In this work we introduce a convolution operation over the tangent bundle of Riemannian manifolds exploiting the Connection Laplacian operator. We use this convolution operation to define tangent bundle filters and tangent bundle neural networks (TNNs), novel continuous architectures operating on tangent bundle signals, i.e. vector fields over manifolds. We discretize TNNs both in space and time domains, showing that their discrete counterpart is a principled variant of the recently introduced Sheaf Neural Networks. We formally prove that this discrete architecture converges to the underlying continuous TNN. We numerically evaluate the effectiveness of the proposed architecture on a denoising task of a tangent vector field over the unit 2-sphere.
Tangent Bundle Filters and Neural Networks: From Manifolds to Cellular Sheaves and Back / Battiloro, C.; Wang, Z.; Riess, H.; Di Lorenzo, P.; Ribeiro, A.. - (2023), pp. 1-5. (Intervento presentato al convegno IEEE ICASSP 2023 tenutosi a Rhodes, Greece) [10.1109/ICASSP49357.2023.10096934].
Tangent Bundle Filters and Neural Networks: From Manifolds to Cellular Sheaves and Back
Battiloro, C.;Di Lorenzo, P.;
2023
Abstract
In this work we introduce a convolution operation over the tangent bundle of Riemannian manifolds exploiting the Connection Laplacian operator. We use this convolution operation to define tangent bundle filters and tangent bundle neural networks (TNNs), novel continuous architectures operating on tangent bundle signals, i.e. vector fields over manifolds. We discretize TNNs both in space and time domains, showing that their discrete counterpart is a principled variant of the recently introduced Sheaf Neural Networks. We formally prove that this discrete architecture converges to the underlying continuous TNN. We numerically evaluate the effectiveness of the proposed architecture on a denoising task of a tangent vector field over the unit 2-sphere.| File | Dimensione | Formato | |
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