Millions of people worldwide are afflicted with paralysis from a disruption of neural pathways between the brain and the muscles. Because their cortical architecture is often preserved, these patients are able to plan movements despite an inability to execute them. In such people, brain machine interfaces have great potential to restore lost function through neuroprosthetic devices, circumventing dysfunctional corticospinal circuitry. These devices have typically derived control signals from the motor cortex (M1) which provides information highly correlated with desired movement trajectories. However, sensorimotor control simultaneously engages multiple cognitive processes such as intent, state estimation, decision making, and the integrati...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
In the last decade, research efforts into directly interfacing with the neurons of individuals with ...
Millions of people worldwide are afflicted with paralysis from a disruption of neural pathways betwe...
Millions of people worldwide are afflicted with paralysis from a disruption of neural pathways betwe...
Nonhuman primate and human studies have suggested that populations of neurons in the posterior pari...
Brain–machine interfaces have great potential for the development of neuroprosthetic applications to...
Brain–machine interfaces have great potential for the development of neuroprosthetic applications to...
The posterior parietal cortex (PPC), historically believed to be a sensory structure, is now viewed ...
Cortical neural prosthetics extract command signals from the brain with the goal to restore function...
Cortical neural prosthetics extract command signals from the brain with the goal to restore function...
The posterior parietal cortex (PPC), historically believed to be a sensory structure, is now viewed ...
Brain–machine interfaces have great potential for the development of neuroprosthetic applications to...
Brain–machine interfaces have great potential for the development of neuroprosthetic applications to...
The posterior parietal cortex (PPC), historically believed to be a sensory structure, is now viewed ...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
In the last decade, research efforts into directly interfacing with the neurons of individuals with ...
Millions of people worldwide are afflicted with paralysis from a disruption of neural pathways betwe...
Millions of people worldwide are afflicted with paralysis from a disruption of neural pathways betwe...
Nonhuman primate and human studies have suggested that populations of neurons in the posterior pari...
Brain–machine interfaces have great potential for the development of neuroprosthetic applications to...
Brain–machine interfaces have great potential for the development of neuroprosthetic applications to...
The posterior parietal cortex (PPC), historically believed to be a sensory structure, is now viewed ...
Cortical neural prosthetics extract command signals from the brain with the goal to restore function...
Cortical neural prosthetics extract command signals from the brain with the goal to restore function...
The posterior parietal cortex (PPC), historically believed to be a sensory structure, is now viewed ...
Brain–machine interfaces have great potential for the development of neuroprosthetic applications to...
Brain–machine interfaces have great potential for the development of neuroprosthetic applications to...
The posterior parietal cortex (PPC), historically believed to be a sensory structure, is now viewed ...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
In the last decade, research efforts into directly interfacing with the neurons of individuals with ...