Add to ORKGLarge and small cortexes of the brain are known to contain vast amounts of neurons that interact with one another. They thus form a continuum of active neural networks whose dynamics are yet to be fully understood. One way to model these activities is to use dynamic neural fields which are mathematical models that approximately describe the behavior of these congregations of neurons. These models have been used in neuroinformatics, neuroscience, robotics, and network analysis to understand not only brain functions or brain diseases, but also learning and brain plasticity. In their theoretical forms, they are given as ordinary or partial differential equations with or without diffusion. Many of their mathematical properties are still under-s...
This thesis deals with the development and analysis of neural fields and neural networks. Neural fie...
The brain is a very complex system in the strong sense. It features a huge amount of individual cell...
In this paper we describe a neural field model which explains how a population of cortical neurons m...
Large and small cortexes of the brain are known to contain vast amounts of neurons that interact wit...
Dynamics of neural fields are tools used in neurosciences to understand the activities generated by ...
The brain is the central hub regulating thought, memory, vision, and many other processes occurring ...
With this book, the editors present the first comprehensive collection in neural field studies, auth...
Dynamic Field Theory (DFT) is an established framework for modeling embodied cognition. In DFT, elem...
International audienceWe present numerical simulations of metastable states in heterogeneous neural ...
International audienceBio-inspired neural computation attracts a lot of attention as a possible solu...
Dynamic neural fields (DNFs) are dynamical systems models that approximate the activity of large, ho...
Dynamic neural fields (DNFs) are dynamical systems models that approximate the activity of large, ho...
Cerebral cortex is composed of intricate networks of neurons. These neuronal networks are strongly i...
The extreme complexity of the brain naturally requires mathematical modeling approaches on a large v...
The mathematical modelling of neural activity is a hugely complex and prominent area of exploration ...
This thesis deals with the development and analysis of neural fields and neural networks. Neural fie...
The brain is a very complex system in the strong sense. It features a huge amount of individual cell...
In this paper we describe a neural field model which explains how a population of cortical neurons m...
Large and small cortexes of the brain are known to contain vast amounts of neurons that interact wit...
Dynamics of neural fields are tools used in neurosciences to understand the activities generated by ...
The brain is the central hub regulating thought, memory, vision, and many other processes occurring ...
With this book, the editors present the first comprehensive collection in neural field studies, auth...
Dynamic Field Theory (DFT) is an established framework for modeling embodied cognition. In DFT, elem...
International audienceWe present numerical simulations of metastable states in heterogeneous neural ...
International audienceBio-inspired neural computation attracts a lot of attention as a possible solu...
Dynamic neural fields (DNFs) are dynamical systems models that approximate the activity of large, ho...
Dynamic neural fields (DNFs) are dynamical systems models that approximate the activity of large, ho...
Cerebral cortex is composed of intricate networks of neurons. These neuronal networks are strongly i...
The extreme complexity of the brain naturally requires mathematical modeling approaches on a large v...
The mathematical modelling of neural activity is a hugely complex and prominent area of exploration ...
This thesis deals with the development and analysis of neural fields and neural networks. Neural fie...
The brain is a very complex system in the strong sense. It features a huge amount of individual cell...
In this paper we describe a neural field model which explains how a population of cortical neurons m...