Title :
Implementation of a RBF network based on possibilistic reasoning
Author :
Glosekotter, Peter ; Kanstein, Andreas ; Jung, Stefan ; Goser, Karl
Author_Institution :
Dept. of Microelectron., Dortmund Univ., Germany
Abstract :
A hardware implementation of a computational adaptive radial basis function network is presented. Using a standard CMOS technology, the core circuits and the essential parts of the learning algorithm are implemented by means of functional integration. The wiring complexity of the network is reduced by an additional output pattern layer. This structure also benefits the applied dynamic on-line learning algorithm. The weight storage implemented using floating gates is handled by an intelligent programming strategy. The characteristics of the suggested architecture have been verified by both simulations and measurements of a couple of test circuits. Applications of this kind of neural hardware can primarily be found where conventional techniques cannot be used due to their size or power consumption, e.g., for intelligent sensor systems
Keywords :
feedforward neural nets; inference mechanisms; learning (artificial intelligence); possibility theory; RBF network; floating gates; functional integration; hardware implementation; intelligent programming strategy; intelligent sensor systems; learning algorithm; neural hardware; possibilistic reasoning; radial basis function networks; standard CMOS technology; CMOS technology; Circuit simulation; Circuit testing; Computer networks; Coupling circuits; Hardware; Heuristic algorithms; Intelligent sensors; Radial basis function networks; Wiring;
Conference_Titel :
Euromicro Conference, 1998. Proceedings. 24th
Conference_Location :
Vasteras
Print_ISBN :
0-8186-8646-4
DOI :
10.1109/EURMIC.1998.708087
