no code implementations • 24 Oct 2021 • Ghazal ArabiDarrehDor, Ali Tivay, Chris Meador, George C. Kramer, Jin-OH Hahn, Jose Salinas
A physics-based mathematical model that can replicate physiological responses in diverse burn patients can serve as an attractive basis to perform non-clinical testing of burn resuscitation protocols and to expand knowledge on burn pathophysiology.
no code implementations • 22 Oct 2021 • Ghazal ArabiDarrehDor, Ali Tivay, Ramin Bighamian, Chris Meador, George C. Kramer, Jin-OH Hahn, Jose Salinas
This paper presents a mathematical model of blood volume kinetics and renal function in response to burn injury and resuscitation, which is applicable to the development and non-clinical testing of burn resuscitation protocols and algorithms.
no code implementations • 20 Oct 2021 • Sara Honarvar, Jin-OH Hahn, Tim Kiemel, Jae Kun Shim, Yancy Diaz-Mercado
We show that the UCM approach is closely related to the well-studied consensus approach in multi-agent systems that concerns processes by which a set of interacting agents agree on a shared objective.