Adversarial inverse graphics networks: Learning 2d-to-3d lifting and image-to-image translation from unpaired supervision - Robotics Institute Carnegie Mellon University

Adversarial inverse graphics networks: Learning 2d-to-3d lifting and image-to-image translation from unpaired supervision

Hsiao-Yu Fish Tung, Adam W. Harley, William Seto, and Katerina Fragkiadaki
Conference Paper, Proceedings of (ICCV) International Conference on Computer Vision, pp. 4364 - 4372, October, 2017

Abstract

Researchers have developed excellent feed-forward models that learn to map images to desired outputs, such as to the images' latent factors, or to other images, using supervised learning. Learning such mappings from unlabelled data, or improving upon supervised models by exploiting unlabelled data, remains elusive. We argue that there are two important parts to learning without annotations: (i) matching the predictions to the input observations, and (ii) matching the predictions to known priors. We propose Adversarial Inverse Graphics networks (AIGNs): weakly supervised neural network models that combine feedback from rendering their predictions, with distribution matching between their predictions and a collection of ground-truth factors. We apply AIGNs to 3D human pose estimation and 3D structure and egomotion estimation, and outperform models supervised by only paired annotations. We further apply AIGNs to facial image transformation using super-resolution and inpainting renderers, while deliberately adding biases in the ground-truth datasets. Our model seamlessly incorporates such biases, rendering input faces towards young, old, feminine, masculine or Tom Cruiselike equivalents (depending on the chosen bias), or adding lip and nose augmentations while inpainting concealed lips and noses.

BibTeX

@conference{Tung-2017-126670,
author = {Hsiao-Yu Fish Tung and Adam W. Harley and William Seto and Katerina Fragkiadaki},
title = {Adversarial inverse graphics networks: Learning 2d-to-3d lifting and image-to-image translation from unpaired supervision},
booktitle = {Proceedings of (ICCV) International Conference on Computer Vision},
year = {2017},
month = {October},
pages = {4364 - 4372},
}