Last modified by fousekjan on 2022/05/23 22:36
From version 15.2
edited by fousekjan
on 2020/06/26 15:39
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To version 15.3
edited by fousekjan
on 2020/06/26 15:44
Change comment: There is no comment for this version

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15 -This dataset contains 10 minutes of resting state fMRI and EEG time series simulated with a brain network model (Sanz-Leon et al., 2015, 2013) implemented in [[The Virtual Brain>>url:https://www.thevirtualbrain.org/]]. More precise information on the model used to generate these data is deliberately not provided here. The data will be available for a period of time without the model description to get unbiased feedback from the community analyzing empirical data. The model description will be published in a separate document.
15 +This dataset contains 10 minutes of resting state fMRI and EEG time series simulated with  brain network model (Sanz-Leon et al., 2015, 2013) implemented in [[The Virtual Brain>>url:https://www.thevirtualbrain.org/]]. More precise information on the model used to generate these data is deliberately not provided here. The data will be available for a period of time without the model description to get unbiased feedback from the community analyzing empirical data. The model description will be published in a separate document.
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17 17  == Parcellation and Structural Connectivity ==
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68 68  Desikan, R. S., Ségonne, F., Fischl, B., Quinn, B. T., Dickerson, B. C., Blacker, D., Buckner, R. L., Dale, A. M., Maguire, R. P., Hyman, B. T., Albert, M. S., & Killiany, R. J. (2006). An automated labeling system for subdividing the human cerebral cortex on MRI scans into gyral based regions of interest. NeuroImage, 31(3), 968–980.
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70 -Sanz-Leon, P., Knock, S. A., Spiegler, A., & Jirsa, V. K. (2015). Mathematical framework for large-scale brain network modeling in The Virtual Brain. NeuroImage, 111, 385–430.
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72 72  Sanz-Leon, P., Knock, S. A., Woodman, M. M., Domide, L., Mersmann, J., McIntosh, A. R., & Jirsa, V. (2013). The Virtual Brain: a simulator of primate brain network dynamics. Frontiers in neuroinformatics, 7.
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72 +Sanz-Leon, P., Knock, S. A., Spiegler, A., & Jirsa, V. K. (2015). Mathematical framework for large-scale brain network modeling in The Virtual Brain. NeuroImage, 111, 385–430.
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