Epidemic paradox induced by awareness driven network dynamics

September 02, 2024 Β· Declared Dead Β· πŸ› Physical Review Research

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Authors CsegΕ‘ BalΓ‘zs Kolok, Gergely Γ“dor, DΓ‘niel Keliger, MΓ‘rton Karsai arXiv ID 2409.01384 Category physics.soc-ph Cross-listed cs.SI Citations 5 Venue Physical Review Research Last Checked 4 months ago
Abstract
We study stationary epidemic processes in scale-free networks with local awareness behavior adopted by only susceptible, only infected, or all nodes. We find that while the epidemic size in the susceptible-aware and the all-aware models scales linearly with the network size, the scaling becomes sublinear in the infected-aware model. Hence, fewer aware nodes may reduce the epidemic size more effectively; a phenomenon reminiscent of Braess's paradox. We present numerical and theoretical analysis, and highlight the role of influential nodes and their disassortativity to raise epidemic awareness.
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