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Literature DB >> 17216365

A self-paced brain interface system that uses movement related potentials and changes in the power of brain rhythms.

Mehrdad Fatourechi¹, Gary E Birch, Rabab K Ward.

Abstract

Movement execution results in the simultaneous generation of movement-related potentials (MRP) as well as changes in the power of Mu and Beta rhythms. This paper proposes a new self-paced multi-channel BI that combines features extracted from MRPs and from changes in the power of Mu and Beta rhythms. We developed a new algorithm to classify the high-dimensional feature space. It uses a two-stage multiple-classifier system (MCS). First, an MCS classifies each neurological phenomenon separately using the information extracted from specific EEG channels (EEG channels are selected by a genetic algorithm). In the second stage, another MCS combines the outputs of MCSs developed in the first stage. Analysis of the data of four able-bodied subjects shows the superior performance of the proposed algorithm compared with a scheme where the features were all combined in a single feature vector and then classified.

Entities: Chemical Disease Gene

Mesh：

Year: 2007 PMID： 17216365 DOI： 10.1007/s10827-006-0017-3

Source DB: PubMed Journal: J Comput Neurosci ISSN： 0929-5313 Impact factor: 1.621

49 in total

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1. Comparison of Features for Movement Prediction from Single-Trial Movement-Related Cortical Potentials in Healthy Subjects and Stroke Patients.

Authors: Ernest Nlandu Kamavuako; Mads Jochumsen; Imran Khan Niazi; Kim Dremstrup
Journal: Comput Intell Neurosci Date: 2015-06-16

1 in total