We propose an extended framework of two dimensional neural field with network between distant cortical areas as a model of global brain dynamics, and the models whose geometry of the neural field changes depending on the field dynamics as a model for growing brains. As a characteristic pattern with non-local and network interactions in neural field, pulser and memory are constructed. Possible applications to quantitative measurements of cortical activities of mouse and human brain development are briefly discussed
The human brain exhibits complex spatiotemporal dynamics at multiple scales. On length scales of a f...
Abstract The fantastic properties of the brain are due to an intricate interplay between bil-lions o...
International audienceNeural or cortical fields are continuous assemblies of mesoscopic models, also...
Abstract — We develop a mathematical framework of contin-uum neural field theory as the beginning po...
Biophysical modelling of brain activity has a long and illustrious history and has recently profited...
With this book, the editors present the first comprehensive collection in neural field studies, auth...
Models of neural nets are developed from a biological point of view. Small networks are analyzed usi...
The development of new experimental techniques in parallel with a continuous increase of computation...
Mathematical modelling of the macroscopic electrical activity of the brain ishighly non-trivial and ...
We review the use of neural field models for modelling the brain at the large scales necessary for i...
We review the use of neural field models for modelling the brain at the large scales necessary for i...
The cerebral cortex is one of the most intricate natural systems known, due to the multitude and het...
This thesis deals with the development and analysis of mathematical models of brain activity, with a...
Abstract. Neural or cortical fields are continuous assemblies of mesoscopic models, also called neur...
Liley's mesoscopic mean-field theory of mammalian cortex electro-rhythmogenesis describes the salien...
The human brain exhibits complex spatiotemporal dynamics at multiple scales. On length scales of a f...
Abstract The fantastic properties of the brain are due to an intricate interplay between bil-lions o...
International audienceNeural or cortical fields are continuous assemblies of mesoscopic models, also...
Abstract — We develop a mathematical framework of contin-uum neural field theory as the beginning po...
Biophysical modelling of brain activity has a long and illustrious history and has recently profited...
With this book, the editors present the first comprehensive collection in neural field studies, auth...
Models of neural nets are developed from a biological point of view. Small networks are analyzed usi...
The development of new experimental techniques in parallel with a continuous increase of computation...
Mathematical modelling of the macroscopic electrical activity of the brain ishighly non-trivial and ...
We review the use of neural field models for modelling the brain at the large scales necessary for i...
We review the use of neural field models for modelling the brain at the large scales necessary for i...
The cerebral cortex is one of the most intricate natural systems known, due to the multitude and het...
This thesis deals with the development and analysis of mathematical models of brain activity, with a...
Abstract. Neural or cortical fields are continuous assemblies of mesoscopic models, also called neur...
Liley's mesoscopic mean-field theory of mammalian cortex electro-rhythmogenesis describes the salien...
The human brain exhibits complex spatiotemporal dynamics at multiple scales. On length scales of a f...
Abstract The fantastic properties of the brain are due to an intricate interplay between bil-lions o...
International audienceNeural or cortical fields are continuous assemblies of mesoscopic models, also...