Open AccessProceedings Article
Dropout as a Bayesian approximation: representing model uncertainty in deep learning
Yarin Gal,Zoubin Ghahramani +1 more
- pp 1050-1059
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TLDR
A new theoretical framework is developed casting dropout training in deep neural networks (NNs) as approximate Bayesian inference in deep Gaussian processes, which mitigates the problem of representing uncertainty in deep learning without sacrificing either computational complexity or test accuracy.Abstract:
Deep learning tools have gained tremendous attention in applied machine learning. However such tools for regression and classification do not capture model uncertainty. In comparison, Bayesian models offer a mathematically grounded framework to reason about model uncertainty, but usually come with a prohibitive computational cost. In this paper we develop a new theoretical framework casting dropout training in deep neural networks (NNs) as approximate Bayesian inference in deep Gaussian processes. A direct result of this theory gives us tools to model uncertainty with dropout NNs - extracting information from existing models that has been thrown away so far. This mitigates the problem of representing uncertainty in deep learning without sacrificing either computational complexity or test accuracy. We perform an extensive study of the properties of dropout's uncertainty. Various network architectures and nonlinearities are assessed on tasks of regression and classification, using MNIST as an example. We show a considerable improvement in predictive log-likelihood and RMSE compared to existing state-of-the-art methods, and finish by using dropout's uncertainty in deep reinforcement learning.read more
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Posted Content
A Systematic Comparison of Bayesian Deep Learning Robustness in Diabetic Retinopathy Tasks.
Angelos Filos,Sebastian Farquhar,Aidan N. Gomez,Tim G. J. Rudner,Zachary Kenton,Lewis Smith,Milad Alizadeh,Arnoud de Kroon,Yarin Gal +8 more
TL;DR: A new BDL benchmark with a diverse set of tasks, inspired by a real-world medical imaging application on diabetic retinopathy diagnosis, and a systematic comparison of well-tuned BDL techniques on the various tasks concludes that some current techniques which solve benchmarks such as UCI `overfit' their uncertainty to the dataset underperform on this benchmark.
Proceedings Article
Variational Network Quantization
TL;DR: In this paper, the preparation of a neural network for pruning and few-bit quantization is formulated as a variational inference problem and a differentiable Kullback-Leibler divergence approximation for this prior is derived.
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Recent Advances and Applications of Deep Learning Methods in Materials Science
Kamal Choudhary,Kamal Choudhary,Brian L. DeCost,Chi Chen,Anubhav Jain,Francesca Tavazza,Ryan Cohn,Cheol WooPark,Alok Choudhary,Ankit Agrawal,Simon J. L. Billinge,Elizabeth A. Holm,Shyue Ping Ong,Chris Wolverton +13 more
TL;DR: Deep learning (DL) is one of the fastest growing topics in materials data science, with rapidly emerging applications spanning atomistic, image-based, spectral, and textual data modalities as mentioned in this paper.
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Bayesian Hypernetworks
TL;DR: In practice, Bayesian hypernets provide a better defense against adversarial examples than dropout, and also exhibit competitive performance on a suite of tasks which evaluate model uncertainty, including regularization, active learning, and anomaly detection.
Book ChapterDOI
Assessing Reliability and Challenges of Uncertainty Estimations for Medical Image Segmentation
Alain Jungo,Mauricio Reyes +1 more
TL;DR: In this article, the authors report results of evaluating common voxel-wise uncertainty measures with respect to their reliability, and limitations on two medical image segmentation datasets, and find auxiliary networks to be a valid alternative to common uncertainty methods since they can be applied to any previously trained segmentation model.
References
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Diederik P. Kingma,Jimmy Ba +1 more
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Dropout: a simple way to prevent neural networks from overfitting
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Human-level control through deep reinforcement learning
Volodymyr Mnih,Koray Kavukcuoglu,David Silver,Andrei Rusu,Joel Veness,Marc G. Bellemare,Alex Graves,Martin Riedmiller,Andreas K. Fidjeland,Georg Ostrovski,Stig Petersen,Charles Beattie,Amir Sadik,Ioannis Antonoglou,Helen King,Dharshan Kumaran,Daan Wierstra,Shane Legg,Demis Hassabis +18 more
TL;DR: This work bridges the divide between high-dimensional sensory inputs and actions, resulting in the first artificial agent that is capable of learning to excel at a diverse array of challenging tasks.
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Auto-Encoding Variational Bayes
Diederik P. Kingma,Max Welling +1 more
TL;DR: A stochastic variational inference and learning algorithm that scales to large datasets and, under some mild differentiability conditions, even works in the intractable case is introduced.