Title :
Self-adjustment of neuron impact width in growing and pruning RBF (GAP-RBF) neuron networks
Author :
Wang, Ying ; Huang, Guang-Bin ; Saratchandran, P. ; Sundararajan, Narashiman
Author_Institution :
Sch. of Electr. & Electron. Eng., Nanyang Technol. Univ., Singapore
Abstract :
Although the growing and pruning algorithm for RBF networks (GAP-RBF), although it has acquired better performance than other sequential learning algorithms, some parameters (including the overlapping factor) predetermined by trial-and-error may affect the performance of the algorithm and limit the algorithm to be widely conveniently used in real world applications. In this paper, a self-adjustment algorithm based on GAP-RBF is proposed for solving how to choose k, the overlap factor, an important parameter for calculating neuron impact width. Simulation results indicate that the self-adjustment algorithm has the better performance than that of GAP-RBF.
Keywords :
learning (artificial intelligence); neural nets; radial basis function networks; self-adjusting systems; GAP-RBF; growing-pruning algorithm; learning algorithm; neuron network; radial basis function; self-adjustment algorithm; Approximation algorithms; Electronic mail; Function approximation; Heuristic algorithms; Intelligent networks; Neurons; Radial basis function networks; Radio access networks;
Conference_Titel :
Information, Communications and Signal Processing, 2003 and Fourth Pacific Rim Conference on Multimedia. Proceedings of the 2003 Joint Conference of the Fourth International Conference on
Print_ISBN :
0-7803-8185-8
DOI :
10.1109/ICICS.2003.1292612
