2018
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Learning from Measurements in Crowdsourcing Models: Inferring Ground Truth from Diverse Annotation Types
Paul Felt
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Eric Ringger
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Jordan Boyd-Graber
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Kevin Seppi
Proceedings of the 27th International Conference on Computational Linguistics
Annotated corpora enable supervised machine learning and data analysis. To reduce the cost of manual annotation, tasks are often assigned to internet workers whose judgments are reconciled by crowdsourcing models. We approach the problem of crowdsourcing using a framework for learning from rich prior knowledge, and we identify a family of crowdsourcing models with the novel ability to combine annotations with differing structures: e.g., document labels and word labels. Annotator judgments are given in the form of the predicted expected value of measurement functions computed over annotations and the data, unifying annotation models. Our model, a specific instance of this framework, compares favorably with previous work. Furthermore, it enables active sample selection, jointly selecting annotator, data item, and annotation structure to reduce annotation effort.
2016
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Semantic Annotation Aggregation with Conditional Crowdsourcing Models and Word Embeddings
Paul Felt
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Eric Ringger
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Kevin Seppi
Proceedings of COLING 2016, the 26th International Conference on Computational Linguistics: Technical Papers
In modern text annotation projects, crowdsourced annotations are often aggregated using item response models or by majority vote. Recently, item response models enhanced with generative data models have been shown to yield substantial benefits over those with conditional or no data models. However, suitable generative data models do not exist for many tasks, such as semantic labeling tasks. When no generative data model exists, we demonstrate that similar benefits may be derived by conditionally modeling documents that have been previously embedded in a semantic space using recent work in vector space models. We use this approach to show state-of-the-art results on a variety of semantic annotation aggregation tasks.
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Fast Inference for Interactive Models of Text
Jeffrey Lund
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Paul Felt
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Kevin Seppi
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Eric Ringger
Proceedings of COLING 2016, the 26th International Conference on Computational Linguistics: Technical Papers
Probabilistic models are a useful means for analyzing large text corpora. Integrating such models with human interaction enables many new use cases. However, adding human interaction to probabilistic models requires inference algorithms which are both fast and accurate. We explore the use of Iterated Conditional Modes as a fast alternative to Gibbs sampling or variational EM. We demonstrate superior performance both in run time and model quality on three different models of text including a DP Mixture of Multinomials for web search result clustering, the Interactive Topic Model, and M OM R ESP , a multinomial crowdsourcing model.
2015
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Making the Most of Crowdsourced Document Annotations: Confused Supervised LDA
Paul Felt
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Eric Ringger
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Jordan Boyd-Graber
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Kevin Seppi
Proceedings of the Nineteenth Conference on Computational Natural Language Learning
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Early Gains Matter: A Case for Preferring Generative over Discriminative Crowdsourcing Models
Paul Felt
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Kevin Black
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Eric Ringger
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Kevin Seppi
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Robbie Haertel
Proceedings of the 2015 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies
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An Analytic and Empirical Evaluation of Return-on-Investment-Based Active Learning
Robbie Haertel
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Eric Ringger
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Kevin Seppi
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Paul Felt
Proceedings of the 9th Linguistic Annotation Workshop
2014
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Momresp: A Bayesian Model for Multi-Annotator Document Labeling
Paul Felt
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Robbie Haertel
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Eric Ringger
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Kevin Seppi
Proceedings of the Ninth International Conference on Language Resources and Evaluation (LREC'14)
Data annotation in modern practice often involves multiple, imperfect human annotators. Multiple annotations can be used to infer estimates of the ground-truth labels and to estimate individual annotator error characteristics (or reliability). We introduce MomResp, a model that incorporates information from both natural data clusters as well as annotations from multiple annotators to infer ground-truth labels and annotator reliability for the document classification task. We implement this model and show dramatic improvements over majority vote in situations where both annotations are scarce and annotation quality is low as well as in situations where annotators disagree consistently. Because MomResp predictions are subject to label switching, we introduce a solution that finds nearly optimal predicted class reassignments in a variety of settings using only information available to the model at inference time. Although MomResp does not perform well in annotation-rich situations, we show evidence suggesting how this shortcoming may be overcome in future work.
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Evaluating Lemmatization Models for Machine-Assisted Corpus-Dictionary Linkage
Kevin Black
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Eric Ringger
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Paul Felt
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Kevin Seppi
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Kristian Heal
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Deryle Lonsdale
Proceedings of the Ninth International Conference on Language Resources and Evaluation (LREC'14)
The task of corpus-dictionary linkage (CDL) is to annotate each word in a corpus with a link to an appropriate dictionary entry that documents the sense and usage of the word. Corpus-dictionary linked resources include concordances, dictionaries with word usage examples, and corpora annotated with lemmas or word-senses. Such CDL resources are essential in learning a language and in linguistic research, translation, and philology. Lemmatization is a common approximation to automating corpus-dictionary linkage, where lemmas are treated as dictionary entry headwords. We intend to use data-driven lemmatization models to provide machine assistance to human annotators in the form of pre-annotations, and thereby reduce the costs of CDL annotation. In this work we adapt the discriminative string transducer DirecTL+ to perform lemmatization for classical Syriac, a low-resource language. We compare the accuracy of DirecTL+ with the Morfette discriminative lemmatizer. DirecTL+ achieves 96.92% overall accuracy but only by a margin of 0.86% over Morfette at the cost of a longer time to train the model. Error analysis on the models provides guidance on how to apply these models in a machine assistance setting for corpus-dictionary linkage.
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Using Transfer Learning to Assist Exploratory Corpus Annotation
Paul Felt
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Eric Ringger
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Kevin Seppi
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Kristian Heal
Proceedings of the Ninth International Conference on Language Resources and Evaluation (LREC'14)
We describe an under-studied problem in language resource management: that of providing automatic assistance to annotators working in exploratory settings. When no satisfactory tagset already exists, such as in under-resourced or undocumented languages, it must be developed iteratively while annotating data. This process naturally gives rise to a sequence of datasets, each annotated differently. We argue that this problem is best regarded as a transfer learning problem with multiple source tasks. Using part-of-speech tagging data with simulated exploratory tagsets, we demonstrate that even simple transfer learning techniques can significantly improve the quality of pre-annotations in an exploratory annotation.
2012
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First Results in a Study Evaluating Pre-annotation and Correction Propagation for Machine-Assisted Syriac Morphological Analysis
Paul Felt
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Eric Ringger
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Kevin Seppi
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Kristian Heal
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Robbie Haertel
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Deryle Lonsdale
Proceedings of the Eighth International Conference on Language Resources and Evaluation (LREC'12)
Manual annotation of large textual corpora can be cost-prohibitive, especially for rare and under-resourced languages. One potential solution is pre-annotation: asking human annotators to correct sentences that have already been annotated, usually by a machine. Another potential solution is correction propagation: using annotator corrections to bad pre-annotations to dynamically improve to the remaining pre-annotations within the current sentence. The research presented in this paper employs a controlled user study to discover under what conditions these two machine-assisted annotation techniques are effective in increasing annotator speed and accuracy and thereby reducing the cost for the task of morphologically annotating texts written in classical Syriac. A preliminary analysis of the data indicates that pre-annotations improve annotator accuracy when they are at least 60% accurate, and annotator speed when they are at least 80% accurate. This research constitutes the first systematic evaluation of pre-annotation and correction propagation together in a controlled user study.
2010
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Parallel Active Learning: Eliminating Wait Time with Minimal Staleness
Robbie Haertel
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Paul Felt
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Eric K. Ringger
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Kevin Seppi
Proceedings of the NAACL HLT 2010 Workshop on Active Learning for Natural Language Processing
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CCASH: A Web Application Framework for Efficient, Distributed Language Resource Development
Paul Felt
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Owen Merkling
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Marc Carmen
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Eric Ringger
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Warren Lemmon
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Kevin Seppi
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Robbie Haertel
Proceedings of the Seventh International Conference on Language Resources and Evaluation (LREC'10)
We introduce CCASH (Cost-Conscious Annotation Supervised by Humans), an extensible web application framework for cost-efficient annotation. CCASH provides a framework in which cost-efficient annotation methods such as Active Learning can be explored via user studies and afterwards applied to large annotation projects. CCASHs architecture is described as well as the technologies that it is built on. CCASH allows custom annotation tasks to be built from a growing set of useful annotation widgets. It also allows annotation methods (such as AL) to be implemented in any language. Being a web application framework, CCASH offers secure centralized data and annotation storage and facilitates collaboration among multiple annotations. By default it records timing information about each annotation and provides facilities for recording custom statistics. The CCASH framework has been used to evaluate a novel annotation strategy presented in a concurrently published paper, and will be used in the future to annotate a large Syriac corpus.
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Tag Dictionaries Accelerate Manual Annotation
Marc Carmen
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Paul Felt
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Robbie Haertel
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Deryle Lonsdale
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Peter McClanahan
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Owen Merkling
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Eric Ringger
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Kevin Seppi
Proceedings of the Seventh International Conference on Language Resources and Evaluation (LREC'10)
Expert human input can contribute in various ways to facilitate automatic annotation of natural language text. For example, a part-of-speech tagger can be trained on labeled input provided offline by experts. In addition, expert input can be solicited by way of active learning to make the most of annotator expertise. However, hiring individuals to perform manual annotation is costly both in terms of money and time. This paper reports on a user study that was performed to determine the degree of effect that a part-of-speech dictionary has on a group of subjects performing the annotation task. The user study was conducted using a modular, web-based interface created specifically for text annotation tasks. The user study found that for both native and non-native English speakers a dictionary with greater than 60% coverage was effective at reducing annotation time and increasing annotator accuracy. On the basis of this study, we predict that using a part-of-speech tag dictionary with coverage greater than 60% can reduce the cost of annotation in terms of both time and money.