Title :
Multilayer Generalized Mean Neuron model for Blind Source Separation
Author :
Singh, Meenakshi ; Singh, Deepak Kumar ; Kalra, Prem K.
Author_Institution :
IIT Kanpur, Kanpur
Abstract :
The fundamental issue in blind source separation (BSS) is to find a set of independent signals from the output of the mixing system, without the aid of information about the nature of the mixing system, for which most of the BSS algorithms use the concept of Independent component analysis. This paper proposes a new neuron model for independent component analysis (ICA) which can be used for separation of non-linear and noisy mixtures of signals. The technique proposed here utilizes generalized mean neuron (GMN) model, consisting of an aggregation function which is based on the generalized mean of all the inputs applied to signal mixtures. The proposed technique results in faster convergence, and is highly efficient for underdetermined system, with low CPU time.
Keywords :
blind source separation; convergence; independent component analysis; neural nets; blind source separation; convergence; independent component analysis; mixing system; multilayer generalized mean neuron model; Blind source separation; Control system synthesis; Independent component analysis; Intelligent control; Neural networks; Neurons; Nonhomogeneous media; Nonlinear control systems; Signal processing algorithms; Source separation;
Conference_Titel :
Intelligent Control, 2007. ISIC 2007. IEEE 22nd International Symposium on
Conference_Location :
Singapore
Print_ISBN :
978-1-4244-0440-7
Electronic_ISBN :
2158-9860
DOI :
10.1109/ISIC.2007.4450947
