Uncertainty Propagation through Trained Deep Neural Networks Using Factor Graphs (2312.05946v1)
Abstract: Predictive uncertainty estimation remains a challenging problem precluding the use of deep neural networks as subsystems within safety-critical applications. Aleatoric uncertainty is a component of predictive uncertainty that cannot be reduced through model improvements. Uncertainty propagation seeks to estimate aleatoric uncertainty by propagating input uncertainties to network predictions. Existing uncertainty propagation techniques use one-way information flows, propagating uncertainties layer-by-layer or across the entire neural network while relying either on sampling or analytical techniques for propagation. Motivated by the complex information flows within deep neural networks (e.g. skip connections), we developed and evaluated a novel approach by posing uncertainty propagation as a non-linear optimization problem using factor graphs. We observed statistically significant improvements in performance over prior work when using factor graphs across most of our experiments that included three datasets and two neural network architectures. Our implementation balances the benefits of sampling and analytical propagation techniques, which we believe, is a key factor in achieving performance improvements.
- Uncertainty propagation through deep neural networks. In Interspeech 2015.
- Deep evidential regression. Advances in Neural Information Processing Systems, 33: 14927–14937.
- Propagation of uncertainty through multilayer perceptrons for robust automatic speech recognition. In Twelfth Annual Conference of the International Speech Communication Association.
- borglab/gtsam.
- Factor graphs for robot perception. Foundations and Trends® in Robotics, 6(1-2): 1–139.
- Lightweight probabilistic deep networks. In Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, 3369–3378.
- A survey of uncertainty in deep neural networks. Artificial Intelligence Review, 1–77.
- Deep residual learning for image recognition. In Proceedings of the IEEE conference on computer vision and pattern recognition, 770–778.
- Factor graph based incremental smoothing in inertial navigation systems. In 2012 15th International Conference on Information Fusion, 2154–2161. IEEE.
- Imaging sonar-aided navigation for autonomous underwater harbor surveillance. In 2010 IEEE/RSJ International Conference on Intelligent Robots and Systems, 4396–4403. IEEE.
- iSAM2: Incremental smoothing and mapping using the Bayes tree. The International Journal of Robotics Research, 31(2): 216–235.
- What uncertainties do we need in bayesian deep learning for computer vision? Advances in neural information processing systems, 30.
- Learning multiple layers of features from tiny images.
- Factor graphs and the sum-product algorithm. IEEE Transactions on information theory, 47(2): 498–519.
- Plug-and-Play Navigation Algorithms Using Factor Graphs. In Jiont Navigation Conference (JNC).
- MNIST handwritten digit database.
- Tlio: Tight learned inertial odometry. IEEE Robotics and Automation Letters, 5(4): 5653–5660.
- Ensemble distribution distillation. arXiv preprint arXiv:1905.00076.
- Input uncertainty propagation through trained neural networks.
- Evidential deep learning to quantify classification uncertainty. Advances in neural information processing systems, 31.
- Uncertainty propagation in deep neural networks using extended kalman filtering. In 2018 IEEE MIT Undergraduate Research Technology Conference (URTC), 1–4. IEEE.
- Real-time large-scale dense RGB-D SLAM with volumetric fusion. The International Journal of Robotics Research, 34(4-5): 598–626.
- M2dgr: A multi-sensor and multi-scenario slam dataset for ground robots. IEEE Robotics and Automation Letters, 7(2): 2266–2273.
Collections
Sign up for free to add this paper to one or more collections.
