International audienceThe development of brain-machine interfaces (BMIs) brings new prospects to patients with a loss of autonomy. By combining online recordings of brain activity with a decoding algorithm, patients can learn to control a robotic arm in order to perform simple actions. However, in contrast to the vast amounts of somatosensory information channeled by limbs to the brain, current BMIs are devoid of touch and force sensors. Patients must therefore rely solely on vision and audition, which are maladapted to the control of a prosthesis. In contrast, in a healthy limb, somatosensory inputs alone can efficiently guide the handling of a fragile object, or ensure a smooth trajectory. We have developed a BMI in the mouse that include...
Brain machine interface (BMI) also known as brain computer interface (BCI) is a field of research th...
Brain-machine interfaces (BMIs) re-establish communication channels between the nervous system and a...
The feasibility of a brain-machine interface (BMI) system that links the brain to an external device...
<p>Brain-machine interfaces (BMIs) use neuronal activity to control external actuators. As such, the...
A brain-machine interface (BMI) is about transforming neural activity into action and sensation into...
Objective. Brain–machine interfaces (BMIs) re-establish communication channels between the nervous s...
Since the original demonstration that electrical activity generated by ensembles of cortical neurons...
When controlling a motor prosthetic device or computer cursor using a brain-machine interface (BMI),...
A brain-machine interface (BMI) uses signals from the brain to control electronic devices. One appl...
A brain-machine interface (BMI) uses signals from the brain to control electronic devices. One appl...
Brain–machine interfaces1, 2 use neuronal activity recorded from the brain to establish direct commu...
The brain typically uses a rich supply of feedback frommultiple sensorymodalities to controlmovement...
<p>Brain-machine interfaces (BMIs) use recordings from the nervous system to extract volitional and ...
The brain typically uses a rich supply of feedback from multiple sensory modalities to control movem...
The brain typically uses a rich supply of feedback from multiple sensory modalities to control movem...
Brain machine interface (BMI) also known as brain computer interface (BCI) is a field of research th...
Brain-machine interfaces (BMIs) re-establish communication channels between the nervous system and a...
The feasibility of a brain-machine interface (BMI) system that links the brain to an external device...
<p>Brain-machine interfaces (BMIs) use neuronal activity to control external actuators. As such, the...
A brain-machine interface (BMI) is about transforming neural activity into action and sensation into...
Objective. Brain–machine interfaces (BMIs) re-establish communication channels between the nervous s...
Since the original demonstration that electrical activity generated by ensembles of cortical neurons...
When controlling a motor prosthetic device or computer cursor using a brain-machine interface (BMI),...
A brain-machine interface (BMI) uses signals from the brain to control electronic devices. One appl...
A brain-machine interface (BMI) uses signals from the brain to control electronic devices. One appl...
Brain–machine interfaces1, 2 use neuronal activity recorded from the brain to establish direct commu...
The brain typically uses a rich supply of feedback frommultiple sensorymodalities to controlmovement...
<p>Brain-machine interfaces (BMIs) use recordings from the nervous system to extract volitional and ...
The brain typically uses a rich supply of feedback from multiple sensory modalities to control movem...
The brain typically uses a rich supply of feedback from multiple sensory modalities to control movem...
Brain machine interface (BMI) also known as brain computer interface (BCI) is a field of research th...
Brain-machine interfaces (BMIs) re-establish communication channels between the nervous system and a...
The feasibility of a brain-machine interface (BMI) system that links the brain to an external device...