Adaptive hyperedge feedback on d-uniform hypergraphs induces discontinuous phase transitions, nonlinear thresholds, and bistable regimes where high initial prevalence leads to disease-free equilibrium, with targeted interventions outperforming random ones.
and Bianconi, G
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
Maximizing reachability in k-path temporal graphs via budgeted shifts is FPT when parameterized by k and b together or by k alone, but intractable in most other parameterizations with matching XP algorithms.
citing papers explorer
-
Adaptive Epidemic Dynamics on Hypergraphs with Group-Level Immunization and Rewiring
Adaptive hyperedge feedback on d-uniform hypergraphs induces discontinuous phase transitions, nonlinear thresholds, and bistable regimes where high initial prevalence leads to disease-free equilibrium, with targeted interventions outperforming random ones.
-
Maximizing Reachability via Shifting of Temporal Paths
Maximizing reachability in k-path temporal graphs via budgeted shifts is FPT when parameterized by k and b together or by k alone, but intractable in most other parameterizations with matching XP algorithms.