We are so used to Euclidean geometry that we often overlook the significance of curved geometries and the methods for measuring things that don’t reside on orthonormal bases. Just as understanding physics and the curvature of spacetime requires Riemannian geometry, I believe a profound comprehension of Machine Learning (ML) and data is also not possible without it. There is an increasing body of research that integrates differential geometry into ML. Unfortunately, the term “geometric deep learning” has predominantly become associated with graphs. However, modern geometry offers much more than just graph-related applications in ML.
I was reading the excellent article from Sander Dieleman about different perspectives on diffusion, so I thought it would be cool to try to contribute a bit with a new perspective.