This paper presents a noninvasive brain-controlled P300-based wheelchair driven by EEG signals to be used by tetraplegic and paralytic users. The P300 - an Evoked Related Potential (ERP) - is induced for purpose by visual stimuli. The developed Brain-Computer Interface is made up by: (i) acquisition unit; (ii) processing unit and (iii) navigation unit. The acquisition unit is a wireless 32-channel EEG headset collecting data from 6 electrodes (parietal-cortex area). The processing unit is a dedicated µPC performing stimuli delivery, data gathering, Machine Learning (ML), real-time hyper-dimensional classification leading to the user intention interpretation. The ML stage is based on a custom algorithm (t-RIDE) which trains the following cla...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
Abstract Background Certain diseases affect brain areas that control the movements of the patients’ ...
This study presents a P300-based brain-computer interface (BCI) for mechatronic device driving, i.e....
This paper presents a P300-based Brain Computer Interface (BCI) for the control of a mechatronic act...
This paper proposes a brain-computer interface (BCI) wheelchair that integrates the advantages of ev...
This study aimed to develop a brain-computer interface that can control an electric wheelchair using...
This work presents a brain–computer interface (BCI) used to operate a robotic wheelchair. The experi...
Human machine interaction (HMI) allows persons to control and interact with devices. Starting from e...
Electric wheelchairs are some of the most important devices to assist physically handicapped persons...
This paper proposes a portable brain-computer interface paradigm and builds a portable brain-compute...
Patients who are suffering from diseases like motor neurone diseases (MND), or trauma such as spinal...
This paper describes the development of a brainwave controlled wheelchair. The main objective of thi...
This paper presents a three-class mental task classification for an electroencephalography based bra...
Abstract Background Electroencephalogram-based brain–computer interfaces (BCIs) represent novel huma...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
Abstract Background Certain diseases affect brain areas that control the movements of the patients’ ...
This study presents a P300-based brain-computer interface (BCI) for mechatronic device driving, i.e....
This paper presents a P300-based Brain Computer Interface (BCI) for the control of a mechatronic act...
This paper proposes a brain-computer interface (BCI) wheelchair that integrates the advantages of ev...
This study aimed to develop a brain-computer interface that can control an electric wheelchair using...
This work presents a brain–computer interface (BCI) used to operate a robotic wheelchair. The experi...
Human machine interaction (HMI) allows persons to control and interact with devices. Starting from e...
Electric wheelchairs are some of the most important devices to assist physically handicapped persons...
This paper proposes a portable brain-computer interface paradigm and builds a portable brain-compute...
Patients who are suffering from diseases like motor neurone diseases (MND), or trauma such as spinal...
This paper describes the development of a brainwave controlled wheelchair. The main objective of thi...
This paper presents a three-class mental task classification for an electroencephalography based bra...
Abstract Background Electroencephalogram-based brain–computer interfaces (BCIs) represent novel huma...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
Abstract Background Certain diseases affect brain areas that control the movements of the patients’ ...