Hodge Laplacian of brain networks
The closed loops or cycles in a brain network embeds higher order signal transmission
paths, which provide fundamental insights into the functioning of the brain. In this work, we
propose an efficient algorithm for systematic identification and modeling of cycles using
persistent homology and the Hodge Laplacian. Various statistical inference procedures on
cycles are developed. We validate the our methods on simulations and apply to brain
networks obtained through the resting state functional magnetic resonance imaging. The …
paths, which provide fundamental insights into the functioning of the brain. In this work, we
propose an efficient algorithm for systematic identification and modeling of cycles using
persistent homology and the Hodge Laplacian. Various statistical inference procedures on
cycles are developed. We validate the our methods on simulations and apply to brain
networks obtained through the resting state functional magnetic resonance imaging. The …
The closed loops or cycles in a brain network embeds higher order signal transmission paths, which provide fundamental insights into the functioning of the brain. In this work, we propose an efficient algorithm for systematic identification and modeling of cycles using persistent homology and the Hodge Laplacian. Various statistical inference procedures on cycles are developed. We validate the our methods on simulations and apply to brain networks obtained through the resting state functional magnetic resonance imaging. The computer codes for the Hodge Laplacian are given in https://github.com/laplcebeltrami/hodge .
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