Add to ORKGA neural network model that exhibits stochastic population bursting is studied by simulation. First return maps of interburst intervals exhibit recurrent unstable-periodic-orbit(UPO)-like trajectories similar to those found in experiments on hippocampal slices. Applications of various control methods and surrogate analysis for UPO detection also yield results similar to those of experiments. Our results question the interpretation of the experimental data as evidence for deterministic chaos and suggest caution in the use of UPO-based methods for detecting determinism in time-series data
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
While a large body of experimental works provided results about stimulus evoked activities in primar...
A neural network model that exhibits stochastic population bursting is studied by simulation. First ...
A neural network model that exhibits stochastic population bursting is studied by simulation. First ...
A neural network model that exhibits stochastic population bursting is studied by simulation. First ...
A biologically plausible, stochastic, neural network model that exhibits spontaneous transitions bet...
A biologically plausible, stochastic, neural network model that exhibits spontaneous transitions bet...
A biologically plausible, stochastic, neural network model that exhibits spontaneous transitions bet...
Before examining neural interspike intervals to see how they might encode information, an essential ...
Chaotic behaviour is observed in neural network models composed of coincidence detector neurons. We ...
Chaos in dynamical systems potentially provides many different dynamical states arising from a singl...
We have briefly reviewed the occurrence of the post-synaptic potentials between neurons, the relatio...
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
While a large body of experimental works provided results about stimulus evoked activities in primar...
A neural network model that exhibits stochastic population bursting is studied by simulation. First ...
A neural network model that exhibits stochastic population bursting is studied by simulation. First ...
A neural network model that exhibits stochastic population bursting is studied by simulation. First ...
A biologically plausible, stochastic, neural network model that exhibits spontaneous transitions bet...
A biologically plausible, stochastic, neural network model that exhibits spontaneous transitions bet...
A biologically plausible, stochastic, neural network model that exhibits spontaneous transitions bet...
Before examining neural interspike intervals to see how they might encode information, an essential ...
Chaotic behaviour is observed in neural network models composed of coincidence detector neurons. We ...
Chaos in dynamical systems potentially provides many different dynamical states arising from a singl...
We have briefly reviewed the occurrence of the post-synaptic potentials between neurons, the relatio...
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
While a large body of experimental works provided results about stimulus evoked activities in primar...