posted on 2022-04-09, 10:15authored byLeah A. Keating, James P. Gleeson, David J.P. O'Sullivan
Complex contagion adoption dynamics are characterized by a node being more likely to adopt after multiple network neighbors have adopted. We show how to construct multitype branching processes to approximate complex contagion adoption dynamics on networks with clique-based clustering. This involves tracking the evolution of a cascade via different classes of clique motifs that account for the different numbers of active, inactive, and removed nodes. This discrete-time model assumes that active nodes become immediately and certainly removed in the next time step. This description allows for extensive Monte Carlo simulations (which are faster than network-based simulations), accurate analytical calculation of cascade sizes, determination of critical behavior, and other quantities of interest.
Funding
THE MASS EXTINCTION AT THE CRETACEOUS/PALEOGENE (K/PG) BOUNDARY HAD A DRASTIC IMPACT ON MARINE ECOSYSTEMS. A CONSIDERABLE BODY OF EVIDENCE SUPPORTS THE IMPACT AT CHICXULUB AS THE ULTIMATE TRIGGER OF THE MASS EXTINCTION, BUT THE DYNAMICS OF THE SUBSEQUENT
Dynamics of the metabolic state in the context of a systematic approach to the study of the processes of growth and development of higher plants and fungi
Development of theoretical and experimental criteria for predicting the wear resistance of austenitic steels and nanostructured coatings based on a hard alloy under conditions of erosion-corrosion wear