S-Space College of Engineering/Engineering Practice School (공과대학/대학원) Dept. of Electrical and Computer Engineering (전기·정보공학부) Journal Papers (저널논문_전기·정보공학부)
Superiority of Nonlinear Mapping in Decoding Multiple Single-Unit Neuronal Spike Trains: A Simulation Study
|dc.contributor.author||Kim, Kyung Hwan||-|
|dc.contributor.author||Kim, Sung Shin||-|
|dc.contributor.author||Kim, Sung June||-|
|dc.identifier.citation||J Neurosci Meth 2006;150:202-11||en|
|dc.description.abstract||One of the most important building blocks of the brain–machine interface (BMI) based on neuronal spike trains is the decoding algorithm,
a computational method for the reconstruction of desired information from spike trains. Previous studies have reported that a simple linear
filter is effective for this purpose and that no noteworthy gain is achieved from the use of nonlinear algorithms. In order to test this premise, we
designed several decoding algorithms based on the linear filter, and two nonlinear mapping algorithms using multilayer perceptron (MLP) and
support vector machine regression (SVR). Their performances were assessed using multiple neuronal spike trains generated by a biophysical
neuron model and by a directional tuning model of the primary motor cortex. The performances of the nonlinear algorithms, in general, were
superior. The advantages of using nonlinear algorithms were more profound for cases where false-positive/negative errors occurred in spike
trains. When the MLPs were trained using trial-and-error, they often showed disappointing performance comparable to that of the linear filter.
The nonlinear SVR showed the highest performance, and this may be due to the superiority of SVR in training and generalization.
|dc.description.sponsorship||This study was supported by the Korea Science and Engineering
Foundation (KOSEF) through Nano Bioelectronics
and Systems Research Center.
|dc.subject||Spike train decoding||en|
|dc.subject||Support vector machine||en|
|dc.title||Superiority of Nonlinear Mapping in Decoding Multiple Single-Unit Neuronal Spike Trains: A Simulation Study||en|
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