Title :
Turning Tangent Empirical Mode Decomposition: A Framework for Mono- and Multivariate Signals
Author :
Fleureau, Julien ; Nunes, Jean-Claude ; Kachenoura, Amar ; Albera, Laurent ; Senhadji, Lotfi
Author_Institution :
INSERM, Rennes, France
fDate :
3/1/2011 12:00:00 AM
Abstract :
A novel empirical mode decomposition (EMD) algorithm, called 2T-EMD, for both mono- and multivariate signals is proposed in this correspondence. It differs from the other approaches by its computational lightness and its algorithmic simplicity. The method is essentially based on a redefinition of the signal mean envelope, computed thanks to new characteristic points, which offers the possibility to decompose multivariate signals without any projection. The scope of application of the novel algorithm is specified, and a comparison of the 2T-EMD technique with classical methods is performed on various simulated mono- and multivariate signals. The monovariate behaviour of the proposed method on noisy signals is then validated by decomposing a fractional Gaussian noise and an application to real life EEG data is finally presented.
Keywords :
Gaussian noise; channel bank filters; electroencephalography; EEG data; EMD algorithm; fractional Gaussian noise; monovariate signal framework; multivariate signal framework; noisy signal; signal mean envelope; turning tangent empirical mode decomposition; Analysis of nonlinear and nonstationary signals; EEG denoising; Hurst exponent estimation; extrema and barycenters of oscillation; filter bank structure; intrinsic mode functions; mono- and multivariate empirical mode decomposition; time varying representation;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2010.2097254
