This paper presents a new human-machine interaction (HMI) method designed for hands-free control of electric wheelchairs. Both forehead electromyography (EMG) signals and color face image information is jointly used to identify winking and jaw clenching movements. Five winking and jaw clenching movement patterns are selected and classified, mapping into five control commands to drive a simulated wheelchair in an office environment. Six subjects participated in the experiments and the result shows that this new control method can work well and reliably. © 2010 IEEE
We designed and created an electric wheelchair that can be controlled via hand gestures using EMG da...
Abstract: Traditional electric-powered wheelchairs are normally controlled by users via joysticks, w...
This paper presents a novel facial movement based human machine interface for an intelligent wheelch...
This paper presents a novel hybrid human-machine interface (HMI) designed for hands-free control of ...
This paper presents a novel hands-free human machine interface (HMI) for elderly and disabled peopl...
This paper introduces a novel face movement based human machine interface (HMI) that uses jaw clench...
This paper presents a bi-modal human machine interface (HMI) alternative for hands-free control of a...
This paper presents a human machine interface (HMI) for hands-free control of an electric powered wh...
In this paper, an adaptive human-machine interaction (HMI) method that is based on surface electromy...
International audienceThis paper presents a novel single channel Electrooculography (EOG) based effi...
This paper presents a user-friendly human machine interface (HMI) for hands-free control of an elect...
Human machine interaction (HMI) allows persons to control and interact with devices. Starting from e...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
This thesis is dedicated to the development of advanced human machine interfaces (HMIs) for elderly ...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
We designed and created an electric wheelchair that can be controlled via hand gestures using EMG da...
Abstract: Traditional electric-powered wheelchairs are normally controlled by users via joysticks, w...
This paper presents a novel facial movement based human machine interface for an intelligent wheelch...
This paper presents a novel hybrid human-machine interface (HMI) designed for hands-free control of ...
This paper presents a novel hands-free human machine interface (HMI) for elderly and disabled peopl...
This paper introduces a novel face movement based human machine interface (HMI) that uses jaw clench...
This paper presents a bi-modal human machine interface (HMI) alternative for hands-free control of a...
This paper presents a human machine interface (HMI) for hands-free control of an electric powered wh...
In this paper, an adaptive human-machine interaction (HMI) method that is based on surface electromy...
International audienceThis paper presents a novel single channel Electrooculography (EOG) based effi...
This paper presents a user-friendly human machine interface (HMI) for hands-free control of an elect...
Human machine interaction (HMI) allows persons to control and interact with devices. Starting from e...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
This thesis is dedicated to the development of advanced human machine interfaces (HMIs) for elderly ...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
We designed and created an electric wheelchair that can be controlled via hand gestures using EMG da...
Abstract: Traditional electric-powered wheelchairs are normally controlled by users via joysticks, w...
This paper presents a novel facial movement based human machine interface for an intelligent wheelch...