AbstractA new nonlinear dynamical analysis is applied to complex behavior from neuronal systems. The conceptual foundation of this analysis is the abstraction of observed neuronal activities into a dynamical landscape characterized by a hierarchy of “unstable periodic orbits” (UPOs). UPOs are rigorously identified in data sets representative of three different levels of organization in mammalian brain. An analysis based on UPOs affords a novel alternative method of decoding, predicting, and controlling these neuronal systems
In this thesis we study aspects of periodic activity in model mutually-coupled oscillators inspired ...
We investigate the phase-space dynamics of a general model of local sys-tems of biological neurons i...
Chaos in dynamical systems potentially provides many different dynamical states arising from a singl...
AbstractA new nonlinear dynamical analysis is applied to complex behavior from neuronal systems. The...
Dynamical modeling of neural systems and brain functions has a history of success over the last half...
Although nonlinear dynamics have been mastered by physicists and mathematicians for a long time (as ...
ABSTRACTRecordings of the membrane potential from a bursting neuron were used to reconstruct the pha...
As we strive to understand the mechanisms underlying neural computation, mathematical models are inc...
We investigate the phase space dynamics of local systems of biological neurons in order to deduce th...
With many areas of science reaching across their boundaries and becoming more and more interdiscipli...
The brain is the central hub regulating thought, memory, vision, and many other processes occurring ...
We begin with a brief review of the abstract dynamical system that models systems of biological neur...
We study complex behaviors arising in neuroscience and other nonlinear systems by combining dynamica...
This is the author accepted manuscript. The final version is available from BioMed Central via the D...
Presented on November 2, 2011 from 3:00 pm to 4:00 pm In Room 1116 of the Marcus Nanotechnology bui...
In this thesis we study aspects of periodic activity in model mutually-coupled oscillators inspired ...
We investigate the phase-space dynamics of a general model of local sys-tems of biological neurons i...
Chaos in dynamical systems potentially provides many different dynamical states arising from a singl...
AbstractA new nonlinear dynamical analysis is applied to complex behavior from neuronal systems. The...
Dynamical modeling of neural systems and brain functions has a history of success over the last half...
Although nonlinear dynamics have been mastered by physicists and mathematicians for a long time (as ...
ABSTRACTRecordings of the membrane potential from a bursting neuron were used to reconstruct the pha...
As we strive to understand the mechanisms underlying neural computation, mathematical models are inc...
We investigate the phase space dynamics of local systems of biological neurons in order to deduce th...
With many areas of science reaching across their boundaries and becoming more and more interdiscipli...
The brain is the central hub regulating thought, memory, vision, and many other processes occurring ...
We begin with a brief review of the abstract dynamical system that models systems of biological neur...
We study complex behaviors arising in neuroscience and other nonlinear systems by combining dynamica...
This is the author accepted manuscript. The final version is available from BioMed Central via the D...
Presented on November 2, 2011 from 3:00 pm to 4:00 pm In Room 1116 of the Marcus Nanotechnology bui...
In this thesis we study aspects of periodic activity in model mutually-coupled oscillators inspired ...
We investigate the phase-space dynamics of a general model of local sys-tems of biological neurons i...
Chaos in dynamical systems potentially provides many different dynamical states arising from a singl...