← Back to papers
2021 IJCAI IJCAI 2021

Temporal and Object Quantification Networks

Abstract

We present Temporal and Object Quantification Networks (TOQ-Nets), a new class of neuro-symbolic networks with a structural bias that enables them to learn to recognize complex relational-temporal events. This is done by including reasoning layers that implement finite-domain quantification over objects and time. The structure allows them to generalize directly to input instances with varying numbers of objects in temporal sequences of varying lengths. We evaluate TOQ-Nets on input domains that require recognizing event-types in terms of complex temporal relational patterns. We demonstrate that TOQ-Nets can generalize from small amounts of data to scenarios containing more objects than were present during training and to temporal warpings of input sequences.

🌉 Interdisciplinary Bridge — Deep Learning and Knowledge & Reasoning
🧭 Keyword Pioneer — neuro-symbolic network
🐝 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

Authors

Jiayuan Mao , Zhezheng Luo , Chuang Gan , Joshua B. Tenenbaum , Jiajun Wu , Leslie Pack Kaelbling , Tomer D. Ullman

Topics

Deep Learning > Architectures > Neural Networks Knowledge & Reasoning > Reasoning > Automated Reasoning

Keywords

relational learning temporal reasoning event recognition neuro-symbolic network finite-domain quantification
Download PDF

Related papers

Type Anywhere You Want: An Introduction to Invisible Mobile Keyboard 2021
Guaranteeing Maximin Shares: Some Agents Left Behind 2021
Surprisingly Popular Voting Recovers Rankings, Surprisingly! 2021
Strategyproof Randomized Social Choice for Restricted Sets of Utility Functions 2021
Diversity in Kemeny Rank Aggregation: A Parameterized Approach 2021