Determinantal point processes for machine learning
Determinantal point processes (DPPs) are elegant probabilistic models of repulsion that arise in quantum physics and random matrix theory. In contrast to traditional structured models like Markov random fields, which become intractable and hard to approximate in the presence of negative correlations, DPPs offer efficient and exact algorithms for sampling, marginalization, conditioning, and other inference tasks. We provide a gentle introduction to DPPs, focusing on the intuitions, algorithms, and extensions that are most relevant to the machine learning community, and show how DPPs can be applied to real-world applications like finding diverse sets of high-quality search results, building informative summaries by selecting diverse sentences from documents, modeling non-overlapping human poses in images or video, and automatically building timelines of important news stories.
Jan-10-2013
- Country:
- Asia > Middle East (0.67)
- Europe (0.92)
- North America > United States
- Texas (0.28)
- Genre:
- Overview (1.00)
- Research Report
- Experimental Study (0.45)
- New Finding (0.45)
- Industry:
- Automobiles & Trucks > Manufacturer (0.67)
- Government
- Health & Medicine > Therapeutic Area (1.00)
- Law (1.00)
- Law Enforcement & Public Safety > Crime Prevention & Enforcement (1.00)
- Media (0.65)
- Technology:
- Information Technology > Artificial Intelligence
- Machine Learning
- Inductive Learning (0.92)
- Learning Graphical Models
- Directed Networks > Bayesian Learning (1.00)
- Undirected Networks > Markov Models (1.00)
- Statistical Learning (1.00)
- Natural Language > Information Retrieval (0.92)
- Representation & Reasoning
- Mathematical & Statistical Methods (0.92)
- Optimization (0.92)
- Search (1.00)
- Uncertainty > Bayesian Inference (0.92)
- Machine Learning
- Information Technology > Artificial Intelligence