Sarah Waters
Professor of Applied Mathematics
My research is in physiological fluid mechanics, tissue biomechanics and the application of mathematics to problems in medicine and biology. My work varies from classical applied mathematics problems motivated by physiological applications to highly interdisciplinary work. I collaborate with life scientists, clinicians, bioengineers, theoreticians and experimentalists to develop and solve models that are novel, realistic and provide insights into biomedical problems. The resulting models often lead to theoretical predictions that can be exploited in the laboratory.
Recent publications
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A continuum model for the elongation and orientation of Von Willebrand factor with applications in arterial flow
Journal article
Yeo E. et al, (2024), Biomechanics and Modeling in Mechanobiology
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Exploiting in silico modelling to enhance translation of liver cell therapies from bench to bedside
Journal article
WATERS S. et al, (2024), npj Regenerative Medicine
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An automated method for tendon image segmentation on ultrasound using grey-level co-occurrence matrix features and hidden Gaussian Markov random fields.
Journal article
Scott I. et al, (2024), Comput Biol Med, 169
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Computation of 2D Stokes flows via lightning and AAA rational approximation
Journal article
Xue Y. et al, (2023), SIAM Journal on Scientific Computing
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Stokes flows in a 2D bifurcation
Preprint
Xue Y. et al, (2023)