USFD at KBP 2011: Entity Linking, Slot Filling and Temporal Bounding

This paper describes the University of Sheffield's entry in the 2011 TAC KBP entity linking and slot filling tasks. We chose to participate in the monolingual entity linking task, the monolingual slot filling task and the temporal slot filling tasks. We set out to build a framework for experimentation with knowledge base population. This framework was created, and applied to multiple KBP tasks. We demonstrated that our proposed framework is effective and suitable for collaborative development efforts, as well as useful in a teaching environment. Finally we present results that, while very modest, provide improvements an order of magnitude greater than our 2010 attempt.Comment: Proc. Text Analysis Conference (2011

The TALP participation at TAC-KBP 2013

This document describes the work performed by the Universitat Politècnica de Catalunya (UPC) in its second participation at TAC-KBP 2013 in both the Entity Linking and the Slot Filling tasks.Peer ReviewedPostprint (published version

Slot Filling

Slot filling (SF) is the task of automatically extracting facts about particular entities from unstructured text, and populating a knowledge base (KB) with these facts. These structured KBs enable applications such as structured web queries and question answering. SF is typically framed as a query-oriented setting of the related task of relation extraction. Throughout this thesis, we reflect on how SF is a task with many distinct problems. We demonstrate that recall is a major limiter on SF system performance. We contribute an analysis of typical SF recall loss, and find a substantial amount of loss occurs early in the SF pipeline. We confirm that accurate NER and coreference resolution are required for high-recall SF. We measure upper bounds using a naïve graph-based semi-supervised bootstrapping technique, and find that only 39% of results are reachable using a typical feature space. We expect that this graph-based technique will be directly useful for extraction, and this leads us to frame SF as a label propagation task. We focus on a detailed graph representation of the task which reflects the behaviour and assumptions we want to model based on our analysis, including modifying the label propagation process to model multiple types of label interaction. Analysing the graph, we find that a large number of errors occur in very close proximity to training data, and identify that this is of major concern for propagation. While there are some conflicts caused by a lack of sufficient disambiguating context—we explore adding additional contextual features to address this—many of these conflicts are caused by subtle annotation problems. We find that lack of a standard for how explicit expressions of relations must be in text makes consistent annotation difficult. Using a strict definition of explicitness results in 20% of correct annotations being removed from a standard dataset. We contribute several annotation-driven analyses of this problem, exploring the definition of slots and the effect of the lack of a concrete definition of explicitness: annotation schema do not detail how explicit expressions of relations need to be, and there is large scope for disagreement between annotators. Additionally, applications may require relatively strict or relaxed evidence for extractions, but this is not considered in annotation tasks. We demonstrate that annotators frequently disagree on instances, dependent on differences in annotator world knowledge and thresholds on making probabilistic inference. SF is fundamental to enabling many knowledge-based applications, and this work motivates modelling and evaluating SF to better target these tasks

Deep learning methods for knowledge base population

Knowledge bases store structured information about entities or concepts of the world and can be used in various applications, such as information retrieval or question answering. A major drawback of existing knowledge bases is their incompleteness. In this thesis, we explore deep learning methods for automatically populating them from text, addressing the following tasks: slot filling, uncertainty detection and type-aware relation extraction. Slot filling aims at extracting information about entities from a large text corpus. The Text Analysis Conference yearly provides new evaluation data in the context of an international shared task. We develop a modular system to address this challenge. It was one of the top-ranked systems in the shared task evaluations in 2015. For its slot filler classification module, we propose contextCNN, a convolutional neural network based on context splitting. It improves the performance of the slot filling system by 5.0% micro and 2.9% macro F1. To train our binary and multiclass classification models, we create a dataset using distant supervision and reduce the number of noisy labels with a self-training strategy. For model optimization and evaluation, we automatically extract a labeled benchmark for slot filler classification from the manual shared task assessments from 2012-2014. We show that results on this benchmark are correlated with slot filling pipeline results with a Pearson's correlation coefficient of 0.89 (0.82) on data from 2013 (2014). The combination of patterns, support vector machines and contextCNN achieves the best results on the benchmark with a micro (macro) F1 of 51% (53%) on test. Finally, we analyze the results of the slot filling pipeline and the impact of its components. For knowledge base population, it is essential to assess the factuality of the statements extracted from text. From the sentence "Obama was rumored to be born in Kenya", a system should not conclude that Kenya is the place of birth of Obama. Therefore, we address uncertainty detection in the second part of this thesis. We investigate attention-based models and make a first attempt to systematize the attention design space. Moreover, we propose novel attention variants: External attention, which incorporates an external knowledge source, k-max average attention, which only considers the vectors with the k maximum attention weights, and sequence-preserving attention, which allows to maintain order information. Our convolutional neural network with external k-max average attention sets the new state of the art on a Wikipedia benchmark dataset with an F1 score of 68%. To the best of our knowledge, we are the first to integrate an uncertainty detection component into a slot filling pipeline. It improves precision by 1.4% and micro F1 by 0.4%. In the last part of the thesis, we investigate type-aware relation extraction with neural networks. We compare different models for joint entity and relation classification: pipeline models, jointly trained models and globally normalized models based on structured prediction. First, we show that using entity class prediction scores instead of binary decisions helps relation classification. Second, joint training clearly outperforms pipeline models on a large-scale distantly supervised dataset with fine-grained entity classes. It improves the area under the precision-recall curve from 0.53 to 0.66. Third, we propose a model with a structured prediction output layer, which globally normalizes the score of a triple consisting of the classes of two entities and the relation between them. It improves relation extraction results by 4.4% F1 on a manually labeled benchmark dataset. Our analysis shows that the model learns correct correlations between entity and relation classes. Finally, we are the first to use neural networks for joint entity and relation classification in a slot filling pipeline. The jointly trained model achieves the best micro F1 score with a score of 22% while the neural structured prediction model performs best in terms of macro F1 with a score of 25%

Effective distant supervision for end-to-end knowledge base population systems

The growing amounts of textual data require automatic methods for structuring relevant information so that it can be further processed by computers and systematically accessed by humans. The scenario dealt with in this dissertation is known as Knowledge Base Population (KBP), where relational information about entities is retrieved from a large text collection and stored in a database, structured according to a pre-specified schema. Most of the research in this dissertation is placed in the context of the KBP benchmark of the Text Analysis Conference (TAC KBP), which provides a test-bed to examine all steps in a complex end-to-end relation extraction setting. In this dissertation a new state of the art for the TAC KBP benchmark was achieved by focussing on the following research problems: (1) The KBP task was broken down into a modular pipeline of sub-problems, and the most pressing issues were identified and quantified at all steps. (2) The quality of semi-automatically generated training data was increased by developing noise-reduction methods, decreasing the influence of false-positive training examples. (3) A focus was laid on fine-grained entity type modelling, entity expansion, entity matching and tagging, to maintain as much recall as possible on the relational argument level. (4) A new set of effective methods for generating training data, encoding features and training relational classifiers was developed and compared with previous state-of-the-art methods.Die wachsende Menge an Textdaten erfordert Methoden, relevante Informationen so zu strukturieren, dass sie von Computern weiterverarbeitet werden können, und dass Menschen systematisch auf sie zugreifen können. Das in dieser Dissertation behandelte Szenario ist unter dem Begriff Knowledge Base Population (KBP) bekannt. Hier werden relationale Informationen über Entitäten aus großen Textbeständen automatisch zusammengetragen und gemäß einem vorgegebenen Schema strukturiert. Ein Großteil der Forschung der vorliegenden Dissertation ist im Kontext des TAC KBP Vergleichstests angesiedelt. Dieser stellt ein Testumfeld dar, um alle Schritte eines anfragebasierten Relationsextraktions-Systems zu untersuchen. Die in der vorliegenden Dissertation entwickelten Verfahren setzen einen neuen Standard für TAC KBP. Dies wurde durch eine Schwerpunktsetzung auf die folgenden Forschungsfragen erreicht: Erstens wurden die wichtigsten Unterprobleme von KBP identifiziert und die jeweiligen Effekte genau quantifiziert. Zweitens wurde die Qualität von halbautomatischen Trainingsdaten durch Methoden erhöht, die den Einfluss von falsch positiven Trainingsbeispielen verringern. Drittens wurde ein Schwerpunkt auf feingliedrige Typmodellierung, die Expansion von Entitätennamen und das Auffinden von Entitäten gelegt, um eine größtmögliche Abdeckung von relationalen Argumenten zu erreichen. Viertens wurde eine Reihe von neuen leistungsstarken Methoden entwickelt und untersucht, um Trainingsdaten zu erzeugen, Klassifizierungsmerkmale zu kodieren und relationale Klassifikatoren zu trainieren

Effective distant supervision for end-to-end knowledge base population systems

The growing amounts of textual data require automatic methods for structuring relevant information so that it can be further processed by computers and systematically accessed by humans. The scenario dealt with in this dissertation is known as Knowledge Base Population (KBP), where relational information about entities is retrieved from a large text collection and stored in a database, structured according to a pre-specified schema. Most of the research in this dissertation is placed in the context of the KBP benchmark of the Text Analysis Conference (TAC KBP), which provides a test-bed to examine all steps in a complex end-to-end relation extraction setting. In this dissertation a new state of the art for the TAC KBP benchmark was achieved by focussing on the following research problems: (1) The KBP task was broken down into a modular pipeline of sub-problems, and the most pressing issues were identified and quantified at all steps. (2) The quality of semi-automatically generated training data was increased by developing noise-reduction methods, decreasing the influence of false-positive training examples. (3) A focus was laid on fine-grained entity type modelling, entity expansion, entity matching and tagging, to maintain as much recall as possible on the relational argument level. (4) A new set of effective methods for generating training data, encoding features and training relational classifiers was developed and compared with previous state-of-the-art methods.Die wachsende Menge an Textdaten erfordert Methoden, relevante Informationen so zu strukturieren, dass sie von Computern weiterverarbeitet werden können, und dass Menschen systematisch auf sie zugreifen können. Das in dieser Dissertation behandelte Szenario ist unter dem Begriff Knowledge Base Population (KBP) bekannt. Hier werden relationale Informationen über Entitäten aus großen Textbeständen automatisch zusammengetragen und gemäß einem vorgegebenen Schema strukturiert. Ein Großteil der Forschung der vorliegenden Dissertation ist im Kontext des TAC KBP Vergleichstests angesiedelt. Dieser stellt ein Testumfeld dar, um alle Schritte eines anfragebasierten Relationsextraktions-Systems zu untersuchen. Die in der vorliegenden Dissertation entwickelten Verfahren setzen einen neuen Standard für TAC KBP. Dies wurde durch eine Schwerpunktsetzung auf die folgenden Forschungsfragen erreicht: Erstens wurden die wichtigsten Unterprobleme von KBP identifiziert und die jeweiligen Effekte genau quantifiziert. Zweitens wurde die Qualität von halbautomatischen Trainingsdaten durch Methoden erhöht, die den Einfluss von falsch positiven Trainingsbeispielen verringern. Drittens wurde ein Schwerpunkt auf feingliedrige Typmodellierung, die Expansion von Entitätennamen und das Auffinden von Entitäten gelegt, um eine größtmögliche Abdeckung von relationalen Argumenten zu erreichen. Viertens wurde eine Reihe von neuen leistungsstarken Methoden entwickelt und untersucht, um Trainingsdaten zu erzeugen, Klassifizierungsmerkmale zu kodieren und relationale Klassifikatoren zu trainieren