Scale invariance in biology: coincidence or footprint of a universal mechanism?
about
Tweedie convergence: A mathematical basis for Taylor's power law, 1 / f noise, and multifractalityThe temporal structures and functional significance of scale-free brain activity.Birth and death of protein domains: a simple model of evolution explains power law behavior.Complex systems and the technology of variability analysisGene family evolution: an in-depth theoretical and simulation analysis of non-linear birth-death-innovation modelsThermodynamical journey in plant biologyModeling microbial community structure and functional diversity across time and spaceA model for integrating elementary neural functions into delayed-response behaviorMovement variability near goal equivalent manifolds: fluctuations, control, and model-based analysisSearching Choices: Quantifying Decision-Making Processes Using Search Engine DataFractals in the nervous system: conceptual implications for theoretical neurosciencePink landscapes: 1/f spectra of spatial environmental variability and bird community compositionKeypress-Based Musical Preference Is Both Individual and Lawful.Statistical Mechanics of Zooplankton.Path length entropy analysis of diastolic heart sounds.Chaos game representation of human pallidal spike trains.Being critical of criticality in the brain.Optimizing complexity measures for FMRI data: algorithm, artifact, and sensitivityRepair of Physiologic Time Series: Replacement of Anomalous Data Points to Preserve Fractal Exponents.Global similarity and local divergence in human and mouse gene co-expression networks.Increase of universality in human brain during mental imagery from visual perceptionSubsampling effects in neuronal avalanche distributions recorded in vivo.Variability trend in the scale-free fluctuation of economic and market data.Scaling behavior of human locomotor activity amplitude: association with bipolar disorderRe-interpreting detrended fluctuation analyses of stride-to-stride variability in human walkingFeedback-based, system-level properties of vertebrate-microbial interactions.Observations on related ecological exponentsAutopoiesis 40 years later. A review and a reformulation.Degree of host susceptibility in the initial disease outbreak influences subsequent epidemic spread.Predicting clonal self-renewal and extinction of hematopoietic stem cells.Does the self-similar species distribution model lead to unrealistic predictions?Spatial wavelet analysis of calcium oscillations in developing neurons.Scale-free functional connectivity of the brain is maintained in anesthetized healthy participants but not in patients with unresponsive wakefulness syndrome.Structural determinants of criticality in biological networks.A power-law dependence of bacterial invasion on mammalian host receptors.Linear and nonlinear heart rate variability indexes in clinical practiceAvalanche Analysis from Multielectrode Ensemble Recordings in Cat, Monkey, and Human Cerebral Cortex during Wakefulness and Sleep.Collective Space-Sensing Coordinates Pattern Scaling in Engineered Bacteria.Initial epidemic area is strongly associated with the yearly extent of soybean rust spread in North America.The role of the circadian system in fractal neurophysiological control.
P2860
Q21563749-616A4E42-E15C-43B6-AD6C-D33165948C31Q24603221-5CE82D99-9081-4726-8B1D-999D3DD9D1FEQ24799758-E95C2C90-F278-4F51-80D9-DD2DB35E6A43Q24800949-767B3068-80F1-4EEC-9549-B5F505701516Q24802795-3F0AC150-8674-4E79-BC9D-EE09CF6B2F4CQ26801627-1292CE75-BC10-482D-89EA-31C03A5EF7FDQ26826910-F5553977-9CB0-4E09-88B3-493AAC59BEC8Q27339914-760608D7-8C3A-49B8-8EA4-26B69AB09D8EQ28392688-34D392E9-1F6E-4581-BA9F-02DB2BB6D0D6Q28597200-12EF761C-6364-4D15-A6E6-89EBECCE2C8EQ28741843-0E973B47-0D86-4073-8E91-A7300340B6C1Q28765651-5B3671FD-B6D0-4192-A34F-F26F2DBE7CDCQ30356159-73AFC121-917E-4DDA-9A1A-51D9308EC83CQ30404727-5F737CAE-A8D6-4965-B9D3-D5ED80A060C7Q30431744-A05ABAE5-BEC1-4547-AB8A-F2FCCF062643Q30476698-0228C222-2794-4C34-9021-3F8F0A089305Q30515099-F68ECD92-C3E6-442F-ABB7-EAD6D6783942Q30631400-6A0B2DAE-F189-49A8-91E8-1297C598B6F3Q31172462-CBF92A8B-E4EF-4B93-925B-0C226CE139C1Q33257304-D303FE68-BDB5-4AE3-8FD6-532D9888CD77Q33397383-37A06B10-F3AB-48B3-AE93-25FC7AAFF3CFQ33436085-4766D564-4370-4373-B422-7FD4FB482AF2Q33491120-FDE876CE-0E64-4226-83BA-DB5C3B2BD6D8Q33926971-E0C93F61-A8AB-4720-91A2-FC502BFA1310Q34142855-7CE20C86-D317-4E52-9B57-072E93EA3DE7Q34598046-C7392503-7431-4D1B-BA90-86F0837B1F72Q34598356-532DF652-A3FF-4F8A-9D74-5DF7D6658FBFQ34643757-BE9F3B9D-796D-41F4-B964-411E2DC250C6Q34682627-FAEBB276-1A11-4592-A7EB-1778ECD4B0E5Q34693735-117067B4-0839-4045-B6A4-CE964AE92EE2Q34868007-FF221FC1-D8C8-4E6C-9342-5AFF6EC7622DQ35025225-15096DE8-B427-4E03-927C-D570C44F1F70Q35125082-272BBB29-E2B1-4AA8-BE5D-C1796094DE01Q35584990-CF8F2E50-CF12-4CCE-AC36-96258E541BF1Q35603499-F27CD07A-58DB-4187-8C8E-DF4EBDF216BFQ35779429-674532C3-6C9E-4B77-9208-8759C70BE658Q36193799-EC6EB61B-E689-4E40-8367-0840FD5EA0C9Q36827914-C683CCB4-2B8C-427E-839B-934CCB5741E9Q36996423-535200CE-E3EB-4311-965F-A376566A91F6Q37154576-C51F7769-2B54-4DF7-A6E8-0AE3B25A4F39
P2860
Scale invariance in biology: coincidence or footprint of a universal mechanism?
description
2001 nî lūn-bûn
@nan
2001 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Scale invariance in biology: coincidence or footprint of a universal mechanism?
@ast
Scale invariance in biology: coincidence or footprint of a universal mechanism?
@en
Scale invariance in biology: coincidence or footprint of a universal mechanism?
@nl
type
label
Scale invariance in biology: coincidence or footprint of a universal mechanism?
@ast
Scale invariance in biology: coincidence or footprint of a universal mechanism?
@en
Scale invariance in biology: coincidence or footprint of a universal mechanism?
@nl
prefLabel
Scale invariance in biology: coincidence or footprint of a universal mechanism?
@ast
Scale invariance in biology: coincidence or footprint of a universal mechanism?
@en
Scale invariance in biology: coincidence or footprint of a universal mechanism?
@nl
P2860
P1433
P1476
Scale invariance in biology: coincidence or footprint of a universal mechanism?
@en
P2093
P2860
P304
P356
10.1017/S1464793101005607
P577
2001-05-01T00:00:00Z