no code implementations • 15 Sep 2022 • Ashish B. George, James O'Dwyer
Although research in different fields has developed detailed, system-specific models to understand each individual system, a unified analysis of different complex populations is lacking; such an analysis could deepen our understanding of each system and facilitate cross-pollination of tools and insights across fields.
no code implementations • 11 Mar 2022 • Ashish B. George, Tong Wang, Sergei Maslov
To understand the community structure in these energy-limited environments, we developed a microbial community consumer-resource model incorporating energetic and thermodynamic constraints on an interconnected metabolic network.
no code implementations • 21 Oct 2021 • Ashish B. George, Kirill S. Korolev
Assembling optimal microbial communities is key for various applications in biofuel production, agriculture, and human health.
1 code implementation • 17 Apr 2020 • Keisuke Ishihara, Ashish B. George, Ryan Cornelius, Kirill S. Korolev
For the two-state model, we obtain a closed-form expression for the velocity and report how it is affected by different transport and replication parameters.
Statistical Mechanics Pattern Formation and Solitons Populations and Evolution Subcellular Processes
no code implementations • 7 Jun 2018 • Ching-Hao Wang, Sakib Matin, Ashish B. George, Kirill S. Korolev
In homogeneous environments, the alternative states are separated by a smooth front moving at a constant velocity.
Statistical Mechanics Cellular Automata and Lattice Gases Pattern Formation and Solitons Populations and Evolution