation
artificial neural network
functional near-infrared spectroscopy
convolutional neural network
long short-term memory
BCI
fNIRS
SRC
channel selection
unmanned aerial vehicle
spectroscopy
brain–computer interface application
mathematical modelling
semiconductor laser
schizophrenia
obsessive compulsive disorder
migraine
Stroop test
EEG
functional NIRS
multimodal neuroimaging
concurrent recording
integrated analysis
brain–computer interface (BCI)
electroencephalography (EEG)
emotion classification
convolutional neural network (ConvNet)
smart home
phone control
event-related potentials
P300
active BCI
mental state
modulation features
n/a
thema EDItEUR::P Mathematics and Science::PB Mathematics::PBW Applied mathematics
Rochtain ar líne:ONIX_20240514_9783725805204_376
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Achoimre:With the astounding ability to capture a wealth of brain signals, Brain–Computer Interfaces (BCIs) have the potential to revolutionize humans’ quality of life by processing these brain signals for controlling external devices. Being an emerging and innovative field, BCIs offer numerous applications in various fields of life, including robotics, education, prosthetics, security and communication technologies. Processing neuro-physiological signals, a major component of BCIs, involves further procedures of (1) noise removal, (2) feature extraction and (3) classification. Pre-processed signals are subject to various noises, including power line noises, physiological noises, motion artifacts and interference noises. These noises can affect the efficiency of the entire BCI procedure. For this reason, noise removal algorithms are utilized for noise removal or reduction. Next, the process of feature extraction begins, in which algorithms are used to acquire relevant task-based features. This phase acquires data based on spectral, spatial and temporal domains. The last step for signal processing is classification, whereby the acquired and processed features are converted into viable commands, which ultimately control external devices. This reprint focuses particularly on these three signal-processing techniques.

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