The neural networks of the human brain act as very efficient parallel processing computers coordinating memory related responses to a multitude of input signals from sensory organs. Information storage, update and appropriate retrieval are controlled at the molecular level by the neuronal cytoskeleton which serves as the internal communication network within neurons. Information flow in the highly ordered parallel networks of the filamentous protein polymers which make up the cytoskeleton may be compared to atmospheric flows which exhibit long-range spatiotemporal correlations, i.e. long-term memory. Such long-range spatiotemporal correlations are ubiquitous to real world dynamical systems and is recently identified as signature of self-org...
A recently developed cell dynamical system model for atmospheric flows is described. This model pred...
Various types of spatiotemporal behavior are described for two-dimensional networks of excitatory an...
Presented on November 2, 2011 from 3:00 pm to 4:00 pm In Room 1116 of the Marcus Nanotechnology bui...
A cell dynamical system model incorporating the physics of deterministic chaos in digital computer r...
The complex spatiotemporal patterns of atmospheric flows resulting from the cooperative existence of...
Spatially extended dynamical systems in nature exhibit long-range spatiotemporal correlations manife...
Correlations, chaos, and criticality in neural networksMoritz HeliasINM-6 Juelich Research CentreThe...
Dynamical systems in nature such as fluid flows, heart beat patterns, rainfall variability, stock ma...
In human consciousness a world of separated objects is perceived by an inner observer who is experie...
The systems movement experienced four waves in 20th century: the first wave stemmed from the debate ...
A key challenge in neuroscience is to synthesize our understanding of neural structure, dynamics, an...
Ongoing brain activity results from the mutual interaction of hundred billions non-linear units and ...
The spectral structure, the synchronization of cells and the number of degrees of freedom are intima...
The remarkable properties of information-processing by biological and artificial neuronal networks a...
Chaos in dynamical systems potentially provides many different dynamical states arising from a singl...
A recently developed cell dynamical system model for atmospheric flows is described. This model pred...
Various types of spatiotemporal behavior are described for two-dimensional networks of excitatory an...
Presented on November 2, 2011 from 3:00 pm to 4:00 pm In Room 1116 of the Marcus Nanotechnology bui...
A cell dynamical system model incorporating the physics of deterministic chaos in digital computer r...
The complex spatiotemporal patterns of atmospheric flows resulting from the cooperative existence of...
Spatially extended dynamical systems in nature exhibit long-range spatiotemporal correlations manife...
Correlations, chaos, and criticality in neural networksMoritz HeliasINM-6 Juelich Research CentreThe...
Dynamical systems in nature such as fluid flows, heart beat patterns, rainfall variability, stock ma...
In human consciousness a world of separated objects is perceived by an inner observer who is experie...
The systems movement experienced four waves in 20th century: the first wave stemmed from the debate ...
A key challenge in neuroscience is to synthesize our understanding of neural structure, dynamics, an...
Ongoing brain activity results from the mutual interaction of hundred billions non-linear units and ...
The spectral structure, the synchronization of cells and the number of degrees of freedom are intima...
The remarkable properties of information-processing by biological and artificial neuronal networks a...
Chaos in dynamical systems potentially provides many different dynamical states arising from a singl...
A recently developed cell dynamical system model for atmospheric flows is described. This model pred...
Various types of spatiotemporal behavior are described for two-dimensional networks of excitatory an...
Presented on November 2, 2011 from 3:00 pm to 4:00 pm In Room 1116 of the Marcus Nanotechnology bui...