A new random walk operator on simplicial complexes bridges different dimensions hierarchically and uses the walkers' asymptotic distribution to rank the importance of higher-order simplices.
Barab´ asi,Network Science(Cambridge University Press, 2016)
2 Pith papers cite this work. Polarity classification is still indexing.
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cond-mat.stat-mech 2verdicts
UNVERDICTED 2representative citing papers
Memory-biased random walks drive network avalanches where dissipative stress transfer stabilizes broad finite cascades on Watts-Strogatz graphs while fixed transfer produces runaways, and shuffled controls show dissipation dominates memory ordering.
citing papers explorer
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Random Walks Across Dimensions: Exploring Simplicial Complexes
A new random walk operator on simplicial complexes bridges different dimensions hierarchically and uses the walkers' asymptotic distribution to rank the importance of higher-order simplices.
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Dissipative Avalanche Regimes Driven by Memory-Biased Random Walks on Networks
Memory-biased random walks drive network avalanches where dissipative stress transfer stabilizes broad finite cascades on Watts-Strogatz graphs while fixed transfer produces runaways, and shuffled controls show dissipation dominates memory ordering.