| scholarly article | Q13442814 |
| P50 | author | Maya Paczuski | Q11179080 |
| Per Bak | Q323092 | ||
| P2860 | cites work | Mass Extinctions in the Marine Fossil Record | Q22065582 |
| Biological extinction in earth history | Q22065863 | ||
| Self-organized criticality: An explanation of the 1/f noise | Q27335737 | ||
| Avalanches and 1/f noise in evolution and growth models | Q27337595 | ||
| Self-organized criticality | Q27339350 | ||
| Self-organized criticality in a continuous, nonconservative cellular automaton modeling earthquakes | Q27347946 | ||
| Punctuated equilibrium and criticality in a simple model of evolution | Q27450420 | ||
| Evolution as a self-organized critical phenomenon | Q28776019 | ||
| Ten years in the library: new data confirm paleontological patterns | Q30659850 | ||
| Punctuated equilibrium comes of age. | Q34344229 | ||
| Patterns of generic extinction in the fossil record. | Q47385674 | ||
| Self-organized critical state of sandpile automaton models | Q59443335 | ||
| Simple model of self-organized biological evolution. | Q60520925 | ||
| Mean field theory for a simple model of evolution | Q74542237 | ||
| Anomalous approach to the self-organized critical state in a model for "life at the edge of chaos" | Q74548840 | ||
| Laws for stationary states in systems with extremal dynamics | Q74558192 | ||
| P433 | issue | 15 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 6689-96 | |
| P577 | publication date | 1995-07-18 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Complexity, contingency, and criticality | |
| P478 | volume | 92 |
| Q36569461 | A fractal approach to dynamic inference and distribution analysis. |
| Q47797745 | Age distribution of trees in stationary forest system |
| Q42946848 | Agent-Based Modeling for the 2D Molecular Self-Organization of Realistic Molecules |
| Q60774492 | Are our senses critical? |
| Q90356249 | Assessing Catastrophes-Dragon-Kings, Black, and Gray Swans-for Science-Policy |
| Q36193799 | Avalanche Analysis from Multielectrode Ensemble Recordings in Cat, Monkey, and Human Cerebral Cortex during Wakefulness and Sleep |
| Q27340268 | Avalanche dynamics in evolution, growth, and depinning models |
| Q28730028 | Biological robustness: paradigms, mechanisms, and systems principles |
| Q37588297 | Biosignatures of health |
| Q21145366 | Broadband criticality of human brain network synchronization |
| Q51559789 | Causality, criticality, and reading words: distinct sources of fractal scaling in behavioral sequences. |
| Q33568422 | Chapter 5. Nuclear actin-related proteins in epigenetic control |
| Q33895073 | Cognitive performance in healthy older adults relates to spontaneous switching between states of functional connectivity during rest |
| Q34138870 | Complexity and robustness |
| Q50431298 | Complexity: the organizing principle at the interface of biological (dis)order |
| Q74566894 | Conditions for adaptation of an evolving population |
| Q45974797 | Curtailing cascading failures. |
| Q89948101 | Disturbance in human gut microbiota networks by parasites and its implications in the incidence of depression |
| Q60774477 | Emergent complex neural dynamics |
| Q28596443 | Evolution models with extremal dynamics |
| Q36199154 | Evolutionary mechanics: new engineering principles for the emergence of flexibility in a dynamic and uncertain world |
| Q37381894 | Fading signatures of critical brain dynamics during sustained wakefulness in humans |
| Q34126217 | Failure of adaptive self-organized criticality during epileptic seizure attacks |
| Q42095926 | Finding Self-organization from the Dynamic Gene Expressions of Innate Immune Responses |
| Q49962392 | Flow and clog in a silo with oscillating exit |
| Q59757586 | Fractal and Multifractal Properties of Electrographic Recordings of Human Brain Activity: Toward Its Use as a Signal Feature for Machine Learning in Clinical Applications |
| Q28741843 | Fractals in the nervous system: conceptual implications for theoretical neuroscience |
| Q51944734 | Functional invariant approach to the biological system uniqueness: a simple neuronet model. |
| Q46160513 | Genetic suppression of seizure susceptibility in Drosophila |
| Q51388325 | Geomorphic histories for river and catchment management. |
| Q24796184 | Growth cone pathfinding: a competition between deterministic and stochastic events |
| Q37345455 | Homeostasis of neuronal avalanches during postnatal cortex development in vitro |
| Q34503047 | How Robust Is Your Project? From Local Failures to Global Catastrophes: A Complex Networks Approach to Project Systemic Risk |
| Q44238481 | Intermittency in processing explains the diversity and shape of functional grazing responses |
| Q51496274 | Intrinsic adaptation in autonomous recurrent neural networks. |
| Q38017212 | Modular pharmacology: the next paradigm in drug discovery |
| Q37390161 | Neuronal avalanches imply maximum dynamic range in cortical networks at criticality. |
| Q34430292 | Neuronal avalanches in spontaneous activity in vivo |
| Q36677167 | Neuronal avalanches organize as nested theta- and beta/gamma-oscillations during development of cortical layer 2/3 |
| Q33937473 | On the nature of seizure dynamics |
| Q58700284 | Physical foundations of biological complexity |
| Q33769420 | Power Spectral Density Analysis of Electrocorticogram Recordings during Cerebral Hypothermia in Neonatal Seizures |
| Q48265353 | Power-law distribution of phase-locking intervals does not imply critical interaction |
| Q35392074 | Predictability of extreme events in social media |
| Q47369099 | Repertoire of mesoscopic cortical activity is not reduced during anesthesia |
| Q34276653 | Scale invariance in biology: coincidence or footprint of a universal mechanism? |
| Q36033507 | Scale-Free and Multifractal Time Dynamics of fMRI Signals during Rest and Task |
| Q35125082 | Scale-free functional connectivity of the brain is maintained in anesthetized healthy participants but not in patients with unresponsive wakefulness syndrome. |
| Q48899245 | Scale-free modulation of resting-state neuronal oscillations reflects prolonged brain maturation in humans. |
| Q34169980 | Scaling effects and spatio-temporal multilevel dynamics in epileptic seizures |
| Q48558781 | Self-focused cognitive emotion regulation style as associated with widespread diminished EEG fractal dimension |
| Q62599749 | Self-organized criticality and punctuated equilibria |
| Q90604440 | Self-organized networks: Darwinian evolution of dynein rings, stalks, and stalk heads |
| Q34967342 | Simplicity belies a complex system: a response to the minimal model of immunity of Langman and Cohn |
| Q37320735 | Spontaneous cortical activity in awake monkeys composed of neuronal avalanches. |
| Q47969083 | Strong anticipation: complexity matching in interpersonal coordination |
| Q30248253 | Sudden unexpected death in epilepsy: epidemiology, mechanisms, and prevention |
| Q46874438 | Symmetry of interactions rules in incompletely connected random replicator ecosystems |
| Q51430232 | Tail probabilities of extinction time in a large number of experimental populations. |
| Q43717612 | The faithful copy neuron |
| Q41621799 | The functional matrix hypothesis revisited. 4. The epigenetic antithesis and the resolving synthesis |
| Q28655005 | Theory of the origin, evolution, and nature of life |
| Q52643372 | Transitions in persistence of postural dynamics depend on the velocity and structure of postural perturbations. |
| Q52046820 | Ultrametricity and memory in a solvable model of self-organized criticality. |
| Q52073277 | dc = 4 is the upper critical dimension for the Bak-Sneppen model. |
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