TY - ADVS
T1 - Neurocomputational cortical memory for spectro-temporal phonetic abstraction.
AU - Dematties, Dario
AU - Thiruvathukal, George K.
AU - Rizzi, Silvio
AU - Wainselboim, Alejandro Javier
AU - Zanutto, Bonifacio Silvano
N1 - Dematties, Dario, Thiruvathukal, George K., Rizzi, Silvio, Wainselboim, Alejandro Javier, & Zanutto, Bonifacio Silvano. (2019, February 28). neurophon/neurophon: Release for PLOS submission (Version v1.0). Zenodo. http://doi.org/10.5281/zenodo.2580396
PY - 2019/3/1
Y1 - 2019/3/1
N2 - The human brain is the most complex object created by evolution in the known universe. Yet, how much of this complexity is devoted to exclusively carrying out its algorithmic capabilities and how much of it has been inherited from biological paths of evolution in order to work properly in its physical environment? What if the information processing properties of the brain could be reduced to a few simple columnar rules replicated throughout the neocortex? In our research project we seek for those principles by means of the elaboration of computational models of the neocortex.
AB - The human brain is the most complex object created by evolution in the known universe. Yet, how much of this complexity is devoted to exclusively carrying out its algorithmic capabilities and how much of it has been inherited from biological paths of evolution in order to work properly in its physical environment? What if the information processing properties of the brain could be reduced to a few simple columnar rules replicated throughout the neocortex? In our research project we seek for those principles by means of the elaboration of computational models of the neocortex.
KW - cortical dynamics
KW - early language acquisition
KW - incidental phonetic acquisition
KW - sparse distributed representations
KW - unsupervised learning
KW - biologically inspired computational models
KW - neural networks
UR - https://ecommons.luc.edu/cs_facpubs/210
UR - https://zenodo.org/record/2584864
M3 - Digital or Visual Products
ER -