CRC TRR 391 - A05: Deep learning in space and time

Basic data for this project

Description

Deep learning has great potential for spatio-temporal data due to its ability to deal with complex patterns in such data sets, enabling a comprehensive modeling of dynamic processes. However, the integration of information in both spatial and temporal dimensions into a unified and comprehensive model is still challenging and requires further insight and exploration, both theoretically as well as for practical application. Our goal is a better statistical understanding of these models and the development of an efficient framework for reliable spatio-temporal predictions. We will develop and test deep-learning frameworks concentrating on recurrent space-time graph neural networks, which model the features as nodes of a graph that can exchange information over time. We analyze the individual components of this framework and how these components act in concert to model data in space and time. Our sharp focus on this modeling approach  allows us to work on the entire statistical pipeline from theory to applications. Our theoretical contributions are prediction guarantees, accounting in particular for sparsity-inducing regularization, and improvements regarding the transferability of the trained models. We believe that theory and application should be integrated to mutually benefit each other. Therefore, on the application side, we study earth-observation satellite images as a prototype for dense spatio-temporal data, which will serve as a testbed for analyzing the developed methods. This allows us to ensure theoretical as well as practical relevance of our project, to draw on the expertise of the three project leaders, and to connect to many theoretical and applied projects of TRR 391.