Order in spontaneous behavior

Brains are usually described as input/output systems: they transform sensory input into motor output. However, the motor output of brains (behavior) is notoriously variable, even under identical sensory conditions. The question of whether this behavioral variability merely reflects residual deviatio...

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Veröffentlicht in:	PloS one 2007-05, Vol.2 (5), p.e443-e443
Hauptverfasser:	Maye, Alexander, Hsieh, Chih-Hao, Sugihara, George, Brembs, Björn
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptive systems Aircraft maneuvers Animals Behavior Behavior, Animal Brain Brain research Computational Biology/Computational Neuroscience Computer Science/Numerical Analysis and Theoretical Computing Computer simulation Cues Drosophila Drosophila - physiology Drosophila melanogaster Ecology/Behavioral Ecology Evolutionary Biology/Animal Behavior Flight behavior Fractals Fruit flies Fruit flies (Tephritidae) Hypotheses Insects Mathematics/Nonlinear Dynamics Mental Health/Psychology Neuroscience/Behavioral Neuroscience Neuroscience/Motor Systems Noise Nonlinear systems Oceanography Physics Physiology/Integrative Physiology Physiology/Motor Systems Probability Random noise
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description	Brains are usually described as input/output systems: they transform sensory input into motor output. However, the motor output of brains (behavior) is notoriously variable, even under identical sensory conditions. The question of whether this behavioral variability merely reflects residual deviations due to extrinsic random noise in such otherwise deterministic systems or an intrinsic, adaptive indeterminacy trait is central for the basic understanding of brain function. Instead of random noise, we find a fractal order (resembling Lévy flights) in the temporal structure of spontaneous flight maneuvers in tethered Drosophila fruit flies. Lévy-like probabilistic behavior patterns are evolutionarily conserved, suggesting a general neural mechanism underlying spontaneous behavior. Drosophila can produce these patterns endogenously, without any external cues. The fly's behavior is controlled by brain circuits which operate as a nonlinear system with unstable dynamics far from equilibrium. These findings suggest that both general models of brain function and autonomous agents ought to include biologically relevant nonlinear, endogenous behavior-initiating mechanisms if they strive to realistically simulate biological brains or out-compete other agents.
doi_str_mv	10.1371/journal.pone.0000443
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subjects	Adaptive systems Aircraft maneuvers Animals Behavior Behavior, Animal Brain Brain research Computational Biology/Computational Neuroscience Computer Science/Numerical Analysis and Theoretical Computing Computer simulation Cues Drosophila Drosophila - physiology Drosophila melanogaster Ecology/Behavioral Ecology Evolutionary Biology/Animal Behavior Flight behavior Fractals Fruit flies Fruit flies (Tephritidae) Hypotheses Insects Mathematics/Nonlinear Dynamics Mental Health/Psychology Neuroscience/Behavioral Neuroscience Neuroscience/Motor Systems Noise Nonlinear systems Oceanography Physics Physiology/Integrative Physiology Physiology/Motor Systems Probability Random noise
title	Order in spontaneous behavior
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