by U-M MICDE | Feb 23, 2023
Fluid mechanics plays a crucial role in many physiological processes on health and disease. Given recent advances in medical imaging, computational power, and mathematical algorithms, real-time patient-specific computational fluid dynamics is now becoming possible....
by U-M MICDE | Feb 23, 2023
A critical aspect of community resilience to disasters that has not been addressed by traditional coarse-scale resilience engineering is within-community inequities in resilience – who is resilient to what? The goal of this project is to develop an integrated approach...
by U-M MICDE | Feb 23, 2023
Recent impressive progress in quantum technology, particularly in programmable quantum computers, has invigorated a renewed interest in quantum algorithm research. This excitement is largely fueled by the existence of quantum algorithms exhibiting exponential...
by U-M MICDE | Feb 23, 2023
The immediate goal of this project is to develop a physics/chemistry-aware inverse reinforcement learning (IRL) computational framework to discover how heterogeneous cancer cells function singly or collectively to drive cancer progression. The long-term goal of this...
by U-M MICDE | Feb 23, 2023
Contemporary systems are comprised of massive numbers of interconnected components that interact according to a hierarchy of complex, dynamic, and unknown topologies. The unknown and varying nature of these systems necessitates the development of efficient inference...
