CyCADA: Cycle-Consistent Adversarial Domain Adaptation - Robotics Institute Carnegie Mellon University

CyCADA: Cycle-Consistent Adversarial Domain Adaptation

Judy Hoffman, Eric Tzeng, Taesung Park, Jun-Yan Zhu, Phillip Isola, Kate Saenko, Alexei Efros, and Trevor Darrell
Conference Paper, Proceedings of (ICML) International Conference on Machine Learning, pp. 1994 - 2003, July, 2018

Abstract

Domain adaptation is critical for success in new, unseen environments. Adversarial adaptation models have shown tremendous progress towards adapting to new environments by focusing either on discovering domain invariant representations or by mapping between unpaired image domains. While feature space methods are difficult to interpret and sometimes fail to capture pixel-level and low-level domain shifts, image space methods sometimes fail to incorporate high level semantic knowledge relevant for the end task. We propose a model which adapts between domains using both generative image space alignment and latent representation space alignment. Our approach, Cycle-Consistent Adversarial Domain Adaptation (CyCADA), guides transfer between domains according to a specific discriminatively trained task and avoids divergence by enforcing consistency of the relevant semantics before and after adaptation. We evaluate our method on a variety of visual recognition and prediction settings, including digit classification and semantic segmentation of road scenes, advancing state-of-the-art performance for unsupervised adaptation from synthetic to real world driving domains.

BibTeX

@conference{Hoffman-2018-125686,
author = {Judy Hoffman and Eric Tzeng and Taesung Park and Jun-Yan Zhu and Phillip Isola and Kate Saenko and Alexei Efros and Trevor Darrell},
title = {CyCADA: Cycle-Consistent Adversarial Domain Adaptation},
booktitle = {Proceedings of (ICML) International Conference on Machine Learning},
year = {2018},
month = {July},
pages = {1994 - 2003},
}