Poster
A Bayesian Data Augmentation Approach for Learning Deep Models
Toan Tran · Trung Pham · Gustavo Carneiro · Lyle Palmer · Ian Reid
Pacific Ballroom #36
Keywords: [ Learning Theory ] [ Stochastic Methods ] [ Deep Learning ] [ Predictive Models ] [ Supervised Deep Networks ] [ Theory ] [ Density Estimation ] [ Adversarial Networks ] [ Generative Models ] [ Classification ] [ Probabilistic Methods ] [ Bayesian Theory ] [ Latent Variable Models ] [ Optimization for Deep Networks ] [ Missing Data ] [ Efficient Training Methods ] [ Algorithms ]
Data augmentation is an essential part of the training process applied to deep learning models. The motivation is that a robust training process for deep learning models depends on large annotated datasets, which are expensive to be acquired, stored and processed. Therefore a reasonable alternative is to be able to automatically generate new annotated training samples using a process known as data augmentation. The dominant data augmentation approach in the field assumes that new training samples can be obtained via random geometric or appearance transformations applied to annotated training samples, but this is a strong assumption because it is unclear if this is a reliable generative model for producing new training samples. In this paper, we provide a novel Bayesian formulation to data augmentation, where new annotated training points are treated as missing variables and generated based on the distribution learned from the training set. For learning, we introduce a theoretically sound algorithm --- generalised Monte Carlo expectation maximisation, and demonstrate one possible implementation via an extension of the Generative Adversarial Network (GAN). Classification results on MNIST, CIFAR-10 and CIFAR-100 show the better performance of our proposed method compared to the current dominant data augmentation approach mentioned above --- the results also show that our approach produces better classification results than similar GAN models.
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