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IEEEICCI
2003
IEEE

Signal Classification through Multifractal Analysis and Complex Domain Neural Networks

14 years 5 months ago
Signal Classification through Multifractal Analysis and Complex Domain Neural Networks
This paper describes a system capable of classifying stochastic, self-affine, nonstationary signals produced by nonlinear systems. The classification and analysis of these signals is important because they are generated by many real-world processes. The first stage of the signal classification process entails the transformation of the signal into the multifractal dimension domain, through the computation of the variance fractal dimension trajectory (VFDT). Features can then be extracted from the VFDT using a Kohonen self-organizing feature map. The second stage involves the use of a complex domain neural network and a probabilistic neural network to determine the class of a signal based on these extracted features. The results of this paper show that these techniques can be successful in creating a classification system which can obtain correct classification rates of about 87% when performing classification of such signals without knowing the number of classes.
Witold Kinsner, V. Cheung, K. Cannons, J. Pear, T.
Added 04 Jul 2010
Updated 04 Jul 2010
Type Conference
Year 2003
Where IEEEICCI
Authors Witold Kinsner, V. Cheung, K. Cannons, J. Pear, T. Martin
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