Development and exploitation of a high-resolution sea level product in the coastal ocean Theme(s): Advanced Computing, Altimetry, Climate, Oceanography, Remote Sensing, Satellite Data, Sea Level Primary Supervisor: Chris Banks <chris.banks@noc.ac.uk> Institution: National Oceanography Centre
The future behaviour of glaciers in High Mountain Asia in response to climate warming Theme(s): Cryosphere, Data Assimilation, Glaciology, Machine Learning, Modelling, Remote Sensing Primary Supervisor: Dr Daniel Goldberg <Dan.Goldberg@ed.ac.uk> Institution: University of Edinburgh (School of Geosciences )
‘Tipping the Balance’ – Understanding coastal change using novel multi-platform ground and space-based remote sensing methods Theme(s): Advanced Computing, Earth Observation, Oceanography Primary Supervisor: Paul Bell <psb@noc.ac.uk> Institution: National Oceanography Centre (Marine Physics & Ocean Climate)
How much did human influences contribute to the 2020 Stonehaven derailment? Theme(s): Advanced Computing, Atmosphere and Climate, Interferometry, Meteorology, Remote Sensing, Synthetic Aperture Radar (SAR) Primary Supervisor: Simon Tett <Simon.Tett@ed.ac.uk> Institution: University of Edinburgh (School of Geosciences )
Dust storms in the Sahara and Sahel: Nowcasting and its application to understanding dust emission and transport Theme(s): Air Quality, Atmosphere and Climate, Atmospheric Physics, Climate, Earth Observation, Meteorology, Remote Sensing, Satellite Data Primary Supervisor: Dr John Marsham <J.Marsham@leeds.ac.uk> Institution: University of Leeds (Met Office joint chair) (School of Earth and Environment)
Understanding the role of Antarctic sea ice in dense water formation and heat and carbon sequestration: from satellite altimetry to ‘big data’ analysis Theme(s): Advanced Computing, Altimetry, Climate, Cryosphere, Machine Learning, Modelling, Oceanography, Remote Sensing, Sea Ice Primary Supervisor: Alice Marzocchi <alice.marzocchi@noc.ac.uk> Institution: National Oceanography Centre
Detecting and modelling transient crustal deformation using Sentinel-1 InSAR and Machine Learning Theme(s): Artificial Intelligence, Interferometry, Machine Learning, Modelling, Remote Sensing, Satellite Data, Synthetic Aperture Radar (SAR), Tectonics, volcanology and solid Earth geophysics Primary Supervisor: Tim Wright <t.j.wright@leeds.ac.uk> Institution: University of Leeds (School of Earth and Environment)
Improving the utility of ocean colour satellites in marine systems science Theme(s): Advanced Computing, Aquatic/terrestrial/soil biogeochemistry, Artificial Intelligence, Climate, Earth Observation, Ecosystem processes, dynamics and functioning, Living World, Machine Learning, Modelling, Multispectral, Neural Networks, Ocean colour, Oceanography, Optical, Remote Sensing, Satellite Data Primary Supervisor: B. B. Cael <cael@noc.ac.uk> Institution: NOC (OBG)
Impact of long-term changes to ice-cover and permafrost on landslide and flood risk in the Swiss Alps Theme(s): Advanced Computing, Applied geoscience, Cryosphere, Data Assimilation, Interferometry, Modelling, Optical, Remote Sensing, UAV Primary Supervisor: Dr. Antonio Abellan Institution: University of Leeds (School of Earth and Environment)