Brain-controlled wheelchair review: From wet electrode to dry electrode, from single modal to hybrid modal, from synchronous to asynchronous
H Wang, F Yan, T Xu, H Yin, P Chen, H Yue… - IEEE …, 2021 - ieeexplore.ieee.org
Brain-computer interface (BCI) is a novel human-computer interaction model, which does
not depend on the conventional output pathway (peripheral nerve and muscle tissue). In the …
not depend on the conventional output pathway (peripheral nerve and muscle tissue). In the …
Asynchronous non-invasive brain-actuated control of an intelligent wheelchair
In this paper we present further results of our asynchronous and non-invasive BMI for the
continuous control of an intelligent wheelchair. Three subjects participated in two …
continuous control of an intelligent wheelchair. Three subjects participated in two …
Brain‐Computer Interface for Control of Wheelchair Using Fuzzy Neural Networks
The design of brain‐computer interface for the wheelchair for physically disabled people is
presented. The design of the proposed system is based on receiving, processing, and …
presented. The design of the proposed system is based on receiving, processing, and …
A self-paced motor imagery based brain-computer interface for robotic wheelchair control
This paper presents a simple self-paced motor imagery based brain-computer interface
(BCI) to control a robotic wheelchair. An innovative control protocol is proposed to enable a …
(BCI) to control a robotic wheelchair. An innovative control protocol is proposed to enable a …
Non-invasive brain signal interface for a wheelchair navigation
BG Shin, T Kim, S Jo - ICCAS 2010, 2010 - ieeexplore.ieee.org
This work presents that, only using non-invasively captured brain signals, a person can
navigate an electric wheelchair with no serious training for a long term. Only two electrodes …
navigate an electric wheelchair with no serious training for a long term. Only two electrodes …
Free virtual navigation using motor imagery through an asynchronous brain–computer interface
F Velasco-Álvarez, R Ron-Angevin… - Presence, 2010 - ieeexplore.ieee.org
In this paper, an asynchronous brain–computer interface is presented that enables the
control of a wheelchair in virtual environments using only one motor imagery task. The …
control of a wheelchair in virtual environments using only one motor imagery task. The …
Asynchronous brain-computer interface to navigate in virtual environments using one motor imagery
F Velasco-Álvarez, R Ron-Angevin - … 2009, Salamanca, Spain, June 10-12 …, 2009 - Springer
Abstract A Brain-Computer Interface (BCI) application focused on the control of a wheelchair
must consider the danger which a wrong command would involve in a real situation. Virtual …
must consider the danger which a wrong command would involve in a real situation. Virtual …
[PDF][PDF] Brain based control of wheelchair
This paper presents a brain based control of the wheelchair for physically impaired users.
The design of the system is focused on receiving electroencephalographic (EEG) signals …
The design of the system is focused on receiving electroencephalographic (EEG) signals …
Explorative study of a brain-computer interface for order picking tasks in logistics
M Fiolka, J Jost, T Kirks - 2020 12th International Conference on …, 2020 - ieeexplore.ieee.org
Humans are still protagonists in logistics. Amongst automated guided vehicles (AGV) which
induce relief to workers by minimizing monotonous and physically demanding tasks, the …
induce relief to workers by minimizing monotonous and physically demanding tasks, the …
Control of a Smart Electric Wheelchair Based on EEG Signal and Graphical User Interface for Disabled People
A Brain-Computer Interface (BCI) can help disabled people to control an electric wheelchair
in an indoor environment. However, using the BCI requires a continuously concentrated …
in an indoor environment. However, using the BCI requires a continuously concentrated …