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Raj Hossein
I am interested in the broad field of biophysics and soft condensed matter physics. My current research focuses on the mathematical modeling of developing tissues. Experimental evidence suggests that in many developing tissues, cells become planar polarised. It is important to understand how planar polarity is established from the molecular to tissue scale and how this controls tissue dynamics.
Jack Jennings
My current work focuses on the modelling of developing tissues, specifically, the planar polarity of cells during early development of tissue. Pinning down the mechanisms and biophysical processes that facilitate such structure is key to the greater understanding of tissue development, healing and renewal. My previous research focused on the use of mathematical modelling, agent-based simulation and machine learning to improve processes such as the cryopreservation of cells in suspension and diagnosis of dementia patients.
Marta Krzyzanska
Biswaroop Mukherjee
Jonathan Owen
I am a Bayesian Statistician interested in the analysis of computer models of complex physical systems to address real world problems, particularly within the environmental sciences including: atmospheric sciences; climatology; and glaciology. My research interests include: Bayesian emulation; Bayes linear statistics; Gaussian processes; uncertainty quantification techniques and sensitivity analysis; model-observation comparison through history matching and calibration; as well as decision support methods. I also have application experience in epidemiology and subsurface energy resources.
Min Tao
My current work blends mechanistic biophysical modelling with machine learning approaches. In particular, I am using multi-fidelity fusion to efficiently infer epithelial cell mechanics. My previous postdoctoral research focused on developing advanced digital tools for enhancing the development and operation of RNA vaccine and therapeutics production processes.
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