no code implementations • 23 May 2023 • Simon K. Schnyder, John J. Molina, Ryoichi Yamamoto, Matthew S. Turner
During epidemics people may reduce their social and economic activity to lower their risk of infection.
no code implementations • 2 May 2022 • Simon K. Schnyder, John J. Molina, Ryoichi Yamamoto, Matthew S. Turner
We find optimal interventions vary less strongly in time when interventions are costly to the government and that the critical cost of the policy switch depends on how costly interventions are.
no code implementations • 25 Mar 2022 • John J. Molina, Simon K. Schnyder, Matthew S. Turner, Ryoichi Yamamoto
We have applied the $N^3$ to study the optimal behaviour during epidemics, in which individuals can choose to socially distance depending on the state of the pandemic and the cost of being infected.
no code implementations • 14 Dec 2020 • Jintao Li, Simon K. Schnyder, Matthew S. Turner, Ryoichi Yamamoto
We develop a simple model of the cell cycle, the fundamental regulatory network controlling growth and division, and couple this to the physical forces arising within the cell collective.
Biological Physics Soft Condensed Matter