Title :
An instance of coincidence detection architecture relying on temporal coding
Author :
Béroule, Dominique
Author_Institution :
Archit.s & Models for Interaction Group, Lab. d´´informatique et de Mecanique pour les Sci. de I´´ngenieur, Orsay, France
Abstract :
Although time and space are interrelated in every occurrence of real-world events, only spatial codes are used at the basic level of most computational architectures. Inspired by neurobiological facts and hypotheses that assign a primordial coding role to the temporal dimension, and developed to address both cognitive and engineering applications, guided propagation networks (GPNs) are aimed at a generic real-time machine, based on time-space coincidence testing. The involved temporal parameters are gradually introduced, in relation with complementary applications in the field of human-machine communication: sensori-motor modeling, pattern recognition and natural language processing.
Keywords :
learning systems; man-machine systems; natural languages; neural nets; neurophysiology; pattern matching; coincidence detection architecture; computational architectures; eye saccades; fast auditory perception; generic real-time machine; guided propagation networks; human-machine communication; motor learning; natural language processing; neurobiological models; pattern recognition; primordial coding role; sensorimotor modelling; spatial codes; temporal coding; time-space coincidence testing; Computer architecture; Impedance; Information processing; Man machine systems; Natural language processing; Neurons; Pattern recognition; Registers; Testing; Writing; Action Potentials; Animals; Artificial Intelligence; Central Nervous System; Humans; Language; Models, Neurological; Movement; Neural Networks (Computer); Neurons; Pattern Recognition, Visual; Sensation; Synaptic Transmission; Time Perception; User-Computer Interface; Verbal Behavior;
Journal_Title :
Neural Networks, IEEE Transactions on
DOI :
10.1109/TNN.2004.833137
