Quick answer

Modeling the distribution of natural images is a landmark problem in unsupervised learning. This task requires an image model that is at once expressive, tractable and scalable.

Paper2016-02-29•Source ↗•10 attns8,597 checkouts

Claim

Pixel Recurrent Neural Networks

Authors

Aaron van den Oord·

Nal Kalchbrenner·

Koray Kavukcuoglu

ABSTRACT

Modeling the distribution of natural images is a landmark problem in unsupervised learning. This task requires an image model that is at once expressive, tractable and scalable. We present a deep neural network that sequentially predicts the pixels in an image along the two spatial dimensions. Our method models the discrete probability of the raw pixel values and encodes the complete set of dependencies in the image. Architectural novelties include fast two-dimensional recurrent layers and an effective use of residual connections in deep recurrent networks. We achieve log-likelihood scores on natural images that are considerably better than the previous state of the art. Our main results also provide benchmarks on the diverse ImageNet dataset. Samples generated from the model appear crisp, varied and globally coherent.

📋 Awesome List: deep-learning-foundation #machine-learning #deep-learning

Review Snapshot

Explore ratings

0.0

★★★★★

0 ratings

5 star

4 star

3 star

2 star

1 star

Recommendation

recommend this content.

Review this content

Share your opinion to help other learners triage faster.

Write a review

Invite a reviewer

Invite someone by email to share an invited review for Pixel Recurrent Neural Networks.

Author Inquiries

Public questions about this content. Attendemia will route your question to the author. Vote on the most important ones. No guarantee of response.

Post an inquiry

Sort by: Most helpful