Title :
Are Neural Fields Suitable for Vector Quantization?
Author :
Alecu, Lucian ; Frezza-Buet, Herv
Author_Institution :
CORTEX, Villers-les-Nancy
Abstract :
This paper focuses on the possibility of enabling vector quantization learning techniques into dynamic neural fields, as an attempt to enrich their usage in bio-inspired applications. As mathematical approaches prove rather difficult to propose a practical solution, due to the non-linear character of the field equations, we adopt a different perspective in order to deal with this problem. This consists in simulating the evolution of the field and design an empirical method able to measure its quality. The developed benchmark framework implementing this approach is used to check whether a given field is capable to behave as expected in various situations, in particular those involving self-organization by vector quantization.
Keywords :
data handling; learning (artificial intelligence); vector quantisation; dynamic neural fields; learning techniques; vector quantization; Concurrent computing; Couplings; Design methodology; Differential equations; Machine learning; Nonlinear equations; Prototypes; Topology; Unsupervised learning; Vector quantization; empirical methodology; neural fields; vector quantization;
Conference_Titel :
Machine Learning and Applications, 2008. ICMLA '08. Seventh International Conference on
Conference_Location :
San Diego, CA
Print_ISBN :
978-0-7695-3495-4
DOI :
10.1109/ICMLA.2008.21
