When assessing spatially extended complex systems, one can rarely sample the states of all components. We show that this spatial subsampling typically leads to severe underestimation of the risk of instability in systems with propagating events. We derive a subsampling-invariant estimator, and demonstrate that it correctly infers the infectiousness of various diseases under subsampling, making it particularly useful in countries with unreliable case reports. In neuroscience, recordings are strongly limited by subsampling. Here, the subsampling-invariant estimator allows to revisit two prominent hypotheses about the brain's collective spiking dynamics: asynchronous-irregular or critical. We identify consistently for rat, cat, and monkey a st...
r r Abstract:We report here on a first attempt to settle the methodological controversy between advo...
Many systems with propagation dynamics, such as spike propagation in neural networks and spreading o...
Dynamic excitatory-inhibitory (E-I) balance is a paradigmatic mechanism invoked to explain the irreg...
When assessing spatially extended complex systems, one can rarely sample the states of all component...
Despite the development of large-scale data-acquisition techniques, experimental observations of com...
Inferring the dynamics of a system from observations is a challenge, even if one can observe all sys...
Knowledge about the collective dynamics of cortical spiking is very informative about the underlying...
In real-world applications, observations are often constrained to a small fraction of a system. Such...
Complex systems are fascinating because their rich macroscopic properties emerge from the interactio...
Self organized criticality (SOC) has been proposed to govern the dynamics of various complex systems...
Here we present our Python toolbox “MR. Estimator” to reliably estimate the intrinsic timescale from...
When studying real world complex networks, one rarely has full access to all their components. As an...
Self-organized critical (SOC) systems are complex dynamical systems that may express cascades of eve...
Uncovering the topological properties of the brain network is essential for understanding brain func...
In self-organized critical (SOC) systems avalanche size distributions follow power-laws. Power-laws ...
r r Abstract:We report here on a first attempt to settle the methodological controversy between advo...
Many systems with propagation dynamics, such as spike propagation in neural networks and spreading o...
Dynamic excitatory-inhibitory (E-I) balance is a paradigmatic mechanism invoked to explain the irreg...
When assessing spatially extended complex systems, one can rarely sample the states of all component...
Despite the development of large-scale data-acquisition techniques, experimental observations of com...
Inferring the dynamics of a system from observations is a challenge, even if one can observe all sys...
Knowledge about the collective dynamics of cortical spiking is very informative about the underlying...
In real-world applications, observations are often constrained to a small fraction of a system. Such...
Complex systems are fascinating because their rich macroscopic properties emerge from the interactio...
Self organized criticality (SOC) has been proposed to govern the dynamics of various complex systems...
Here we present our Python toolbox “MR. Estimator” to reliably estimate the intrinsic timescale from...
When studying real world complex networks, one rarely has full access to all their components. As an...
Self-organized critical (SOC) systems are complex dynamical systems that may express cascades of eve...
Uncovering the topological properties of the brain network is essential for understanding brain func...
In self-organized critical (SOC) systems avalanche size distributions follow power-laws. Power-laws ...
r r Abstract:We report here on a first attempt to settle the methodological controversy between advo...
Many systems with propagation dynamics, such as spike propagation in neural networks and spreading o...
Dynamic excitatory-inhibitory (E-I) balance is a paradigmatic mechanism invoked to explain the irreg...