Open AccessLearning with Weak Supervision from Physics and Data‐Driven Constraints
Author(s) -
Ren Hongyu,
Stewart Russell,
Song Jiaming,
Kuleshov Volodymyr,
Ermon Stefano
Publication year - 2018
Publication title -
ai magazine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.597
H-Index - 79
eISSN - 2371-9621
pISSN - 0738-4602
DOI - 10.1609/aimag.v39i1.2776
Subject(s) - constraint (computer aided design) , computer science , variety (cybernetics) , object (grammar) , domain (mathematical analysis) , artificial intelligence , machine learning , adversarial system , labeled data , mathematics , mathematical analysis , geometry
In many applications of machine learning, labeled data is scarce and obtaining additional labels is expensive. We introduce a new approach to supervising learning algorithms without labels by enforcing a small number of domain‐specific constraints over the algorithms' outputs. The constraints can be provided explicitly based on prior knowledge — for example, we may require that objects detected in videos satisfy the laws of physics — or implicitly extracted from data using a novel framework inspired by adversarial training. We demonstrate the effectiveness of constraint‐based learning on a variety of tasks — including tracking, object detection, and human pose estimation — and we find that algorithms supervised with constraints achieve high accuracies with only a small number of labels, or with no labels at all in some cases.