Add to ORKGNoise-induced volatility refers to a phenomenon of increased level of fluctuations in the collective dynamics of bistable units in the presence of a rapidly varying external signal, and intermediate noise levels. The archetypical signature of this phenomenon is that-beyond the increase in the level of fluctuations-the response of the system becomes uncorrelated with the external driving force, making it different from stochastic resonance. Numerical simulations and an analytical theory of a stochastic dynamical version of the Ising model on regular and random networks demonstrate the ubiquity and robustness of this phenomenon, which is argued to be a possible cause of excess volatility in financial markets, of enhanced effective temperature...
The paper demonstrates the possibility to control the collective behavior of a large network of exci...
We investigate the emergence of a collective periodic behavior in a frustrated network of interactin...
The arguably most important paradox of financial economics—the excess volatility puzzle—first identi...
For systems that are in equilibrium, fluctuations can be understood through interactions with exter...
The dynamics of a system formed by a finite number N of globally coupled bistable oscillators and dr...
We study a generalization of the Heston model, which consists of two coupled stochastic differential...
Here we numerically study the emergence of stochastic resonance as a mild phenomenon and how this tr...
The population dynamics of an assembly of globally coupled homogeneous phase oscillators is studied ...
We explore nonequilibrium collective behavior in large, spatially extended stochastic systems. In Pa...
ACKNOWLEDGMENT This work has been financially supported by the European Union’s Horizon 2020 researc...
Studies of complex systems and agent-based models often focus on the relationship between microscopi...
We analyze the noise-induced synchronization between a collective variable characterizing a complex ...
Here we numerically study the emergence of stochastic resonance as a mild phenomenon and how this tr...
We study the interplay of global attractive coupling and individual noise in a system of identical a...
International audienceAdditive noise has been known for a long time to not change a systems stabilit...
The paper demonstrates the possibility to control the collective behavior of a large network of exci...
We investigate the emergence of a collective periodic behavior in a frustrated network of interactin...
The arguably most important paradox of financial economics—the excess volatility puzzle—first identi...
For systems that are in equilibrium, fluctuations can be understood through interactions with exter...
The dynamics of a system formed by a finite number N of globally coupled bistable oscillators and dr...
We study a generalization of the Heston model, which consists of two coupled stochastic differential...
Here we numerically study the emergence of stochastic resonance as a mild phenomenon and how this tr...
The population dynamics of an assembly of globally coupled homogeneous phase oscillators is studied ...
We explore nonequilibrium collective behavior in large, spatially extended stochastic systems. In Pa...
ACKNOWLEDGMENT This work has been financially supported by the European Union’s Horizon 2020 researc...
Studies of complex systems and agent-based models often focus on the relationship between microscopi...
We analyze the noise-induced synchronization between a collective variable characterizing a complex ...
Here we numerically study the emergence of stochastic resonance as a mild phenomenon and how this tr...
We study the interplay of global attractive coupling and individual noise in a system of identical a...
International audienceAdditive noise has been known for a long time to not change a systems stabilit...
The paper demonstrates the possibility to control the collective behavior of a large network of exci...
We investigate the emergence of a collective periodic behavior in a frustrated network of interactin...
The arguably most important paradox of financial economics—the excess volatility puzzle—first identi...