Title :
Learning Pattern Recognition Through Quasi-Synchronization of Phase Oscillators
Author :
Vassilieva, Ekaterina ; Pinto, Guillaume ; De Barros, José Acacio ; Suppes, Patrick
Author_Institution :
Lab. d´´Inf. de l´´X, Lab. d´´Inf. de l´´Ecole Polytech., Palaiseau, France
Abstract :
The idea that synchronized oscillations are important in cognitive tasks is receiving significant attention. In this view, single neurons are no longer elementary computational units. Rather, coherent oscillating groups of neurons are seen as nodes of networks performing cognitive tasks. From this assumption, we develop a model of stimulus-pattern learning and recognition. The three most salient features of our model are: 1) a new definition of synchronization; 2) demonstrated robustness in the presence of noise; and 3) pattern learning.
Keywords :
oscillators; pattern recognition; elementary computational units; learning pattern recognition; noise presence; pattern learning; phase oscillators; stimulus pattern learning; through quasi synchronization; Couplings; Frequency synchronization; Neurons; Oscillators; Pattern recognition; Synchronization; Time frequency analysis; Kuramoto oscillators; oscillator network; pattern recognition; phase oscillators; quasi-synchronization; Artificial Intelligence; Biological Clocks; Cortical Synchronization; Humans; Neural Networks (Computer); Pattern Recognition, Automated;
Journal_Title :
Neural Networks, IEEE Transactions on
DOI :
10.1109/TNN.2010.2086476
