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Brain Computer Interface with Genetic Algorithm
Brain Computer Interface with Genetic Algorithm
2012Journal from gdlhub / 2017-08-14 11:52:31
Oleh : Abdolreza. Asadi Ghanbari, Ali Broumandnia, Hamidreza Navidi, Ali.Ahmadi, International Journal of Information and Communication Technology Research
Dibuat : 2012-06-23, dengan 1 file
Keyword : Brain Computer Interfaces, Redundancy Reduction, Genetic Algorithm, artifact
Subjek : Brain Computer Interface with Genetic Algorithm
Url : http://esjournals.org/journaloftechnology/archive/vol2no1/vol2no1_11.pdf
Sumber pengambilan dokumen : Internet
Brain Computer Interfaces (BCIs) measure brain signals of brain activity intentionally and unintentionally induced by the
user, and thus provide a promising communication channel that does not depend on the brain‟s normal output pathway
consisting of peripheral nerves and muscles. Present-day Brain Computer Interfaces determine the intent of the user from a
variety of different electrophysiological signals. They translate these signals in real-time commands that operate a
computer display or other device. Successful operation requires that the user encode commands in these signals and that
the BCI derive the commands from the signals. Thus, the user and the BCI system need to adapt to each other both initially
and continually so as to ensure stable performance. Current BCIs have low information transfer rates (e.g. up to 1025
bits/min). This is limited capacity for many possible applications of BCI technology, such as neuroprosthesis control, this
device require higher information transfer rates. In non-invasive BCI, Signals from the brain are acquired by channels (i.e.
electrodes) on the scalp. In new BCI systems for increase accuracy, increased number of electrodes. In this case the
increased number of electrodes causes a non-linear increase in computational complexity (i.e. decrease transfer rate). This
article used Genetic Algorithm for select the effective number of electrodes and Redundancy Reduction.
Brain Computer Interfaces (BCIs) measure brain signals of brain activity intentionally and unintentionally induced by the
user, and thus provide a promising communication channel that does not depend on the brain‟s normal output pathway
consisting of peripheral nerves and muscles. Present-day Brain Computer Interfaces determine the intent of the user from a
variety of different electrophysiological signals. They translate these signals in real-time commands that operate a
computer display or other device. Successful operation requires that the user encode commands in these signals and that
the BCI derive the commands from the signals. Thus, the user and the BCI system need to adapt to each other both initially
and continually so as to ensure stable performance. Current BCIs have low information transfer rates (e.g. up to 1025
bits/min). This is limited capacity for many possible applications of BCI technology, such as neuroprosthesis control, this
device require higher information transfer rates. In non-invasive BCI, Signals from the brain are acquired by channels (i.e.
electrodes) on the scalp. In new BCI systems for increase accuracy, increased number of electrodes. In this case the
increased number of electrodes causes a non-linear increase in computational complexity (i.e. decrease transfer rate). This
article used Genetic Algorithm for select the effective number of electrodes and Redundancy Reduction.
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