about
The temporal structures and functional significance of scale-free brain activity.Intrinsic activity in the fly brain gates visual information during behavioral choicesChanges in Postural Syntax Characterize Sensory Modulation and Natural Variation of C. elegans LocomotionInformation driven self-organization of complex robotic behaviorsDrosophila FoxP mutants are deficient in operant self-learningIntermittent motion in desert locusts: behavioural complexity in simple environmentsThe origin of behavioral bursts in decision-making circuitryComputational Methods for Tracking, Quantitative Assessment, and Visualization of C. elegans Locomotory BehaviorAnts determine their next move at rest: motor planning and causality in complex systems.Sensory integration regulating male courtship behavior in DrosophilaA wasp manipulates neuronal activity in the sub-esophageal ganglion to decrease the drive for walking in its cockroach preySignatures of chaos in animal search patternsPKC in motorneurons underlies self-learning, a form of motor learning in DrosophilaBrain-wide mapping of neural activity controlling zebrafish exploratory locomotionLévy Walks Suboptimal under Predation RiskExperimental evidence for inherent Lévy search behaviour in foraging animalsEffective connectivity during animacy perception--dynamic causal modelling of Human Connectome Project dataSpontaneous olfactory receptor neuron activity determines follower cell response propertiesFractal reorientation clocks: Linking animal behavior to statistical patterns of searchMedia Portrayal of a Landmark Neuroscience Experiment on Free Will.Relating neuronal to behavioral performance: variability of optomotor responses in the blowfly.Anomalous diffusion and multifractality enhance mating encounters in the oceanUniversality in ant behaviour.Temporal organization of rest defined by actigraphy data in healthy and childhood chronic fatigue syndrome children.Big behavioral data: psychology, ethology and the foundations of neuroscience.From Lévy to Brownian: a computational model based on biological fluctuation.Recording lifetime behavior and movement in an invertebrate model.Dopamine modulates the rest period length without perturbation of its power law distribution in Drosophila melanogasterForaging success of biological Lévy flights recorded in situ.Predictable or not? Individuals' risk decisions do not necessarily predict their next ones.Discriminating external and internal causes for heading changes in freely flying Drosophila.Dynamics of two picophytoplankton groups in mediterranean sea: analysis of the deep chlorophyll maximum by a stochastic advection-reaction-diffusion model.Bursts and heavy tails in temporal and sequential dynamics of foraging decisions.Scale-free properties of the functional magnetic resonance imaging signal during rest and task.Attentional switching in humans and flies: rivalry in large and miniature brainsScale invariance in the dynamics of spontaneous behavior.Variability in individual activity bursts improves ant foraging success.Competing visual flicker reveals attention-like rivalry in the fly brain.Anomalous diffusion on the servosphere: A potential tool for detecting inherent organismal movement patternsCortical mechanisms of smooth eye movements revealed by dynamic covariations of neural and behavioral responses.
P2860
Q24603221-CAA26AEB-F698-4398-BED4-8D8E950F1E0BQ27314884-600DE736-0474-4358-BE78-658564225B02Q27318620-3DC9E2B3-1F2A-4903-8A94-FE60F0BC86DFQ27320838-8A55D9C0-9D64-4A85-8D6B-B597D3A4BF7CQ27322342-E2A7E41E-0272-4891-AA8C-BBB8B73637F6Q27331284-CC64F929-693D-48C4-A4B9-F4C413A6252AQ27333222-C52F5153-E9A9-4AF6-A77A-8F3D1C1CF482Q27333787-088AB86C-13B4-40AD-ACD7-367A08D52CE0Q27334948-21D821DF-7910-4F10-A767-769ABF20464CQ27355500-54DA669A-05AA-467B-B2D8-B0C39599910FQ28473599-1392A37E-EEC0-47A5-BF0F-5BA5CC980A98Q28601810-88DEFE69-C4A0-4AD9-A53C-B3882DDECA2BQ28603100-B1D9317D-AE7D-42BC-AD83-A633438BE2EBQ28603876-B6E71F0E-7713-4863-B81A-33663599809CQ28607721-F0848B03-489D-434C-8287-335E3EF729EFQ28647838-64D7E877-97F8-483F-9DE7-920A3A0824FCQ28656278-B32D0D0C-EECD-4D78-A2BF-5572B30741D6Q28730478-D401A347-1868-4E10-B72F-CE243E585D47Q28755858-CE30163C-A407-4ECB-A875-305B4E101148Q30395599-8542002D-A089-4F81-BF75-5F9D91164E53Q30473173-02300FFF-C77A-4EE6-A481-76D086C0B674Q30572021-ABFC3C17-9E16-4F12-9415-2484A0E21523Q30611491-9AEB63EF-C65A-4584-A815-D402EAAE047CQ30688507-0C61A8CA-F87B-4CA0-8D29-3F256472725EQ30864600-30531D1D-5E71-4C98-A794-99AE13031D43Q33815477-2A95C5A5-D469-4C76-9275-84A62EDD1D8AQ33894584-BC4307D8-F789-4B2C-93E3-6338C42E0F08Q34168519-1A18073C-0050-4B48-8468-8E93CC89590EQ34270578-57E50796-0423-4B2A-B556-8525E7C9D483Q34599530-1DEFECF1-23FF-43E1-B290-8C9F6FFAEBCEQ34611038-FFF68822-6F5C-48CD-9028-5A6A07A92747Q34795950-BF837D98-4AAB-4363-8771-B700E81A0A47Q35224919-2642D1EB-8B91-42AE-9591-D306C94A2EDCQ35391406-64326F8D-4FE2-4D09-8D4B-C8A3F11792A9Q35678790-9545BE61-8F58-4D22-9553-E82C97C37BADQ36069012-877FFFC0-6C25-47BB-A0B7-C22621205114Q36224163-BBB38FE5-C84F-4D0A-B1F8-D23325425FF9Q36331909-C50F0601-7F17-47A9-8FB5-D30C0FA7DE20Q36389321-868531AD-22F3-4510-94D5-B8B4D39F123FQ36717874-39FEFA04-F6EA-43CB-9A9E-B3DD82B888E5
P2860
description
2007 nî lūn-bûn
@nan
2007 թուականին հրատարակուած գիտական յօդուած
@hyw
2007 թվականին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Order in spontaneous behavior
@ast
Order in spontaneous behavior
@en
Order in spontaneous behavior
@nl
type
label
Order in spontaneous behavior
@ast
Order in spontaneous behavior
@en
Order in spontaneous behavior
@nl
prefLabel
Order in spontaneous behavior
@ast
Order in spontaneous behavior
@en
Order in spontaneous behavior
@nl
P2860
P3181
P1433
P1476
Order in spontaneous behavior
@en
P2093
Alexander Maye
George Sugihara
P2860
P3181
P356
10.1371/JOURNAL.PONE.0000443
P407
P577
2007-01-01T00:00:00Z