<div><p>The role intrinsic statistical fluctuations play in creating avalanches – patterns of complex bursting activity with scale-free properties – is examined in leaky Markovian networks. Using this broad class of models, we develop a probabilistic approach that employs a potential energy landscape perspective coupled with a macroscopic description based on statistical thermodynamics. We identify six important thermodynamic quantities essential for characterizing system behavior as a function of network size: the internal potential energy, entropy, free potential energy, internal pressure, pressure, and bulk modulus. In agreement with classical phase transitions, these quantities evolve smoothly as a function of the network size until a c...
The finding of power law scaling in neural recordings lends support to the hypothesis of critical br...
The tasks of neural computation are remarkably diverse. To function optimally, neuronal networks hav...
Self-organized criticality theory proved that information transmission and computational performance...
Experimental and computational studies provide compelling evidence that neuronal systems are charact...
In the human brain trillions of neurons transmit information “firing” electrical pulses called actio...
It is now folklore that intracellular membrane potential recordings of neurons are highly noisy, owi...
The observation of apparent power laws in neuronal systems has led to the suggestion that the brain ...
Experimental evidence shows that resting neuronal activity consists of power-law distributed outburs...
Avalanches with power-law distributed size parameters have been observed in neuronal networks. This ...
We establish a general framework that explains how leaky, dissipative systems, such as neuronal netw...
A problem central to many scientific and engineering disciplines is how to deal with noisy dynamic p...
The observation of apparent power-laws in neuronal systems has led to the suggestion that the brain ...
In this paper we show that a well-known model of genetic regulatory networks, namely that of Random ...
The presence of self-organized criticality in biology is often evidenced by a power-law scaling of e...
The global stability of dynamical systems and networks is still challenging to study. We developed a...
The finding of power law scaling in neural recordings lends support to the hypothesis of critical br...
The tasks of neural computation are remarkably diverse. To function optimally, neuronal networks hav...
Self-organized criticality theory proved that information transmission and computational performance...
Experimental and computational studies provide compelling evidence that neuronal systems are charact...
In the human brain trillions of neurons transmit information “firing” electrical pulses called actio...
It is now folklore that intracellular membrane potential recordings of neurons are highly noisy, owi...
The observation of apparent power laws in neuronal systems has led to the suggestion that the brain ...
Experimental evidence shows that resting neuronal activity consists of power-law distributed outburs...
Avalanches with power-law distributed size parameters have been observed in neuronal networks. This ...
We establish a general framework that explains how leaky, dissipative systems, such as neuronal netw...
A problem central to many scientific and engineering disciplines is how to deal with noisy dynamic p...
The observation of apparent power-laws in neuronal systems has led to the suggestion that the brain ...
In this paper we show that a well-known model of genetic regulatory networks, namely that of Random ...
The presence of self-organized criticality in biology is often evidenced by a power-law scaling of e...
The global stability of dynamical systems and networks is still challenging to study. We developed a...
The finding of power law scaling in neural recordings lends support to the hypothesis of critical br...
The tasks of neural computation are remarkably diverse. To function optimally, neuronal networks hav...
Self-organized criticality theory proved that information transmission and computational performance...