SOTAVerified

Structured Prediction

Structured Prediction is an area of machine learning focusing on representations of spaces with combinatorial structure, and algorithms for inference and parameter estimation over these structures. Core methods include both tractable exact approaches like dynamic programming and spanning tree algorithms as well as heuristic techniques such as linear programming relaxations and greedy search.

Source: Torch-Struct: Deep Structured Prediction Library

Papers

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Showing 501525 of 639 papers

TitleStatusHype
A Structured Approach to Predicting Image Enhancement Parameters0
A Structured Prediction Approach for Missing Value Imputation0
A Study of Imitation Learning Methods for Semantic Role Labeling0
A Study of Latent Structured Prediction Approaches to Passage Reranking0
A Study of State Aliasing in Structured Prediction with RNNs0
A Survey of Active Learning for Natural Language Processing0
"A Tale of Two Movements": Identifying and Comparing Perspectives in #BlackLivesMatter and #BlueLivesMatter Movements-related Tweets using Weakly Supervised Graph-based Structured Prediction0
A Unified Framework for Structured Prediction: From Theory to Practice0
Automatic Measurement of Pre-aspiration0
Bandit Structured Prediction for Learning from Partial Feedback in Statistical Machine Translation0
Bayesian Kernel Methods for Natural Language Processing0
Belief Propagation in Conditional RBMs for Structured Prediction0
Bethe Projections for Non-Local Inference0
Better Transition-Based AMR Parsing with a Refined Search Space0
Beyond MLE: Investigating SEARNN for Low-Resourced Neural Machine Translation0
Bidirectional Inference Networks: A Class of Deep Bayesian Networks for Health Profiling0
Blending Learning and Inference in Structured Prediction0
Book Review: Linguistic Structure Prediction by Noah A. Smith0
Boosting Information Extraction Systems with Character-level Neural Networks and Free Noisy Supervision0
Brundlefly at SemEval-2016 Task 12: Recurrent Neural Networks vs. Joint Inference for Clinical Temporal Information Extraction0
Brundlefly at SemEval-2016 Task 12: Recurrent Neural Networks vs. Joint Inference for Clinical Temporal Information Extraction0
Buy 4 REINFORCE Samples, Get a Baseline for Free!0
CaLcs: Continuously Approximating Longest Common Subsequence for Sequence Level Optimization0
Calibrating Structured Output Predictors for Natural Language Processing0
Candidate Constrained CRFs for Loss-Aware Structured Prediction0
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Benchmark Results

#ModelMetricClaimedVerifiedStatus
1CVAENegative CLL71.8Unverified