← Back to papers
2015 ICCV ICCV 2015

Simultaneous Deep Transfer Across Domains and Tasks

Abstract

Recent reports suggest that a generic supervised deep CNN model trained on a large-scale dataset reduces, but does not remove, dataset bias. Fine-tuning deep models in a new domain can require a significant amount of labeled data, which for many applications is simply not available. We propose a new CNN architecture to exploit unlabeled and sparsely labeled target domain data. Our approach simultaneously optimizes for domain invariance to facilitate domain transfer and uses a soft label distribution matching loss to transfer information between tasks. Our proposed adaptation method offers empirical performance which exceeds previously published results on two standard benchmark visual domain adaptation tasks, evaluated across supervised and semi-supervised adaptation settings.

🌉 Interdisciplinary Bridge — Artificial Intelligence and Machine Learning
🧭 Keyword Pioneer — domain invariance
🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Security & Privacy, Speech & Audio

Authors

Eric Tzeng , Judy Hoffman , Trevor Darrell , Kate Saenko

Topics

Artificial Intelligence > Learning Paradigms > Transfer Learning Machine Learning > Learning Types > Semi-Supervised Learning Machine Learning > Application Areas > Domain Adaptation

Keywords

semi-supervised learning transfer learning domain adaptation domain invariance deep cnn soft label distribution
Download PDF

Related papers

Cutting Edge: Soft Correspondences in Multimodal Scene Parsing 2015
Unsupervised Generation of a Viewpoint Annotated Car Dataset From Videos 2015
Depth-Based Hand Pose Estimation: Data, Methods, and Challenges 2015
Peeking Template Matching for Depth Extension 2015
Learning Semi-Supervised Representation Towards a Unified Optimization Framework for Semi-Supervised Learning 2015