固有表現抽出のための素性の一般化の研究

学位の種別:課程博士University of Tokyo(東京大学

Low-rank regularization for high-dimensional sparse conjunctive feature spaces in information extraction

Versió amb dues seccions retallades, per drets de l'editorOne of the challenges in Natural Language Processing (NLP) is the unstructured nature of texts, in which useful information is not easily identifiable. Information Extraction (IE) aims to alleviate it by enabling automatic extraction of structured information from such text sources. The resulting structured information will facilitate easier querying, organizing, and analyzing of data from texts. In this thesis, we are interested in two IE related tasks: (i) named entity classification and (ii) template filling. Specifically, this thesis examines the problem of learning classifiers of text spans and explore its application for extracting named entities and template slot-fillers. In general, our goal is to construct a method to learn classifiers that: (i) require less supervision, (ii) work well with high-dimensional sparse feature spaces and (iii) are able to classify unseen items (i.e. named entities/slot-fillers not observed in training data). The key idea of our contribution is the utilization of unseen conjunctive features. A conjunctive feature is a combination of features from different feature sets. For example, to classify a phrase, one might have one feature set for the context and another set for the phrase itself. When learning a classifier, only a factor of these conjunctive features will be observed in the training set, leaving the rest (i.e. unseen features) unusable for predicting items in test time. We hypothesize that utilizing such unseen conjunctions is useful to address all of the aspects of the goal. We develop a general regularization framework specifically designed for sparse conjunctive feature spaces. Our strategy is based on employing tensors to represent the conjunctive feature space, and forcing the model to induce low-dimensional embeddings of the feature vectors via low-rank regularization on the tensor parameters. Such compressed representation will help prediction by generalizing to novel examples where most of the conjunctions will be unseen in the training set. We conduct experiments on learning named entity classifiers and template filling, focusing on extracting unseen items. We show that when learning classifiers under minimal supervision, our approach is more effective in controlling model capacity than standard techniques for linear classification.Uno de los retos en Procesamiento del Lenguaje Natural (NLP, del inglés Natural Language Processing) es la naturaleza no estructurada del texto, que hace que la información útil y relevante no sea fácilmente identificable. Los métodos de Extracción de Información (IE, del inglés Information Extraction) afrontan este problema mediante la extracción automática de información estructurada de dichos textos. La estructura resultante facilita la búsqueda, la organización y el análisis datos textuales. Esta tesis se centra en dos tareas relacionadas dentro de IE: (i) clasificación de entidades nombradas (NEC, del inglés Named Entity Classification), y (ii) rellenado de plantillas (en inglés, template filling). Concretamente, esta tesis estudia el problema de aprender clasificadores de secuencias textuales y explora su aplicación a la extracción de entidades nombradas y de valores para campos de plantillas. El objetivo general es desarrollar un método para aprender clasificadores que: (i) requieran poca supervisión; (ii) funcionen bien en espacios de características de alta dimensión y dispersión; y (iii) sean capaces de clasificar elementos nunca vistos (por ejemplo entidades o valores de campos que no hayan sido vistos en fase de entrenamiento). La idea principal de nuestra contribución es la utilización de características conjuntivas que no aparecen en el conjunto de entrenamiento. Una característica conjuntiva es una conjunción de características elementales. Por ejemplo, para clasificar la mención de una entidad en una oración, se utilizan características de la mención, del contexto de ésta, y a su vez conjunciones de los dos grupos de características. Cuando se aprende un clasificador en un conjunto de entrenamiento concreto, sólo se observará una fracción de estas características conjuntivas, dejando el resto (es decir, características no vistas) sin ser utilizado para predecir elementos en fase de evaluación y explotación del modelo. Nuestra hipótesis es que la utilización de estas conjunciones nunca vistas pueden ser potencialmente muy útiles, especialmente para reconocer entidades nuevas. Desarrollamos un marco de regularización general específicamente diseñado para espacios de características conjuntivas dispersas. Nuestra estrategia se basa en utilizar tensores para representar el espacio de características conjuntivas y obligar al modelo a inducir "embeddings" de baja dimensión de los vectores de características vía regularización de bajo rango en los parámetros de tensor. Dicha representación comprimida ayudará a la predicción, generalizando a nuevos ejemplos donde la mayoría de las conjunciones no han sido vistas durante la fase de entrenamiento. Presentamos experimentos sobre el aprendizaje de clasificadores de entidades nombradas, y clasificadores de valores en campos de plantillas, centrándonos en la extracción de elementos no vistos. Demostramos que al aprender los clasificadores bajo mínima supervisión, nuestro enfoque es más efectivo en el control de la capacidad del modelo que las técnicas estándar para la clasificación linealPostprint (published version

Low-rank regularization for high-dimensional sparse conjunctive feature spaces in information extraction

One of the challenges in Natural Language Processing (NLP) is the unstructured nature of texts, in which useful information is not easily identifiable. Information Extraction (IE) aims to alleviate it by enabling automatic extraction of structured information from such text sources. The resulting structured information will facilitate easier querying, organizing, and analyzing of data from texts. In this thesis, we are interested in two IE related tasks: (i) named entity classification and (ii) template filling. Specifically, this thesis examines the problem of learning classifiers of text spans and explore its application for extracting named entities and template slot-fillers. In general, our goal is to construct a method to learn classifiers that: (i) require less supervision, (ii) work well with high-dimensional sparse feature spaces and (iii) are able to classify unseen items (i.e. named entities/slot-fillers not observed in training data). The key idea of our contribution is the utilization of unseen conjunctive features. A conjunctive feature is a combination of features from different feature sets. For example, to classify a phrase, one might have one feature set for the context and another set for the phrase itself. When learning a classifier, only a factor of these conjunctive features will be observed in the training set, leaving the rest (i.e. unseen features) unusable for predicting items in test time. We hypothesize that utilizing such unseen conjunctions is useful to address all of the aspects of the goal. We develop a general regularization framework specifically designed for sparse conjunctive feature spaces. Our strategy is based on employing tensors to represent the conjunctive feature space, and forcing the model to induce low-dimensional embeddings of the feature vectors via low-rank regularization on the tensor parameters. Such compressed representation will help prediction by generalizing to novel examples where most of the conjunctions will be unseen in the training set. We conduct experiments on learning named entity classifiers and template filling, focusing on extracting unseen items. We show that when learning classifiers under minimal supervision, our approach is more effective in controlling model capacity than standard techniques for linear classification.Uno de los retos en Procesamiento del Lenguaje Natural (NLP, del inglés Natural Language Processing) es la naturaleza no estructurada del texto, que hace que la información útil y relevante no sea fácilmente identificable. Los métodos de Extracción de Información (IE, del inglés Information Extraction) afrontan este problema mediante la extracción automática de información estructurada de dichos textos. La estructura resultante facilita la búsqueda, la organización y el análisis datos textuales. Esta tesis se centra en dos tareas relacionadas dentro de IE: (i) clasificación de entidades nombradas (NEC, del inglés Named Entity Classification), y (ii) rellenado de plantillas (en inglés, template filling). Concretamente, esta tesis estudia el problema de aprender clasificadores de secuencias textuales y explora su aplicación a la extracción de entidades nombradas y de valores para campos de plantillas. El objetivo general es desarrollar un método para aprender clasificadores que: (i) requieran poca supervisión; (ii) funcionen bien en espacios de características de alta dimensión y dispersión; y (iii) sean capaces de clasificar elementos nunca vistos (por ejemplo entidades o valores de campos que no hayan sido vistos en fase de entrenamiento). La idea principal de nuestra contribución es la utilización de características conjuntivas que no aparecen en el conjunto de entrenamiento. Una característica conjuntiva es una conjunción de características elementales. Por ejemplo, para clasificar la mención de una entidad en una oración, se utilizan características de la mención, del contexto de ésta, y a su vez conjunciones de los dos grupos de características. Cuando se aprende un clasificador en un conjunto de entrenamiento concreto, sólo se observará una fracción de estas características conjuntivas, dejando el resto (es decir, características no vistas) sin ser utilizado para predecir elementos en fase de evaluación y explotación del modelo. Nuestra hipótesis es que la utilización de estas conjunciones nunca vistas pueden ser potencialmente muy útiles, especialmente para reconocer entidades nuevas. Desarrollamos un marco de regularización general específicamente diseñado para espacios de características conjuntivas dispersas. Nuestra estrategia se basa en utilizar tensores para representar el espacio de características conjuntivas y obligar al modelo a inducir "embeddings" de baja dimensión de los vectores de características vía regularización de bajo rango en los parámetros de tensor. Dicha representación comprimida ayudará a la predicción, generalizando a nuevos ejemplos donde la mayoría de las conjunciones no han sido vistas durante la fase de entrenamiento. Presentamos experimentos sobre el aprendizaje de clasificadores de entidades nombradas, y clasificadores de valores en campos de plantillas, centrándonos en la extracción de elementos no vistos. Demostramos que al aprender los clasificadores bajo mínima supervisión, nuestro enfoque es más efectivo en el control de la capacidad del modelo que las técnicas estándar para la clasificación linea

Concept and entity grounding using indirect supervision

Extracting and disambiguating entities and concepts is a crucial step toward understanding natural language text. In this thesis, we consider the problem of grounding concepts and entities mentioned in text to one or more knowledge bases (KBs). A well-studied scenario of this problem is the one in which documents are given in English and the goal is to identify concept and entity mentions, and find the corresponding entries the mentions refer to in Wikipedia. We extend this problem in two directions: First, we study identifying and grounding entities written in any language to the English Wikipedia. Second, we investigate using multiple KBs which do not contain rich textual and structural information Wikipedia does. These more involved settings pose a few additional challenges beyond those addressed in the standard English Wikification problem. Key among them is that no supervision is available to facilitate training machine learning models. The first extension, cross-lingual Wikification, introduces problems such as recognizing multilingual named entities mentioned in text, translating non-English names into English, and computing word similarity across languages. Since it is impossible to acquire manually annotated examples for all languages, building models for all languages in Wikipedia requires exploring indirect or incidental supervision signals which already exist in Wikipedia. For the second setting, we need to deal with the fact that most KBs do not contain the rich information Wikipedia has; consequently, the main supervision signal used to train Wikification rankers does not exist anymore. In this thesis, we show that supervision signals can be obtained by carefully examining the redundancy and relations between multiple KBs. By developing algorithms and models which harvest these incidental signals, we can achieve better performance on these tasks

Automated Assessment of the Aftermath of Typhoons Using Social Media Texts

Disasters are one of the major threats to economics and human societies, causing substantial losses of human lives, properties and infrastructures. It has been our persistent endeavors to understand, prevent and reduce such disasters, and the popularization of social media is offering new opportunities to enhance disaster management in a crowd-sourcing approach. However, social media data is also characterized by its undue brevity, intense noise, and informality of language. The existing literature has not completely addressed these disadvantages, otherwise vast manual efforts are devoted to tackling these problems. The major focus of this research is on constructing a holistic framework to exploit social media data in typhoon damage assessment. The scope of this research covers data collection, relevance classification, location extraction and damage assessment while assorted approaches are utilized to overcome the disadvantages of social media data. Moreover, a semi-supervised or unsupervised approach is prioritized in forming the framework to minimize manual intervention. In data collection, query expansion strategy is adopted to optimize the search recall of typhoon-relevant information retrieval. Multiple filtering strategies are developed to screen the keywords and maintain the relevance to search topics in the keyword updates. A classifier based on a convolutional neural network is presented for relevance classification, with hashtags and word clusters as extra input channels to augment the information. In location extraction, a model is constructed by integrating Bidirectional Long Short-Time Memory and Conditional Random Fields. Feature noise correction layers and label smoothing are leveraged to handle the noisy training data. Finally, a multi-instance multi-label classifier identifies the damage relations in four categories, and the damage categories of a message are integrated with the damage descriptions score to obtain damage severity score for the message. A case study is conducted to verify the effectiveness of the framework. The outcomes indicate that the approaches and models developed in this study significantly improve in the classification of social media texts especially under the framework of semi-supervised or unsupervised learning. Moreover, the results of damage assessment from social media data are remarkably consistent with the official statistics, which demonstrates the practicality of the proposed damage scoring scheme

Semi-Supervised Named Entity Recognition:\ud Learning to Recognize 100 Entity Types with Little Supervision\ud

Named Entity Recognition (NER) aims to extract and to classify rigid designators in text such as proper names, biological species, and temporal expressions. There has been growing interest in this field of research since the early 1990s. In this thesis, we document a trend moving away from handcrafted rules, and towards machine learning approaches. Still, recent machine learning approaches have a problem with annotated data availability, which is a serious shortcoming in building and maintaining large-scale NER systems. \ud \ud In this thesis, we present an NER system built with very little supervision. Human supervision is indeed limited to listing a few examples of each named entity (NE) type. First, we introduce a proof-of-concept semi-supervised system that can recognize four NE types. Then, we expand its capacities by improving key technologies, and we apply the system to an entire hierarchy comprised of 100 NE types. \ud \ud Our work makes the following contributions: the creation of a proof-of-concept semi-supervised NER system; the demonstration of an innovative noise filtering technique for generating NE lists; the validation of a strategy for learning disambiguation rules using automatically identified, unambiguous NEs; and finally, the development of an acronym detection algorithm, thus solving a rare but very difficult problem in alias resolution. \ud \ud We believe semi-supervised learning techniques are about to break new ground in the machine learning community. In this thesis, we show that limited supervision can build complete NER systems. On standard evaluation corpora, we report performances that compare to baseline supervised systems in the task of annotating NEs in texts. \u