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Nov 2, 2014 · Capitalizing on this stable representation, we developed a BMI that concurrently decodes a full motor sequence in advance of movement and can ...
Hence a BMI that can concurrently decode the complete planned sequence before its execution can enable subjects to also perform these sequential movements.
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Our results reveal a novel functional structure within the premotor cortex that allowed for accurate and concurrent decoding of two planned motor targets across ...
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Nov 12, 2012 · Brain-machine interface (BMI) research has largely focused on the problem of restoring lost motor function in individuals.
Shanechi MM, Williams ZM, Wornell GW, Hu RC, Powers M, Brown EN (2013) A Real-time brain-machine interface combining motor target and trajectory intent using an ...
We developed a BMI that concurrently decodes a full motor sequence in advance of movement and can then accurately execute it as desired.
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Apr 8, 2015 · A BMI can be defined as an artificial process that allows the brain to exchange information directly with an external device. This definition ...
Brain–computer interfaces (BCIs) for movement restoration typically decode the user's intent from neural activity in their primary motor cortex (M1).
Neural population partitioning and a concurrent brain-machine interface for sequential motor function. Brain-machine interfaces (BMIs) have typically focused ...
Capitalizing on this stable representation, we developed a BMI that concurrently decodes a full motor sequence in advance of movement and can then accurately ...