Challenge: Weakly supervised named entity recognition (NER) uses noisy labels to estimate the true labels of a dataset.
Approach: They propose a model to learn optimal assignments of latent NER tags using observed tokens and weak labels provided by labeling functions.
Outcome: The proposed model improves the quality of weak labels on four public datasets.

Similar Papers

Named Entity Recognition with Small Strongly Labeled and Large Weakly Labeled Data (2021.acl-long)

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Challenge: Existing work focuses on learning deep NER models with weak supervision without any human annotation.
Approach: They propose a framework that can suppress the noise of the weak labels and fine-tune over the strongly labeled data.
Outcome: The proposed framework outperforms existing methods on Named Entity Recognition tasks with weak supervision and weakly labeled data.
Named Entity Recognition without Labelled Data: A Weak Supervision Approach (2020.acl-main)

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Challenge: Named Entity Recognition (NER) performance often degrades when applied to target domains that differ from the texts observed during training.
Approach: They propose a method to learn NER models in the absence of labelled data through weak supervision by using a broad spectrum of labelling functions to automatically annotate texts from the target domain.
Outcome: The proposed approach improves on two English datasets and shows that it improves by 7 percentage points on entity-level F1 scores compared to an out-of-domain neural NER model.
Weakly Supervised Attention Networks for Entity Recognition (D19-1)

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Challenge: Existing approaches to entity recognition require large amounts of token-level data, which can be expensive and cumbersome to obtain.
Approach: They propose a weakly supervised model that can be annotated at word level from a corpus containing binary presence/absence labels.
Outcome: The proposed model performs reasonably well on the task of entity recognition despite not having access to token-level ground truth data.
Weakly Supervised Named Entity Tagging with Learnable Logical Rules (2021.acl-long)

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Challenge: Existing methods for building entity tagging systems use weak supervision . previous methods focus on disambiguating entity types based on contexts and expert-provided rules .
Approach: They propose a method that bootstraps high-quality logical rules to train a neural tagger in a fully automated manner.
Outcome: The proposed method outperforms weakly supervised methods on three datasets . it rivals state-of-the-art supervised method with lexicon of over 2,000 terms .
BERTifying the Hidden Markov Model for Multi-Source Weakly Supervised Named Entity Recognition (2021.acl-long)

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Challenge: Existing NER models are supervised by a large number of training sequences, each pre-annotated with token-level labels.
Approach: They propose a conditional hidden Markov model which can effectively infer true labels from multi-source noisy labels in an unsupervised way.
Outcome: The proposed model outperforms state-of-the-art weakly supervised NER models on four benchmarks from various domains.
Learning Structured Representations of Entity Names using Active Learning and Weak Supervision (2020.emnlp-main)

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Challenge: Structured representations of entity names are useful for many entity-related tasks such as entity normalization and variant generation.
Approach: They propose a framework that combines active learning and weak supervision to solve this problem.
Outcome: The proposed framework enables learning of high-quality models from a dozen labeled examples.
Distantly-Supervised Named Entity Recognition with Noise-Robust Learning and Language Model Augmented Self-Training (2021.emnlp-main)

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Challenge: Named entity recognition models require abundant high-quality annotations to train . distant supervision may induce incomplete and noisy labels, making supervised learning ineffective.
Approach: They propose a noise-robust learning scheme for training named entity recognition models using only distantly-labeled data and a self-training method that uses contextualized augmentations created by pre-trained language models.
Outcome: The proposed method outperforms existing supervised NER models on three datasets by significant margins.
Distantly Supervised Named Entity Recognition using Positive-Unlabeled Learning (P19-1)

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Challenge: Empirical studies on four public NER datasets demonstrate the effectiveness of our proposed method.
Approach: They propose a method to perform named entity recognition using unlabeled data and named entity dictionaries.
Outcome: The proposed method can estimate task loss as if there is fully labeled data.
Noisy-Labeled NER with Confidence Estimation (2021.naacl-main)

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Challenge: Recent studies in deep learning have shown significant progress in named entity recognition (NER) . however, most existing works assume clean data annotation, while real-world data typically involve a large amount of noises.
Approach: They propose a confidence estimation approach for named entity recognition using noisy labels using local and global independence assumptions.
Outcome: The proposed method marginalizes out labels of low confidence with a CRF model and integrates it into a self-training framework for boosting performance.
Learning Named Entity Tagger using Domain-Specific Dictionary (D18-1)

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Challenge: Existing methods to build reliable named entity recognition systems require large amounts of manually-labeled training data.
Approach: They propose a revised fuzzy CRF layer to handle tokens with multiple possible labels to address noisy distant supervision.
Outcome: The proposed model can handle tokens with multiple possible labels under the traditional framework and improves on the existing model with a new Tie or Break scheme.

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