Title :
Extracting post-nonlinear signals based on Gaussianizing transformation
Author :
Dongxiao Ren ; Zhonghua Wang
Author_Institution :
State Grid Ningxia Electr. Power Inf. & Commun. Co., Yinchuan, China
Abstract :
The problem of extracting the desired source as the first output from the post-nonlinear (PNL) mixture is addressed in this paper. The proposed solution is a two-stage process that consists of a Gaussianizing transformation and extracting the desired source with specific kurtosis range. First, the nonlinear distortions in the PNL mixture are compensated by the Gaussianizing transformation. Then, the prior knowledge about the desired source, such as their normalized kurtosis range, is treated as constraints and incorporated into the contrast function to form a constrained optimization problem. Finally, the desired source is extracted by minimizing this constrained optimization problem with standard gradient descent method. The validity and performance of the proposed solution are confirmed through extensive computer simulations and experiments on real-world ECG data.
Keywords :
blind source separation; electrocardiography; gradient methods; medical signal detection; optimisation; Gaussianizing transformation; PNL mixture; constrained optimization problem; contrast function; desired source extraction; extensive computer simulations; nonlinear distortion; normalized kurtosis range; post-nonlinear mixture; post-nonlinear signal extraction based; prior knowledge; real-world ECG data; specific kurtosis range; standard gradient descent method; two-stage process; Approximation algorithms; Computer simulation; Electrocardiography; Gaussian distribution; Nonlinear distortion; Optimization; Standards; Dlind Source Extraction (BSE); ECG Signals; Gaussianizing Transformation; Post-nonlinear (PNL) Mixture;
Conference_Titel :
Biomedical Engineering and Informatics (BMEI), 2013 6th International Conference on
Conference_Location :
Hangzhou
Print_ISBN :
978-1-4799-2760-9
DOI :
10.1109/BMEI.2013.6746922
