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Literature DB >> 19794237

Decoding flexion of individual fingers using electrocorticographic signals in humans.

J Kubánek¹, K J Miller, J G Ojemann, J R Wolpaw, G Schalk.

Abstract

Brain signals can provide the basis for a non-muscular communication and control system, a brain-computer interface (BCI), for people with motor disabilities. A common approach to creating BCI devices is to decode kinematic parameters of movements using signals recorded by intracortical microelectrodes. Recent studies have shown that kinematic parameters of hand movements can also be accurately decoded from signals recorded by electrodes placed on the surface of the brain (electrocorticography (ECoG)). In the present study, we extend these results by demonstrating that it is also possible to decode the time course of the flexion of individual fingers using ECoG signals in humans, and by showing that these flexion time courses are highly specific to the moving finger. These results provide additional support for the hypothesis that ECoG could be the basis for powerful clinically practical BCI systems, and also indicate that ECoG is useful for studying cortical dynamics related to motor function.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2009 PMID： 19794237 PMCID： PMC3664231 DOI： 10.1088/1741-2560/6/6/066001

Source DB: PubMed Journal: J Neural Eng ISSN： 1741-2552 Impact factor: 5.379

70 in total

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Authors: Elizabeth A Felton; J Adam Wilson; Justin C Williams; P Charles Garell
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9. Electrocorticographic frequency alteration mapping: a clinical technique for mapping the motor cortex.

Authors: Eric C Leuthardt; Kai Miller; Nicholas R Anderson; Gerwin Schalk; Joshua Dowling; John Miller; Daniel W Moran; Jeff G Ojemann
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10. Electrocorticographic spectral changes associated with ipsilateral individual finger and whole hand movement.

Authors: Stavros Zanos; Kai J Miller; Jeffrey G Ojemann
Journal: Conf Proc IEEE Eng Med Biol Soc Date: 2008

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