Brain-machine interfaces (BMIs) promise to improve the quality of life of patients suffering from sensory and motor disabilities by creating a direct communication channel between the brain and the external world. Yet, their performance is currently limited by the relatively small amount of information that can be decoded from neural activity recorded form the brain. We have recently proposed that such decoding performance may be improved when using state-dependent decoding algorithms that predict and discount the large component of the trial-to-trial variability of neural activity which is due to the dependence of neural responses on the network's current internal state. Here we tested this idea by using a bidirectional BMI to investigate ...
Bidirectional brain-machine interfaces (BMIs) establish a two-way direct communication link between ...
The brain has an incredible capacity to learn how to control various effectors, ranging from those e...
Intracortical brain-machine interfaces (BMIs) aim to provide motor functions via high-performance ne...
Brain-machine interfaces (BMIs) promise to improve the quality of life of patients suffering from se...
Brain-machine interfaces (BMIs) promise to improve the quality of life of patients suffering from se...
Brain-machine interfaces (BMIs) are an emerging field of research that seeks to interface the brain ...
Brain-machine interfaces (BMIs) can improve the quality of life of patients with sensory and motor d...
Brain-machine interfaces (BMIs) aim to assist patients suffering from neurological injuries and dise...
Brain-machine interface (BMI) systems show great promise for restoring motor function to patients wi...
Abstract Background Intracortical brain–machine interfaces (BMIs) harness movement information by se...
Bidirectional brain-machine interfaces (BMIs) establish a two-way direct communication link between ...
Bidirectional brain-machine interfaces (BMIs) establish a two-way direct communication link between ...
In the development of Brain Machine Interfaces (BMIs), there is a great need to enable users to inte...
The motor system routinely generates a multitude of fast, accurate, and elegant movements.In large p...
BACKGROUND: In the development of Brain Machine Interfaces (BMIs), there is a great need to enable u...
Bidirectional brain-machine interfaces (BMIs) establish a two-way direct communication link between ...
The brain has an incredible capacity to learn how to control various effectors, ranging from those e...
Intracortical brain-machine interfaces (BMIs) aim to provide motor functions via high-performance ne...
Brain-machine interfaces (BMIs) promise to improve the quality of life of patients suffering from se...
Brain-machine interfaces (BMIs) promise to improve the quality of life of patients suffering from se...
Brain-machine interfaces (BMIs) are an emerging field of research that seeks to interface the brain ...
Brain-machine interfaces (BMIs) can improve the quality of life of patients with sensory and motor d...
Brain-machine interfaces (BMIs) aim to assist patients suffering from neurological injuries and dise...
Brain-machine interface (BMI) systems show great promise for restoring motor function to patients wi...
Abstract Background Intracortical brain–machine interfaces (BMIs) harness movement information by se...
Bidirectional brain-machine interfaces (BMIs) establish a two-way direct communication link between ...
Bidirectional brain-machine interfaces (BMIs) establish a two-way direct communication link between ...
In the development of Brain Machine Interfaces (BMIs), there is a great need to enable users to inte...
The motor system routinely generates a multitude of fast, accurate, and elegant movements.In large p...
BACKGROUND: In the development of Brain Machine Interfaces (BMIs), there is a great need to enable u...
Bidirectional brain-machine interfaces (BMIs) establish a two-way direct communication link between ...
The brain has an incredible capacity to learn how to control various effectors, ranging from those e...
Intracortical brain-machine interfaces (BMIs) aim to provide motor functions via high-performance ne...