| Project ID |
Supervisor |
Department |
Co-supervisor |
Project title |
Availability |
Prospective PhD |
| 59 |
Christian Franzke |
BAS |
Ellak Somfai (PHY) |
Extracting the Underlying Dynamics from Ice-Core Data |
period 2 only |
Yes |
| 3 |
Nick Watkins |
BAS |
None |
The Empirical Mode Decomposition Method |
period 1 or period 2 |
Yes |
| 10 |
James Bull |
BIO |
Matt Keeling (MAT) |
Developing Bayesian approaches to understand the role of observation error in mechanistic population dynamic models |
period 1 only |
Yes |
| 17 |
Keith Briggs |
BT |
Robert Mackay (MAT) |
MSc project ideas |
period 1 or period 2 |
No |
| 49 |
Mark Rodger |
CHE |
None |
Nucleation of Different Polymorphs: Emergent Behaviour in the Self Assembly of Metal-Organic Frameworks. |
period 1 or period 2 |
Yes |
| 45 |
Andrew Marsh |
CHE |
Mark Rodger (CHE) |
Correlation of H-bond mediated self-assembly with experimental datasets |
period 1 or period 2 |
Yes |
| 12 |
Yulia Timofeeva |
DCS |
None |
Dendritic democracy: the role of resonant currents |
period 1 or period 2 |
Yes |
| 11 |
Yulia Timofeeva |
DCS |
None |
Propagation of intercellular calcium waves |
period 1 or period 2 |
Yes |
| 41 |
Andres Carvajal |
ECO |
Herakles Polemarchakis (ECO) |
Identification of Fundamentals from the Equilibrium Manifold of an Economy |
period 1 or period 2 |
Yes |
| 55 |
Mark Leeson |
ENG |
None |
Advanced Protocols via Emergence for Mobile Ad Hoc Networks (APE-MANET) |
period 1 or period 2 |
Yes |
| 29 |
Jonathan Seville |
ENG |
None |
Crowd movement using Discrete Element Methods |
period 1 or period 2 |
Yes |
| 31 |
Jonathan Seville |
ENG |
None |
Particle motion in fluidised beds |
period 1 or period 2 |
Yes |
| 35 |
Igor Khovanov |
ENG |
Nigel Stocks (ENG) |
Heart rate variability: what are essential ingredients to observe the HRV complexity |
period 1 or period 2 |
Yes |
| 30 |
Ian Guymer |
ENG |
Mike Chappell (ENG) |
Developing Deconvolution - Challenges of including unsteadiness and bifurcations |
period 1 or period 2 |
Yes |
| 26 |
Petr Denissenko |
ENG |
Colm Connaughton (MAT) |
Modelling Resonant Wave Interactions in Harbours |
period 1 or period 2 |
Yes |
| 7 |
Annette Muetze |
ENG |
None |
Statistics for electro-mechanical energy converter design |
period 1 or period 2 |
Yes |
| 1 |
Nigel Stocks |
ENG |
None |
Novel emergent dynamics in biologically inspired globally coupled stochastic networks |
period 1 or period 2 |
Yes |
| 51 |
Peter Jones |
ENG |
Ross McMurran (WMG) |
Application of Complexity Science to the validation of automotive electronic systems of systems |
period 1 or period 2 |
No |
| 6 |
Annette Muetze |
ENG |
None |
Bearing failure data analysis |
period 1 or period 2 |
Yes |
| 52 |
|
EXT |
None |
Multilevel coarse-graining methods for sampling stochastic (particle) systems |
period 2 only |
No |
| 16 |
H. Hinrichsen |
EXT |
Stefan Grosskinsky (MAT) |
Stat. mech. project with Haye Hinrichsen in Germany |
period 2 only |
Yes |
| 42 |
Robert Mackay |
MAT |
None |
Calibration of assessors |
period 1 or period 2 |
No |
| 50 |
Robert Mackay |
MAT |
None |
Aggregation of Markov processes |
period 1 or period 2 |
Yes |
| 32 |
Robert Kerr |
MAT |
Colm Connaughton (MAT) |
Comparing upper level winds to the marine boundary layer |
period 1 or period 2 |
Yes |
| 54 |
Oleg Zaboronski |
MAT |
Colm Connaughton (MAT) |
Arithmetic coding for constrained noiseless communication channels |
period 1 or period 2 |
Yes |
| 4 |
Thomas House |
MAT |
Matt Keeling (MAT) |
Transmission dynamics on complex networks |
period 1 or period 2 |
Yes |
| 23 |
Colm Connaughton |
MAT |
None |
Cluster-Cluster Aggregation with Levy Diffusion |
period 1 or period 2 |
Yes |
| 18 |
Stefan Grosskinsky |
MAT |
None |
Metastability and extinction in birth-death systems |
period 1 only |
Yes |
| 37 |
Stefan Grosskinsky |
MAT |
None |
Pattern formation in traffic flow |
period 1 only |
Yes |
| 40 |
Markus Kirkilionis |
MAT |
None |
Dynamical Network Theory |
period 1 or period 2 |
Yes |
| 39 |
Markus Kirkilionis |
MAT |
Robert MacKay (MAT) |
Characterising equilibria in dynamical games. With applications to treaties related to reducing the effects of climate change |
period 1 or period 2 |
Yes |
| 25 |
George Rowlands |
PHY |
Phil Milsom (EXT) |
Laser retinal hazard assessment after beam propagation through a turbulent atmosphere |
period 1 only |
Yes |
| 57 |
Ellak Somfai |
PHY |
None |
Dielectric breakdown model in 3 dimensions |
period 1 only |
No |
| 48 |
Robin Ball |
PHY |
None |
Optimisation & Data Refinement under Uncertainty |
period 1 or period 2 |
Yes |
| 47 |
Robin Ball |
PHY |
None |
The N-condition Problem in Healthcare |
period 1 or period 2 |
Yes |
| 15 |
Mario Nicodemi |
PHY |
None |
Statistical Mechanics of granular media and non-thermal systems |
period 1 only |
Yes |
| 38 |
Matthew Turner |
PHY |
None |
Economically optimised queueing |
period 1 only |
Yes |
| 61 |
Matthew Turner |
PHY |
None |
Animal Behaviour in Quasi-One-Dimensional Systems |
period 1 only |
Yes |
| 14 |
Mario Nicodemi |
PHY |
Sach Mukherjee (STA) |
The interaction network of Cis-Regulatory Modules in gene regulation |
period 1 only |
Yes |
| 28 |
John Aston |
STA |
Bruno Frenguelli (BIO) |
Replacing the Fuzzy with the Hard: Quantitative interrogation of Drosophila eye phenotype in the context of Alzheimer's Disease. |
period 1 or period 2 |
Yes |
| 8 |
Sach Mukherjee |
STA |
Mario Nicodemi (PHY) |
Fast-mixing Monte Carlo for Biological Networks |
period 1 only |
Yes |
| 58 |
John Aston |
STA |
None |
Finding change points in fMRI time series data |
period 1 or period 2 |
Yes |
| 22 |
Xavier Didelot |
STA |
Gareth Roberts (STA) |
Statistical analysis of adaptation in Salmonella |
period 1 or period 2 |
No |
| 19 |
Vassili Kolokoltsov |
STA |
None |
Game theoretic modeling in economics |
period 1 only |
Yes |
| 13 |
Sach Mukherjee |
STA |
None |
Network inference for cancer subtypes |
period 1 or period 2 |
Yes |
| 5 |
Fabio Rigat |
STA |
Peter Sadler (CHE) |
Modelling of dose-response studies for novel organometallic anticancer complexes |
period 1 only |
Yes |
| 56 |
Nikos Zygouras |
STA |
Stefan Grosskinsky (MAT) |
Random media, random polymers and random surfaces |
period 1 only |
Yes |
| 21 |
Till Bretschneider |
SYSBIO |
None |
Modelling Actin/Myosin Dynamics in Cell Polarity Reversals |
period 1 or period 2 |
Yes |
| 27 |
Nigel Burroughs |
SYSBIO |
None |
Development of a regulatory model for gene network inference. |
period 1 or period 2 |
No |
| 36 |
Magnus Richardson |
SYSBIO |
None |
Two-variable stochastic models of neuronal integration |
period 1 or period 2 |
Yes |
| 46 |
Vladimir Deineko |
WBS |
None |
Vehicle Routing in complex environment |
period 1 or period 2 |
No |
| 2 |
Duncan Robertson |
WBS |
None |
Networks and the Publishing Industry |
period 1 or period 2 |
Yes |
| 24 |
Yasmin Merali |
WBS |
Colm Connaughton (MAT) |
Opinion Dynamics Models of Radicalisation |
period 1 or period 2 |
Yes |
| 60 |
Yasmin Merali |
WBS |
Rosemary Collier (HRI) |
Modelling the UK Lettuce Supply Chain |
period 1 or period 2 |
Yes |
| 53 |
Sadie Creese |
WMG |
None |
Detecting Unacceptable Behaviour in Virtual Worlds |
period 1 or period 2 |
Yes |
| 34 |
Michael Goldsmith |
WMG |
Yasmin Merali (WBS) |
Modelling and Analysis of Privacy-Enhancing Technologies for Anonymity |
period 1 or period 2 |
Yes |
| 33 |
Sadie Creese |
WMG |
None |
Virus Propagation in Peer-to-Peer Networks |
period 1 or period 2 |
Yes |
| 43 |
Aileen Clarke |
WMS |
Tim Friede (WMS) |
Warwick-Edinburgh Mental Well-being Scale (WEMWBS) in English and Scottish Secondary School Students ヨ Exploring factors affecting Mental Wellbeing in the school environment |
period 1 or period 2 |
Yes |
| 9 |
Frances Griffiths |
WMS |
None |
Optimising the effect of a complex intervention in health care using the example of a behavioural approach to back pain |
period 1 or period 2 |
Yes |
