Title :
FMRI Signal Analysis Using Empirical Mean Curve Decomposition
Author :
Fan Deng ; Dajiang Zhu ; Jinglei Lv ; Lei Guo ; Tianming Liu
Author_Institution :
Dept. of Comput. Sci., Univ. of Georgia, Athens, GA, USA
Abstract :
Functional magnetic resonance imaging (fMRI) time series is nonlinear and composed of components at multiple temporal scales, which presents significant challenges to its analysis. In the literature, significant effort has been devoted into model-based fMRI signal analysis, while much less attention has been directed to data-driven fMRI signal analysis. In this paper, we present a novel data-driven multiscale signal decomposition framework named empirical mean curve decomposition (EMCD). Targeted on functional brain mapping, the EMCD optimizes mean envelopes from fMRI signals and iteratively extracts coarser-to-finer scale signal components. The EMCD framework was applied to infer meaningful low-frequency information from blood oxygenation level-dependent signals from resting-state fMRI, task-based fMRI, and natural stimulus fMRI, and promising results are obtained.
Keywords :
biomedical MRI; brain; haemodynamics; iterative methods; medical signal processing; neurophysiology; time series; EMCD framework; EMCD optimizes mean; blood oxygenation level-dependent signals; coarser-finer scale signal components; data-driven multiscale signal decomposition framework; empirical mean curve decomposition; functional brain mapping; functional magnetic resonance imaging; iterative extraction; low-frequency information; model-based fMRI signal analysis; multiple temporal scales; natural stimulus fMRI; resting-state fMRI; task-based fMRI; time series; Analytical models; Correlation; Educational institutions; Noise; Signal resolution; Time series analysis; Wavelet transforms; Functional brain imaging; natural stimulus fMRI; resting-state fMRI; task-based fMRI; time series analysis; Algorithms; Brain; Brain Mapping; Humans; Magnetic Resonance Imaging; Signal Processing, Computer-Assisted;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2012.2221125
