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Roebroeck Seth Valdes-SosaA. Roebroeck, E. Formisano, and R. Goebel. Mapping directed influence over the brainusing granger causality and fmri. Neuroimage, 25(1):230–42, 2005.A. Roebroeck, E. Formisano, and R. Goebel. The identification of interacting networksin the brain using fmri: Model selection, causality and deconvolution. Neuroimage,2009a.A. Roebroeck, E. Formisano, and R. Goebel. Reply to friston and david after commentson: The identification of interacting networks in the brain using fmri: Modelselection, causality and deconvolution. Neuroimage, 2009b.S. Ryali, K. Supekar, T. Chen, and V. Menon. Multivariate dynamical systems modelsfor estimating causal interactions in fmri. Neuroimage, 2010.Z. S. Saad, K. M. Ropella, R. W. Cox, and E. A. DeYoe. Analysis and use of fmriresponse delays. Hum Brain Mapp, 13(2):74–93, 2001.R. Salmelin and J. Kujala. Neural representation of language: activation versus longrangeconnectivity. Trends Cogn Sci, 10(11):519–25, 2006.J. R. Sato, D. Y. Takahashi, S. M. Arcuri, K. Sameshima, P. A. Morettin, and L. A.Baccala. Frequency domain connectivity identification: an application of partialdirected coherence in fmri. Hum Brain Mapp, 30(2):452–61, 2009.J. R. Sato, A. Fujita, E. F. Cardoso, C. E. Thomaz, M. J. Brammer, and Jr. E. Amaro.Analyzing the connectivity between regions of interest: an approach based on clustergranger causality for fmri data analysis. Neuroimage, 52(4):1444–55, 2010.M. B. Schippers, A. Roebroeck, R. Renken, L. Nanetti, and C. Keysers. Mapping theinformation flow from one brain to another during gestural communication. ProcNatl Acad Sci U S A, 107(20):9388–93, 2010.T Schweder. Composable markov processes. journal of Applied Probability, 7(2):400–410, 1970.J. F. Smith, A. Pillai, K. Chen, and B. Horwitz. Identification and validation of effectiveconnectivity networks in functional magnetic resonance imaging using switchinglinear dynamic systems. Neuroimage, 52(3):1027–40, 2009.S. M. Smith, K. L. Miller, G. Salimi-Khorshidi, M. Webster, C. F. Beckmann, T. E.Nichols, J. D. Ramsey, and M. W. Woolrich. Network modelling methods for fmri.Neuroimage, 2010.V Solo. On causality i: Sampling and noise. Proceedings of the 46th IEEE Conferenceon Decision and Control, pages 3634–3639, 2006.D. Sridharan, D. J. Levitin, and V. Menon. A critical role for the right fronto-insularcortex in switching between central-executive and default-mode networks. Proc NatlAcad Sci U S A, 105(34):12569–74, 2008.102
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Causality in Time SeriesVolume 5:Ca
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PrefaceThe following is a print ver
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JMLR: Workshop and Conference Proce
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Linking Granger Causality and the P
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Popescu1. IntroductionCausality is
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Popescugeneral terms, if we are pre
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PopescuType III error prob. γ = P
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Popescuwhich would correspond to a
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Popescuvalued vector. A Data Genera
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Popescuy i =K∑︁A k y i−k + Bu
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Popescuy i =K∑︁A k y i−k + Bu
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PopescuFigure 1: SVAR causality and
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Popescu6. Spectral methods and phas
Page 60 and 61: PopescuH GCj→i|u = logD i − log
Page 62 and 63: Popescu8.1. The cardinal transform
Page 64 and 65: Popescuy N,i = Bx N,i (37)y = (1
Page 66 and 67: Popescu(a) Unmixed colored noise(b)
Page 68 and 69: PopescuAs we can see in both Figure
Page 70 and 71: Popescuβ > 0 y C,i =x N,i =⎡K∑
Page 72 and 73: Popescupretation of information flo
Page 74 and 75: Popescuit is suggested that a princ
Page 76 and 77: PopescuA. N. Kolmogorov and A. N. S
Page 78 and 79: PopescuH. White and X. Lu. Granger
Page 80 and 81: PopescuTable 6: α vs. ΨN * → 50
Page 82 and 83: Roebroeck Seth Valdes-Sosaincreasin
Page 84 and 85: Roebroeck Seth Valdes-SosaFigure 1:
Page 86 and 87: Roebroeck Seth Valdes-Sosasignal fr
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Page 90 and 91: Roebroeck Seth Valdes-Sosaat lower
Page 92 and 93: Roebroeck Seth Valdes-SosaTable 1:
Page 94 and 95: Roebroeck Seth Valdes-Sosa1984) and
Page 96 and 97: Roebroeck Seth Valdes-Sosaanalysis
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Page 100 and 101: Roebroeck Seth Valdes-SosaThe initi
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Page 104 and 105: Roebroeck Seth Valdes-Sosaand corti
Page 106 and 107: Roebroeck Seth Valdes-SosaDaniel Co
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Page 112 and 113: Roebroeck Seth Valdes-SosaV. Walsh
Page 114 and 115: Moneta Chlass Entner HoyerA traditi
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Page 118 and 119: Moneta Chlass Entner Hoyersecond st
Page 120 and 121: Moneta Chlass Entner HoyerThe Wald
Page 122 and 123: Moneta Chlass Entner HoyerStep 3 Ap
Page 124 and 125: Moneta Chlass Entner Hoyerthe struc
Page 126 and 127: Moneta Chlass Entner Hoyerstricted
Page 128 and 129: Moneta Chlass Entner Hoyerwhere h 1
Page 130 and 131: Moneta Chlass Entner Hoyerlatter re
Page 132 and 133: Moneta Chlass Entner Hoyercausal mo
Page 134 and 135: Moneta Chlass Entner HoyerL. Baring
Page 136 and 137: Moneta Chlass Entner HoyerS. Johans
Page 138 and 139: Moneta Chlass Entner HoyerA. Yatche
Page 140 and 141: Guyon Statnikov Aliferisis extremel
Page 142 and 143: Guyon Statnikov Aliferis4. A Data R
Page 144 and 145: Guyon Statnikov Aliferismethods on
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