Mutual Information Rate (MIR) is the primary method for quantifying the dynamical coupling of two processes in a network. However, it can vary substantially in its conditioned calculation due to high-order dependencies among the system processes. In this work, we develop a methodology that seeks multiplets of variables that maximize or minimize the dynamic coupling. This allows to decompose the maximal MIR into unique, redundant, and synergistic components, quantifying high-order effects relative importance compared to dyadic effects. The proposed approach is employed to analyze the high order interactions of brain-heart crosstalk in healthy individuals.
Pinto, H., Antonacci, Y., Vergara, V.R., Faes, L., Rocha, A.P. (2024). Assessing Redundancy and Synergy in Brain-Heart Interactions: A Conditioning Approach*. In 2024 13th Conference of the European Study Group on Cardiovascular Oscillations (ESGCO) (pp. 1-2) [10.1109/esgco63003.2024.10766979].
Assessing Redundancy and Synergy in Brain-Heart Interactions: A Conditioning Approach*
Antonacci, Yuri;Vergara, Valeria R.;Faes, Luca;
2024-11-29
Abstract
Mutual Information Rate (MIR) is the primary method for quantifying the dynamical coupling of two processes in a network. However, it can vary substantially in its conditioned calculation due to high-order dependencies among the system processes. In this work, we develop a methodology that seeks multiplets of variables that maximize or minimize the dynamic coupling. This allows to decompose the maximal MIR into unique, redundant, and synergistic components, quantifying high-order effects relative importance compared to dyadic effects. The proposed approach is employed to analyze the high order interactions of brain-heart crosstalk in healthy individuals.
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