- Value: This project is open to self-funded students and is eligible for funding from the PANORAMA NERC Doctoral Training Partnership in an open competition.
- Number of awards: Approximately 24 awards across the Panorama programme
- Deadline: 7 January 2019
Contact Professor Jeanne Houwing-Duistermaat to discuss this project further informally.
Applications for the main Panorama DTP studentship competition (for October 2019 entry) are now open.
During the last decade, more evidence of the detrimental effects of air pollution on human health has been evolving. Therefore, modelling the air pollution concentrations (e.g. NO2, O3, PM10, and PM2.5), in conjunction with other risk factors on health, is of great importance.
Functional data analysis (FDA) is a powerful recent approach to modelling temporal observations, which is complementary to the usual time series techniques. The purpose of this project is to develop FDA methodology in the air pollution context, with a particular focus on the impact of air pollutants on health.
When building models for health outcomes using multiple temporal and static predictors, it is important to ensure a correct interpretation of the results to understand the correlation among the predictors. The relationship between various factors (e.g. urban/rural, summer/winter, day/night, etc.) and the pollutant concentrations will be studied by extending the functional linear model from binary to categorical covariates.
Methodology for building the optimal model will be developed by adapting and extending functional linear models by including multiple temporal and static predictors.
The PhD candidate will work on the development of new FDA models such as functional dynamical correlation models and functional linear regression models, with the aim to investigate correlation between pollutants, the relationship between factors (such as regionality and weather conditions), and joint impact of pollutants and other factors on health.
Air quality and health are two of the most pressing issues facing our society. We are in a unique position at Leeds to answer important unresolved questions about the relationships between pollutants, the distribution of various pollutants across regions, and the influence of pollutants on health outcomes.
The research topic has immediate policy-relevant potential, and the prospective PhD students may be expected to produce several papers with at least one being suitable for submission to a high impact journal. The successful PhD student will work under the supervision within the Department of Statistics and the Leeds Institute for Data Analytics (LIDA).
This project provides a high-level specialist training in (i) development and use of FDA models; (ii) analysis and interpretation of inference from statistical research of air quality data, including impact on health; (iii) methods of variable/model selection. Supervision will involve weekly meetings between supervisors and the student as well as regular meetings with other partners (such as the Leeds City Council).
The PhD candidate will have access to a broad spectrum of training workshops put on by the Faculty that includes an extensive range of training in theory development, numerical modelling, and data analysis.
The successful PhD candidate should have a strong interest in and a flair for statistical modelling of health and environmental problems; a solid background in mathematics and statistics; and familiarity and experience with programming in R and statistical computing in general.
Upper second class honours degree or equivalent in a relevant subject.
How to apply
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