Title :
Complex-Valued Recurrent Correlation Neural Networks
Author :
Valle, Marcos Eduardo
Author_Institution :
Dept. of Appl. Math., Univ. of Campinas, Campinas, Brazil
Abstract :
In this paper, we generalize the bipolar recurrent correlation neural networks (RCNNs) of Chiueh and Goodman for patterns whose components are in the complex unit circle. The novel networks, referred to as complex-valued RCNNs (CV-RCNNs), are characterized by a possible nonlinear function, which is applied on the real part of the scalar product of the current state and the original patterns. We show that the CV-RCNNs always converge to a stationary state. Thus, they have potential application as associative memories. In this context, we provide sufficient conditions for the retrieval of a memorized vector. Furthermore, computational experiments concerning the reconstruction of corrupted grayscale images reveal that certain CV-RCNNs exhibit an excellent noise tolerance.
Keywords :
image reconstruction; nonlinear functions; recurrent neural nets; vectors; CV-RCNN; associative memories; complex unit circle; complex-valued RCNN; complex-valued recurrent correlation neural networks; corrupted grayscale image reconstruction; memorized vector retrieval; noise tolerance; nonlinear function; stationary state; sufficient conditions; Biological neural networks; Correlation; Gray-scale; Neurons; Noise; Tin; Vectors; Complex-valued neural network; grayscale image retrieval; high-capacity memory; neural associative memories (AMs); noise tolerance; recurrent neural networks; recurrent neural networks.;
Journal_Title :
Neural Networks and Learning Systems, IEEE Transactions on
DOI :
10.1109/TNNLS.2014.2341013
