Signal Processing - May 2016 - 35
[104] A. C. Marreiros, S. J. Kiebel, and K. J. Friston, "Dynamic causal modelling
for fMRI: A two-state model," NeuroImage, vol. 39, no. 1, pp. 269-278, Jan. 2008.
[105] W. D. Penny, K. E. Stephan, A. Mechelli, and K. J. Friston, "Comparing
dynamic causal models," NeuroImage, vol. 22, no. 3, pp. 1157-1172, July 2004.
[106] F. Acs and M. W. Greenlee, "Connectivity modulation of early visual process-
ing areas during covert and overt tracking tasks," NeuroImage, vol. 41, no. 2, pp.
380-388, June 2008.
[107] P. Allen, A. Mechelli, K. E. Stephan, F. Day, J. Dalton, S. Williams, and P. K.
McGuire, "Fronto-temporal interactions during overt verbal initiation and suppres-
sion," J. Cogn. Neurosci., vol. 20, no. 9, pp. 1656-1669, Sept. 2008.
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[109] M. J. Grol, J. Majdandzic, K. E. Stephan, L. Verhagen, H. C. Dijkerman, H.
Bekkering, F. A. J. Verstraten, and I. Toni, "Parieto-frontal connectivity during visu-
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[110] S. Heim, S. B. Eickhoff, A. K. Ischebeck, A. D. Friederici, K. E. Stephan, and
K. Amunts, "Effective connectivity of the left BA 44, BA 45, and inferior temporal
gyrus during lexical and phonological decisions identified with DCM," Hum. Brain
Mapp., vol. 30, no. 2, pp. 392-402, Feb. 2009.
[111] A. P. Smith, K. E. Stephan, M. D. Rugg, and R. J. Dolan, "Task and content
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[112] C. Summerfield and E. Koechlin, "A neural representation of prior informa-
tion during perceptual inference," Neuron, vol. 59, no. 2, pp. 336-347, July 2008.
[113] A. A. Faisal, L. P. Selen, and D. M. Wolpert, "Noise in the nervous system,"
Nat. Rev. Neurosci., vol. 9, no. 4, pp. 292-303, Apr. 2008.
[114] K. J. Friston, J. Kahan, B. Biswal, and A. Razi, "A DCM for resting state
fMRI," NeuroImage, vol. 94, no. 100, pp. 396-407, July 2014.
[115] K. Friston, "Hierarchical models in the brain," PLoS Comput. Biol., vol. 4, no.
11, e1000211, Nov. 2008.
[116] B. Li, J. Daunizeau, K. E. Stephan, W. Penny, D. Hu, and K. Friston, "Gener-
alised filtering and stochastic DCM for fMRI," NeuroImage, vol. 58, no. 2, pp. 442-
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[129] K. J. Miller, L. B. Sorensen, J. G. Ojemann, and M. den Nijs, "Power-law scal-
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[130] K. Linkenkaer-Hansen, V. V. Nikouline, J. M. Palva, and R. J. Ilmoniemi,
"Long-range temporal correlations and scaling behavior in human brain oscilla-
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[131] M. G. Kitzbichler, M. L. Smith, S. R. Christensen, and E. Bullmore, "Broad-
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5, no. 3, e1000314, Mar. 2009.
[132] F. Freyer, K. Aquino, P. A. Robinson, P. Ritter, and M. Breakspear, "Bistabili-
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29, no. 26, pp. 8512-8524, July 2009.
[133] K. Friston, J. Mattout, N. Trujillo-Barreto, J. Ashburner, and W. Penny, "Vari-
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220-234, Jan. 2007.
[134] K. A. Tsvetanov, R. N. A. Henson, L. K. Tyler, A. Razi, L. Geerligs, T. Ham,
and J. Rowe, "Higher extrinsic and intrinsic brain network connectivity maintains
cognition across the lifespan despite age-related decay of regional neuronal activa-
tion," J. Neurosci., to be published.
[135] W. R. Shirer, S. Ryali, E. Rykhlevskaia, V. Menon, and M. D. Greicius,
"Decoding subject-driven cognitive states with whole-brain connectivity patterns,"
Cereb. Cortex, vol. 22, no. 1, pp. 158-165, Jan. 2012.
[136] P. L. St. Jacques, P. A. Kragel, and D. C. Rubin, "Dynamic neural net-
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[137] M. C. Stevens, K. A. Kiehl, G. D. Pearlson, and V. D. Calhoun, "Functional
neural networks underlying response inhibition in adolescents and adults," Behav.
Brain Res., vol. 181, no. 1, pp. 12-22, July 2007.
[138] X. Di and B. B. Biswal, "Identifying the default mode network structure using
dynamic causal modeling on resting-state functional magnetic resonance imaging,"
NeuroImage, vol. 86, pp. 53-59, Feb. 2014.
[139] J. Daunizeau, O. David, and K. E. Stephan, "Dynamic causal modelling: A
critical review of the biophysical and statistical foundations," NeuroImage, vol. 58,
no. 2, pp. 312-322, Sept. 2011.
[140] G. Lohmann, K. Erfurth, K. Muller, and R. Turner, "Critical comments on
dynamic causal modelling," NeuroImage, vol. 59, no. 3, pp. 2322-2329, Feb. 2012.
[117] J. Daunizeau, K. E. Stephan, and K. J. Friston, "Stochastic dynamic causal
modelling of fMRI data: Should we care about neural noise?" NeuroImage, vol. 62,
no. 1, pp. 464-481, Aug. 2012.
[141] M. Havlicek, A. Roebroeck, K. Friston, A. Gardumi, D. Ivanov, and K.
Uludag, "Physiologically informed dynamic causal modeling of fMRI data," NeuroImage, vol. 122, pp. 355-372, Nov. 2015.
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sional stochastic-systems," J. Stat. Phys., vol. 17, no. 6, pp. 491-509, 1977.
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gook: Response to Lohmann et al," NeuroImage, vol. 75, pp. 275-278, discussion
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[119] K. J. Friston, J. Kahan, A. Razi, K. E. Stephan, and O. Sporns, "On nodes and
modes in resting state fMRI," NeuroImage, vol. 99, pp. 533-547, May 2014.
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group inferences from functional MRI data using independent component analysis,"
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for resting state fMRI," NeuroImage, vol. 106, pp. 1-14, Feb. 2015.
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treatment of dynamic systems," NeuroImage, vol. 41, no. 3, pp. 849-885, July 2008.
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2016.
IEEE Signal Processing Magazine
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Table of Contents for the Digital Edition of Signal Processing - May 2016
Signal Processing - May 2016 - Cover1
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