14,593 research outputs found
Teaching Compositionality to CNNs
Convolutional neural networks (CNNs) have shown great success in computer
vision, approaching human-level performance when trained for specific tasks via
application-specific loss functions. In this paper, we propose a method for
augmenting and training CNNs so that their learned features are compositional.
It encourages networks to form representations that disentangle objects from
their surroundings and from each other, thereby promoting better
generalization. Our method is agnostic to the specific details of the
underlying CNN to which it is applied and can in principle be used with any
CNN. As we show in our experiments, the learned representations lead to feature
activations that are more localized and improve performance over
non-compositional baselines in object recognition tasks.Comment: Preprint appearing in CVPR 201
Universal Language Model Fine-tuning for Text Classification
Inductive transfer learning has greatly impacted computer vision, but
existing approaches in NLP still require task-specific modifications and
training from scratch. We propose Universal Language Model Fine-tuning
(ULMFiT), an effective transfer learning method that can be applied to any task
in NLP, and introduce techniques that are key for fine-tuning a language model.
Our method significantly outperforms the state-of-the-art on six text
classification tasks, reducing the error by 18-24% on the majority of datasets.
Furthermore, with only 100 labeled examples, it matches the performance of
training from scratch on 100x more data. We open-source our pretrained models
and code.Comment: ACL 2018, fixed denominator in Equation 3, line
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