Joshua Moore
Myfyriwr ymchwil, Yr Ysgol Mathemateg
- moorej16@cardiff.ac.uk
- Room 5.71, Abacws, Ffordd Senghennydd, Cathays, Caerdydd, CF24 4AG
Mae'r cynnwys hwn ar gael yn Saesneg yn unig.
Trosolwg
Project Overview
I am currently working towards a PhD in Applied Mathematics where I am focused on developing multiscale models of mammary organoids to optimise their industrial production. In particular, I am interested in how the structure of the tissue influences intracellular behaviour and intercellular communication, and the factors imposing robust signalling patterns in dynamic tissue morphologies. To analyse such behaviour, I consider graph and control theory concepts coupled to nonlinear systems to understand the bifurcation and stability landscape of signal expression.
Research Group
Professional memberships
Ymchil
Diddordebau ymchwil
- Mathematical Biology
- Pattern formation in discrete systems
- Nonlinear systems
Dysgu
Courses where I have delievered tutorials and feedback:
- Foundations of Mathematics I
- Foundations of Mathematics II
- Elementary Differential Equations
Additional roles:
- Tutor for Maths Support Services
Traethawd ymchwil
Combining mechanical modelling with image segmentation analysis to understand breast organoid formation
I am currently working towards a PhD in applied mathematics where I am focused on developing multiscale models of mammary organoids to optimise their industrial production. In particular, I am interested in how the structure of the tissue influences intracellular behaviour and intercellular communication, and the factors imposing robust signalling patterns in dynamic tissue morphologies using graph and control theory concepts coupled to highly nonlinear systems.
Ffynhonnell ariannu
Knowledge Economy Skills Scholarships (KESS)
Goruchwyliaeth
Dr Thomas Woolley
Lecturer in Applied Mathematics
Yr Athro Trevor Dale
Deputy Head of Molecular Biosciences Division
Cyhoeddiadau
2022
- Hopewell, J., Moore, J., Villafuerte, C., Paddick, I., Jones, B., Hill, M. and Tsang, D. 2022. Improving the accuracy of biologically effective dose estimates, from a previously published study, after radiosurgery for acoustic neuromas. World Neurosurgery (10.1016/j.wneu.2022.12.119)
- Moore, J. W., Dale, T. C. and Woolley, T. E. 2022. Polarity driven laminar pattern formation by lateral-inhibition in 2D and 3D bilayer geometries. IMA Journal of Applied Mathematics 87(4), pp. 568-606.
2021
- Moore, J. W., Lau, Z., Kaouri, K., Dale, T. C. and Woolley, T. E. 2021. A general computational framework for COVID-19 modelling with applications to testing varied interventions in education environments. COVID 1(4), pp. 674-703. (10.3390/covid1040055)
- Harper, P., Moore, J. and Woolley, T. 2021. Covid-19 transmission modelling of students returning home from university. Health Systems 10(1), pp. 31-40. (10.1080/20476965.2020.1857214)
- Moore, J., Woolley, T., Hopewell, J. W. and Jones, B. 2021. Further development of spinal cord retreatment dose estimation: including radiotherapy with protons and light ions. International Journal of Radiation Biology 97(12), pp. 1657-1666. (10.1080/09553002.2021.1981554)
2020
- Henley, L., Moore, J., Ostler, T. and Woolley, T. 2020. Long term environmental implications of social distancing on public transport emissions. Project Report. [Online]. London: UK Government. Available at: https://committees.parliament.uk/writtenevidence/8995/pdf/
- Harper, P., Moore, J. and Woolley, T. 2020. Secondary household Covid-19 transmission modelling of students returning home from university. n/a