Main Focus

How can a network of cells perceive, represent and make sense of the world around it? 

Experimental techniques such as high-resolution, multi-modal magnetic resonance imaging, light-sheet microscopy, or single-cell sequencing provide unprecedented insights into the structures and processes of neural systems and life in general. However, these methods yield high-dimensional data with intricate structures and dependencies that can be challenging to interpret. 

We want to help uncover the underlying patterns. With our research, we want to contribute conceptual and computational tools to map, explore, and understand the manifolds of neural data that help us improve neuroscience and AI research and clinical practice in three complementary areas:

  • Analysis: Mapping structure and function of neural systems across scales,
  • Exploration: Visualising the geometry of  complex biological systems,
  • Synthesis: Computational modelling of neural development and cognition.
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