Title :
A resampling approach to estimate the stability of one-dimensional or multidimensional independent components
Author :
Meinecke, Frank ; Ziehe, Andreas ; Kawanabe, Motoaki ; Müller, Klaus-Robert
Author_Institution :
Dept. of Phys., Univ. of Potsdam, Germany
Abstract :
When applying unsupervised learning techniques in biomedical data analysis, a key question is whether the estimated parameters of the studied system are reliable. In other words, can we assess the quality of the result produced by our learning technique? We propose resampling methods to tackle this question and illustrate their usefulness for blind-source separation (BSS). We demonstrate that our proposed reliability estimation can be used to discover stable one-dimensional or multidimensional independent components, to choose the appropriate BSS-model, to enhance significantly the separation performance, and, most importantly, to flag components that carry physical meaning. Application to different biomedical testbed data sets (magnetoencephalography (MEG)/electrocardiography (ECG)-recordings) underline the usefulness of our approach.
Keywords :
blind source separation; electrocardiography; independent component analysis; magnetoencephalography; medical signal processing; reliability theory; signal sampling; unsupervised learning; ECG recordings; MEG recordings; biomedical data analysis; biomedical testbed data sets; blind-source separation; electrocardiography; estimated parameters; magnetoencephalography; multidimensional independent components; one-dimensional independent components; physical meaning; quality; reliability estimation; resampling approach; separation performance; stability; unsupervised learning techniques; Bioinformatics; Data analysis; Electrocardiography; Independent component analysis; Magnetoencephalography; Multidimensional systems; Parameter estimation; Stability; Testing; Unsupervised learning; Algorithms; Artifacts; Artificial Intelligence; Computer Simulation; Electrocardiography; Evoked Potentials, Auditory; Feedback; Female; Fetal Monitoring; Heart Rate, Fetal; Humans; Magnetoencephalography; Models, Biological; Models, Statistical; Pregnancy; Principal Component Analysis; Quality Control; Reproducibility of Results; Sample Size; Sensitivity and Specificity;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2002.805480
