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arxiv: 2305.11288 · v2 · pith:7EMAYBKFnew · submitted 2023-05-18 · 💻 cs.LG

Riemannian Multinomial Logistics Regression for SPD Neural Networks

classification 💻 cs.LG
keywords networksclassifiersframeworkneuralriemannianclassificationeuclideanexisting
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Deep neural networks for learning Symmetric Positive Definite (SPD) matrices are gaining increasing attention in machine learning. Despite the significant progress, most existing SPD networks use traditional Euclidean classifiers on an approximated space rather than intrinsic classifiers that accurately capture the geometry of SPD manifolds. Inspired by Hyperbolic Neural Networks (HNNs), we propose Riemannian Multinomial Logistics Regression (RMLR) for the classification layers in SPD networks. We introduce a unified framework for building Riemannian classifiers under the metrics pulled back from the Euclidean space, and showcase our framework under the parameterized Log-Euclidean Metric (LEM) and Log-Cholesky Metric (LCM). Besides, our framework offers a novel intrinsic explanation for the most popular LogEig classifier in existing SPD networks. The effectiveness of our method is demonstrated in three applications: radar recognition, human action recognition, and electroencephalography (EEG) classification. The code is available at https://github.com/GitZH-Chen/SPDMLR.git.

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  1. Towards Robust EEG Decoding Based on Riemannian Self-Attention

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    A Riemannian self-attention model based on the Bures-Wasserstein metric and its learnable generalized version is claimed to improve robustness of EEG decoding on three benchmark datasets.