Multi-Class Gaussian Process Classification Made Conjugate: Efficient Inference via Data Augmentation
About
We propose a new scalable multi-class Gaussian process classification approach building on a novel modified softmax likelihood function. The new likelihood has two benefits: it leads to well-calibrated uncertainty estimates and allows for an efficient latent variable augmentation. The augmented model has the advantage that it is conditionally conjugate leading to a fast variational inference method via block coordinate ascent updates. Previous approaches suffered from a trade-off between uncertainty calibration and speed. Our experiments show that our method leads to well-calibrated uncertainty estimates and competitive predictive performance while being up to two orders faster than the state of the art.
Th\'eo Galy-Fajou, Florian Wenzel, Christian Donner, Manfred Opper• 2019
Related benchmarks
| Task | Dataset | Result | Rank | |
|---|---|---|---|---|
| Classification | LETTER (test) | Accuracy76 | 45 | |
| Cross-domain Calibration | miniImageNet -> CUB (test) | ECE2.2 | 13 | |
| Classification | UCI Htru2 (test) | Accuracy97 | 9 | |
| Classification | thyroid (test) | -- | 9 | |
| Classification | EEG (test) | Accuracy65 | 6 | |
| Classification | Magic (test) | Accuracy82 | 6 | |
| Classification | MiniBoo (test) | Accuracy89 | 6 | |
| Classification | DRIVE (test) | Accuracy76 | 6 | |
| Classification | MoCap (test) | Accuracy91 | 6 | |
| Classification | glass (test) | Accuracy56 | 4 |
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