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Dr Martin Homer

Dr Martin Homer

Dr Martin Homer
B.A., M.Sc., Ph.D.(Bristol)

Associate Professor in Mathematical Modelling

Area of research

Mathematical modelling

Office 2.38
Merchant Venturers Building,
Woodland Road, Clifton BS8 1UB
(See a map)

+44 (0) 117 331 5607

Summary

My main research interest is mathematical modelling of real-world systems, in a wide range of application areas from engineering to the life sciences. I am an expert in the theory and computation of nonlinear dynamical systems, especially those that are nonsmooth. 

Current research problems include:

  • Hearing mechanisms in mammals and insects,
  • Collective behaviour of insect swarms,
  • High-speed atomic force microscopy,
  • Temperature-mediated architectural adaptations of plants,
  • Noise and vibration in gearboxes and other mechanical systems,
  • Cellular dynamics of intestinal crypts,
  • AMR in gonorrhoea,
  • Dynamical systems approaches to complexity sciences,
  • Smart materials.

Biography

I am Associate Professor in Mathematical Modelling in the Department of Engineering Mathematics, and a member of the Mathematical and Computational Biology, Collective Dynamics, and Applied Nonlinear Mathematics research groups.

PhD Projects

I am currently supervising PhDs in a range of different areas of real-world applications of mathematics; see the list of research areas above for examples. If you would like to know more about PhDs in Engineering Mathematics, please get in touch. A number of funded studentships are available each year, supported by research council, industrial, University or other funds. Self-funded or sponsored students are also very welcome to apply. More information on funding is available on the Study at Bristol webpage.

Education

PhD (1999) Department of Engineering Mathematics, University of Bristol
MSc in Advanced Fluid Dynamics (1995) School of Mathematics, University of Bristol.
BA Mathematics (1994) St Catherine’s College, University of Oxford.

Teaching

I am teaching on the following units in 2019-20:

  • EMAT20200 Engineering Mathematics 2 (Lecturer & Unit Organiser)
  • EMAT20920 Numerical Methods in Matlab (Lecturer & Unit Organiser)
  • EMAT30008 Scientific Computing (Lecturer)
  • EMAT30009 Technical Project and EMATM5000 Technical Project (Unit Organiser)

Keywords

  • Mathematical Modelling
  • Nonlinear Dynamics
  • Engineering
  • Engineering Mathematics
  • mathematical biology
  • biomedical engineering
  • Biomechanics
  • robotics
  • Collective dynamics
  • Complexity
  • complex systems

Recent publications

View complete publications list in the University of Bristol publications system

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