Title :
Learning visual-motor Cell Assemblies for the iCub robot using a neuroanatomically grounded neural network
Author :
Adams, S.V. ; Wennekers, T. ; Cangelosi, Angelo ; Garagnani, M. ; Pulvermuller, F.
Author_Institution :
Centre for Robot. & Neural Syst., Plymouth Univ., Plymouth, UK
Abstract :
In this work we describe how an existing neural model for learning Cell Assemblies (CAs) across multiple neuroanatomical brain areas has been integrated with a humanoid robot simulation to explore the learning of associations of visual and motor modalities. The results show that robust CAs are learned to enable pattern completion to select a correct motor response when only visual input is presented. We also show, with some parameter tuning and the pre-processing of more realistic patterns taken from images of real objects and robot poses the network can act as a controller for the robot in visuo-motor association tasks. This provides the basis for further neurorobotic experiments on grounded language learning.
Keywords :
humanoid robots; learning (artificial intelligence); neural nets; CA; grounded language learning; humanoid robot simulation; iCub robot; motor modalities; motor response; neuroanatomically grounded neural network; pattern completion; visual modalities; visual-motor cell assemblies learning; visuo-motor association tasks; Assembly; Brain modeling; Computer architecture; Nuclear magnetic resonance; Robots; Training; Visualization; Cell Assemblies; Neurorobotics; Visual-Motor Learning;
Conference_Titel :
Computational Intelligence, Cognitive Algorithms, Mind, and Brain (CCMB), 2014 IEEE Symposium on
Conference_Location :
Orlando, FL
DOI :
10.1109/CCMB.2014.7020687
