Browse Bar: Browse by Author | Browse by Category | Browse by Citation | Advanced Search
Author(s): Akhbardeh, A. | Koskinen, P.E. | Nikhil | Yli-Harja, O. |
Year: 2008
Citation: PATTERN RECOGNITION LETTERS Volume: 29 Issue: 8 pp. 1082-1093
Abstract: This paper presents a comparative analysis of novel supervised fuzzy adaptive resonance theory (SF-ART), multilayer perceptron (MLP) and competitive neural trees (CNeT) Networks over three pattern recognition problems. We have used two well-known patterns (IRIS and Vowel data) and a biological data (hydrogen data) to evaluate and check SF-ART stability, reliability, learning speed and computational load. The comparative tests with IRIS, Vowels and H-2 data indicate that the SF-ART is capable to perform with a high classification performance, high learning speed (elapsed time for learning around half second), and very low computational load compared to the well-known neural networks such as MLP and CNeT which need. minutes and seconds respectively to learn the training material.
The ART of adaptive pattern recognition by a self organizing neural network
The adaptive resonance theory (ART) suggests a solution to the stability-plasticity dilemma facing designers of learning systems, namely how to design a learning system that will remain plastic, or adaptive, in response to ... Article Details
ARTMAP: Supervised real-time learning and classification of nonstationary data by a self-organizing neural network
This article introduces a new neural network architecture, called ARTMAP, that autonomously learns to classify arbitrarily many, arbitrarily ordered vectors into recognition categories based on predictive success. This ... Article Details
Fuzzy ARTMAP: A neural network architecture for incremental supervised learning of analog multidimensional maps
A new neural network architecture is introduced for incremental supervised learning of recognition categories and multidimensional maps in response to arbitrary sequences of analog or binary input vectors, which may ... Article Details