Dr Jessica DaviesSenior Research Associate
Jessica Davies currently works as a senior research associate with Prof. John Quinton and Prof.Ed Tipping (Centre of Ecology and Hydrology, Lancaster) on the Long-Term Large-Scale project (LTLS), which is a NERC Macronutrient Cycles Programme consortium project. The aim of LTLS is to account for observable terrestrial and aquatic pools, concentrations and fluxes of Carbon, Nitrogen and Phosphorus (CNP) in the UK using broad-brush integrated modelling analysis. Within the project she is responsible for the semi-natural terrestrial modelling and erosion modelling.
Jessica originally joined Lancaster Environment Centre in 2010 as a research associate working with Professor Keith Beven on a NERC funded project titled, 'A grid-free, hysteretic, and scale dependent approach to modelling hillslope hydrology'. This project involved the development of a novel predictive hydrological model using the Multiple Interacting Pathways (MIPs) concept, which simulates both transport and flow simultaneously, whilst accounting for preferential flows, using particle tracking methods. This model was applied to experimental data at the plot and catchment scale and was found to be a useful tool for testing process understanding.
Prior to this, Jessica was awarded her PhD at Loughborough University Control Systems Group for her contribution to the High Redundancy Actuator Project, which investigates a novel approach to fault tolerant actuation for safety critical systems. As such, her interests also include: control system theory and design; state estimation; multi-agent systems; and model order reduction.
Multi-agent control of high redundancy actuation
Davies, J., Dixon, R., Goodall, R.M., Steffen, T. 1/02/2014 In: International Journal of Automation and Computing. 11, 1, p. 1-9. 9 p.
Atmospheric deposition of phosphorus to land and freshwater
Tipping, E., Benham, S., Boyle, J., Crow, P., Davies, J., Fischer, U., Guyatt, H., Helliwell, R., Jackson-Blake, L., Lawlor, A.J., Monteith, D., Rowe, E., Toberman, H. 2014 In: Environmental Science: Processes and Impacts. 16, p. 1608-1617. 10 p.
Integrated modeling of flow and residence times at the catchment scale with multiple interacting pathways
Davies, J., Beven, K., Rodhe, A., Nyberg, L., Bishop, K. 08/2013 In: Water Resources Research. 49, 8, p. 4738-4750. 13 p.
Comparison of a Multiple Interacting Pathways model with a classical kinematic wave subsurface flow solution
Davies, J., Beven, K. 2012 In: Hydrological Sciences Journal. 57, 2, p. 203-216. 14 p.
A discrete particle representation of hillslope hydrology: hypothesis testing in reproducing a tracer experiment at Gardsjon, Sweden
Davies, J., Beven, K., Nyberg, L., Rodhe, A. 15/11/2011 In: Hydrological Processes. 25, 23, p. 3602-3612. 11 p.
Catchment travel time distributions and water flow in soils
Rinaldo, A., Beven, K., Bertuzzo, E., Nicotina, L., Davies, J., Fiori, A., Rosso, D., Botter, G. 20/07/2011 In: Water Resources Research. 47, 13 p.
Modelling, control and monitoring of high redundancy actuation
Davies, J. 1/06/2010 Loughborough University. 301 p.
Fault Detection in High Redundancy Actuation Using an Interacting Multiple-Model Approach
Davies, J., Tsunashima, H., Goodall, R.M., Dixon, R., Steffen, T. 30/06/2009 In: Fault Detection, Supervision and Safety of Technical Processes. IFAC p. 1228-1233. 6 p.
Modelling of high redundancy actuation utilising multiple moving coil actuators
Davies, J., Steffen, T., Dixon, R., Goodall, R.M., Zolotas, A., Pearson, J. 6/07/2008 In: Proceedings of the 17th IFAC World Congress, 2008. IFAC p. 3228-3233. 6 p.