Title :
Self-organization of spiking neurons using action potential timing
Author :
Ruf, Berthold ; Schmitt, Michael
Author_Institution :
Inst. fur Theor. Phys., Graz Univ., Austria
fDate :
5/1/1998 12:00:00 AM
Abstract :
We propose a mechanism for unsupervised learning in networks of spiking neurons which is based on the timing of single firing events. Our results show that a topology preserving behavior quite similar to that of Kohonen´s self-organizing map can be achieved using temporal coding. In contrast to previous approaches, which use rate coding, the winner among competing neurons can be determined fast and locally. Our model is a further step toward a more realistic description of unsupervised learning in biological neural systems. Furthermore, it may provide a basis for fast implementations in pulsed VLSI
Keywords :
encoding; network topology; physiological models; self-organising feature maps; unsupervised learning; action potential timing; firing events; self-organizing map; spiking neurons; temporal coding; topology preserving behavior; unsupervised learning; Biological system modeling; Computer networks; Inference algorithms; Learning automata; Neurons; Pattern recognition; Recurrent neural networks; Timing; Unsupervised learning; Very large scale integration;
Journal_Title :
Neural Networks, IEEE Transactions on
