Complex biological systems are considered to be controlled using feedback mechanisms. Reduced systems modelling has been effective to describe these mechanisms, but this approach does not sufficiently encompass the required complexity that is needed to understand how localised control in a biological system can provide global stable states. Self-Organised Criticality (SOC) is a characteristic property of locally interacting physical systems, which readily emerges from changes to its dynamic state due to small nonlinear perturbations. These small changes in the local states, or in local interactions, can greatly affect the total system state of critical systems. It has long been conjectured that SOC is cardinal to biological systems, that sh...
International audienceBiological regulation is what allows an organism to handle the effects of a pe...
The biochemical reaction networks that regulate living systems are all stochastic to varying degrees...
Cells are exposed to a range of external and internal disturbances that may influence the function o...
Complex biological systems are considered to be controlled using feedback mechanisms. Reduced system...
Complex dynamical fluctuations, from intracellular noise, brain dynamics or computer traffic display...
Cognitive networks have evolved to cope with uncertain environments in order to make reliable decisi...
International audienceLiving systems employ several mechanisms and behaviors to achieve robustness a...
The overall intention of chaotic control is to eliminate chaos, and to force the system to become st...
Living systems employ several mechanisms and behaviors to achieve robustness and maintain themselves...
Feedback is both a pillar of control theory and a pervasive principle of nature. For this reason, co...
We describe various techniques to control the dynamics of strongly nonlinear systems. these procedur...
Cells need to respond to a vast range of different disturbances and changes over small and large tim...
Systems that exhibit complex behaviours are often found in a particular dynamical condition, poised ...
Biochemical networks consist of highly interconnected dynamic systems of chemical reaction represent...
Living beings share several common features at the molecular level, but there are very few large‐sca...
International audienceBiological regulation is what allows an organism to handle the effects of a pe...
The biochemical reaction networks that regulate living systems are all stochastic to varying degrees...
Cells are exposed to a range of external and internal disturbances that may influence the function o...
Complex biological systems are considered to be controlled using feedback mechanisms. Reduced system...
Complex dynamical fluctuations, from intracellular noise, brain dynamics or computer traffic display...
Cognitive networks have evolved to cope with uncertain environments in order to make reliable decisi...
International audienceLiving systems employ several mechanisms and behaviors to achieve robustness a...
The overall intention of chaotic control is to eliminate chaos, and to force the system to become st...
Living systems employ several mechanisms and behaviors to achieve robustness and maintain themselves...
Feedback is both a pillar of control theory and a pervasive principle of nature. For this reason, co...
We describe various techniques to control the dynamics of strongly nonlinear systems. these procedur...
Cells need to respond to a vast range of different disturbances and changes over small and large tim...
Systems that exhibit complex behaviours are often found in a particular dynamical condition, poised ...
Biochemical networks consist of highly interconnected dynamic systems of chemical reaction represent...
Living beings share several common features at the molecular level, but there are very few large‐sca...
International audienceBiological regulation is what allows an organism to handle the effects of a pe...
The biochemical reaction networks that regulate living systems are all stochastic to varying degrees...
Cells are exposed to a range of external and internal disturbances that may influence the function o...