A COVID-19 Infection Risk Model for Frontline Health Care Workers | medRxiv
Host-parasite Red Queen dynamics with phase-locked rare genotypes | Science Advances
A mathematical model of COVID-19 transmission between frontliners and the general public | SpringerLink
Branching and oscillations in the epigenetic landscape of cell-fate determination | bioRxiv
Optimal Allocation of COVID-19 Vaccines in the Philippines | medRxiv
Red Queen dynamics in multi-host and multi-parasite interaction system. - Abstract - Europe PMC
Optimal Allocation of COVID-19 Test Kits Among Accredited Testing Centers in the Philippines | SpringerLink
Branching and oscillations in the epigenetic landscape of cell-fate determination | bioRxiv
A numerical model of Philippine population growth: child policy, quantitative insights and challenges
Antibiotic-driven escape of host in a parasite-induced Red Queen dynamics | Royal Society Open Science
A mathematical model of COVID-19 transmission between frontliners and the general public | SpringerLink
Asymptotic stability of a modified Lotka-Volterra model with small immigrations | Scientific Reports
A COVID-19 Infection Risk Model for Frontline Health Care Workers | medRxiv
A COVID-19 Infection Risk Model for Frontline Health Care Workers | medRxiv
Branching and oscillations in the epigenetic landscape of cell-fate determination | bioRxiv
Branching and oscillations in the epigenetic landscape of cell-fate determination | bioRxiv
A mathematical model of COVID-19 transmission between frontliners and the general public | SpringerLink
A numerical model of Philippine population growth: child policy, quantitative insights and challenges
A mathematical model of COVID-19 transmission between frontliners and the general public | SpringerLink
A COVID-19 Infection Risk Model for Frontline Health Care Workers | medRxiv
Ecological and Evolutionary Oscillations in Host-Parasite Population Dynamics, and The Red Queen | bioRxiv
A mathematical model of COVID-19 transmission between frontliners and the general public | SpringerLink
Virgilio Sison (@vpsison) | Twitter
A mathematical model of COVID-19 transmission between frontliners and the general public | SpringerLink
Transmission of Respiratory Infectious Diseases between Neighboring Cities using Agent-based Model and Compartmental Model | medRxiv
A mathematical model of COVID-19 transmission between frontliners and the general public | medRxiv
A mathematical model of COVID-19 transmission between frontliners and the general public | medRxiv
Host-parasite Red Queen dynamics with phase-locked rare genotypes | Science Advances
