Title :
Stability criteria for unsupervised temporal association networks
Author_Institution :
Sch. of Human Movement Studies, Univ. of Queensland, Brisbane, Australia
fDate :
3/1/2005 12:00:00 AM
Abstract :
A biologically realizable, unsupervised learning rule is described for the online extraction of object features, suitable for solving a range of object recognition tasks. Alterations to the basic learning rule are proposed which allow the rule to better suit the parameters of a given input space. One negative consequence of such modifications is the potential for learning instability. The criteria for such instability are modeled using digital filtering techniques and predicted regions of stability and instability tested. The result is a family of learning rules which can be tailored to the specific environment, improving both convergence times and accuracy over the standard learning rule, while simultaneously insuring learning stability.
Keywords :
feature extraction; filtering theory; image recognition; learning (artificial intelligence); neural nets; object recognition; stability criteria; digital filtering techniques; object recognition; online feature extraction; stability criteria; unsupervised learning; unsupervised temporal association networks; Character recognition; Computer vision; Councils; Detectors; Humans; Neurons; Object recognition; Stability criteria; Testing; Unsupervised learning; Learning stability; temporal association; trace rule; unsupervised learning; Learning; Neural Networks (Computer);
Journal_Title :
Neural Networks, IEEE Transactions on
DOI :
10.1109/TNN.2004.841795
