A Bipolar-Channel Hybrid Brain-Computer Interface System for Home Automation Control Utilizing Steady-State Visually Evoked Potential and Eye-Blink Signals.
Da-Lin YangTrung-Hau NguyenWan-Young ChungPublished in: Sensors (2020)
Keyphrases
- steady state
- brain computer interface
- brain signals
- eeg signals
- field effect transistors
- brain activity
- single trial
- home automation
- evoked potentials
- home environment
- operating conditions
- computer screen
- hand movements
- markov chain
- signal processing
- motor imagery
- motor learning
- product form
- healthy subjects
- eeg data
- visual stimuli
- spatial filters
- eye tracking
- event related
- active learning
- service times
- heavy traffic
- queueing networks
- eye movements
- real time
- event related potentials
- embedded devices
- intelligent environments
- queue length
- high density
- control system
- arrival rate
- smart home
- neural network
- ambient assisted living
- independent component analysis
- low cost
- mobile devices