662 web-programmer-developer-"https:" "https:" "https:" "https:" "https:" "https:" "https:" "UCL" "UCL" uni jobs at University of Sheffield
Sort by
Refine Your Search
-
Listed
-
Field
-
, ensemble Kalman filters, and physics-informed neural networks (PINNs) enforce conservation laws while fitting observations. The key is to apply the vast amount of physical insights developed in turbulence
-
to infinite-dimensional optimization problems that are often more challenging to solve. This project will focus on the continued development of a new type of direct transcription method named the integrated
-
. The ultimate goal is to develop theory and methods for the construction of low-complexity invariant sets, using computationally tractable algorithms. Funding Notes This is a self-funded research project. We
-
might lead to the development of novel anti-cancer therapies. Preliminary data indicate that the degradation of ECM by cathepsin proteases is required for ECM internalisation. The overall aim
-
controlling nucleotide synthesis Overall, this project will shed new light on how cell cycle progression is regulated, potentially identify novel therapeutic targets for the development of anti-cancer therapies
-
the development and refinement of Monte Carlo simulation generators to accurately model neutrino interactions with various target materials. Detailed comparisons of these simulations to data from existing neutrino
-
BBSRC Yorkshire Bioscience DLA Programme: Developing cyanobacteria for enhanced light-driven biotechnology (CASE Project) School of Biosciences PhD Research Project Competition Funded Students
-
wave theory in inhomogeneous, expanding waveguides that have steady flows. Wave propagation and instability theory will be developed and applied to a number of solar structures from pores, magnetic
-
that the toxin induces DNA damage responses in cultured cells that activates a senescence tumour suppressor mechanism (https://doi.org/10.1038/s41467-019-12064-1). Cells undergoing toxin-induced senescence undergo
-
BBSRC Yorkshire Bioscience DLA Programme: Neuronal compensation for natural circuit perturbations School of Biosciences PhD Research Project Competition Funded Students Worldwide Dr Andrew Lin