Classificação semissupervisionada de séries temporais extraídas de imagens de satélite / Semi-supervised classification of time series extracted from satellite images

Amaral, Bruno Ferraz do

29 April 2016

Nas últimas décadas, com o crescimento acelerado na geração e armazenamento de dados, houve um aumento na necessidade de criação e gerenciamento de grandes bases de dados. Logo, a utilização de técnicas de mineração de dados adequadas para descoberta de padrões e informações úteis em bases de dados é uma tarefa de interesse. Em especial, bases de séries temporais têm sido alvo de pesquisas em áreas como medicina, economia e agrometeorologia. Em mineração de dados, uma das tarefas mais exploradas é a classificação. Entretanto, é comum em bases de séries temporais, a quantidade e complexidade de dados extrapolarem a capacidade humana de análise manual dos dados, o que torna o processo de supervisão dos dados custoso. Como consequência disso, são produzidos poucos dados rotulados, em comparação a um grande volume de dados não rotulados disponíveis. Nesse cenário, uma abordagem adequada para análise desses dados é a classificação semissupervisionada, que considera dados rotulados e não rotulados para o treinamento do classificador. Nesse contexto, este trabalho de mestrado propõe 1) uma metodologia de análise de dados obtidos a partir de séries temporais de imagens de satélite (SITS) usando tarefas de mineração de dados e 2) uma técnica baseada em grafos para classificação semissupervisionada de séries temporais extraídas de imagens de satélite. A metodologia e a técnica de classificação desenvolvidas são aplicadas na análise de séries temporais de índices de vegetação obtidas a partir de SITS, visando a identificação de áreas de plantio de cana-de-açúcar. Os resultados obtidos em análise experimental, realizada com apoio de especialistas no domínio de aplicação, indicam que a metodologia proposta é adequada para auxiliar pesquisas em agricultura. Além disso, os resultados do estudo comparativo mostram que a técnica de classificação semissupervisionada desenvolvida supera métodos de classificação supervisionada consolidados na literatura e métodos correlatos de classificação semissupervisionada. / The amount of digital data generated and stored as well as the need of creation and management of large databases has increased significantly, in the last decades. The possibility of finding valid and potentially useful patterns and information in large databases has attracted the attention of many scientific areas. Time series databases have been explored using data mining methods in serveral domains of application, such as economics, medicine and agrometeorology. Due to the large volume and complexity of some time series databases, the process of labeling data for supervised tasks, such as classification, can be very expensive. To overcome the problem of scarcity of labeled data, semi-supervised classification, which benefits from both labeled and unlabeled data available, can be applied to classify data from large time series databases. In this Master dissertation, we propose 1) a framework for the analysis of data extracted from satellite image time series (SITS) using data mining tasks and 2) a graph-based semi-supervised classification method, developed to classify temporal data obtained from satellite images. According to experts in agrometeorology, the use of the proposed method and framework provides an automatic way of analyzing data extracted from SITS, which is very useful for supporting research in this domain of application. We apply the framework and the proposed semi-supervised classification method in the analysis of vegetation index time series, aiming at identifying sugarcane crop fields, in Brazil. Experimental results indicate that our proposed framework is useful for supporting researches in agriculture, according to experts in the domain of application. We also show that our method is more accurate than traditional supervised methods and related semi-supervised methods.

Classificação semissupervisionada

Data mining

Mineração de dados

Remote sensing

Semi-supervised classification

Sensoriamento remoto

Séries temporais

Time series

Anotação automática semissupervisionada de papéis semânticos para o português do Brasil / Automatic semi-supervised semantic role labeling for Brazilian Portuguese

Manchego, Fernando Emilio Alva

22 January 2013

A anotac~ao de papeis sem^anticos (APS) e uma tarefa do processamento de lngua natural (PLN) que permite analisar parte do signicado das sentencas atraves da detecc~ao dos participantes dos eventos (e dos eventos em si) que est~ao sendo descritos nelas, o que e essencial para que os computadores possam usar efetivamente a informac~ao codicada no texto. A maior parte das pesquisas desenvolvidas em APS tem sido feita para textos em ingl^es, considerando as particularidades gramaticais e sem^anticas dessa lngua, o que impede que essas ferramentas e resultados sejam diretamente transportaveis para outras lnguas como o portugu^es. A maioria dos sistemas de APS atuais emprega metodos de aprendizado de maquina supervisionado e, portanto, precisa de um corpus grande de senten cas anotadas com papeis sem^anticos para aprender corretamente a tarefa. No caso do portugu^es do Brasil, um recurso lexical que prov^e este tipo de informac~ao foi recentemente disponibilizado: o PropBank.Br. Contudo, em comparac~ao com os corpora para outras lnguas como o ingl^es, o corpus fornecido por este projeto e pequeno e, portanto, n~ao permitiria que um classicador treinado supervisionadamente realizasse a tarefa de anotac~ao com alto desempenho. Para tratar esta diculdade, neste trabalho emprega-se uma abordagem semissupervisionada capaz de extrair informac~ao relevante tanto dos dados anotados disponveis como de dados n~ao anotados, tornando-a menos dependente do corpus de treinamento. Implementa-se o algoritmo self-training com modelos de regress~ ao logstica (ou maxima entropia) como classicador base, para anotar o corpus Bosque (a sec~ao correspondente ao CETENFolha) da Floresta Sinta(c)tica com as etiquetas do PropBank.Br. Ao algoritmo original se incorpora balanceamento e medidas de similaridade entre os argumentos de um verbo especco para melhorar o desempenho na tarefa de classicac~ao de argumentos. Usando um benchmark de avaliac~ao implementado neste trabalho, a abordagem semissupervisonada proposta obteve um desempenho estatisticamente comparavel ao de um classicador treinado supervisionadamente com uma maior quantidade de dados anotados (80,5 vs. 82,3 de \'F IND. 1\', p > 0, 01) / Semantic role labeling (SRL) is a natural language processing (NLP) task able to analyze part of the meaning of sentences through the detection of the events they describe and the participants involved, which is essential for computers to eectively understand the information coded in text. Most of the research carried out in SRL has been done for texts in English, considering the grammatical and semantic particularities of that language, which prevents those tools and results to be directly transported to other languages such as Portuguese. Most current SRL systems use supervised machine learning methods and require a big corpus of sentences annotated with semantic roles in order to learn how to perform the task properly. For Brazilian Portuguese, a lexical resource that provides this type of information has recently become available: PropBank.Br. However, in comparison with corpora for other languages such as English, the corpus provided by that project is small and it wouldn\'t allow a supervised classier to perform the labeling task with good performance. To deal with this problem, in this dissertation we use a semi-supervised approach capable of extracting relevant information both from annotated and non-annotated data available, making it less dependent on the training corpus. We implemented the self-training algorithm with logistic regression (or maximum entropy) models as base classier to label the corpus Bosque (section CETENFolha) from the Floresta Sintá(c)tica with the PropBank.Br semantic role tags. To the original algorithm, we incorporated balancing and similarity measures between verb-specic arguments so as to improve the performance of the system in the argument classication task. Using an evaluation benchmark implemented in this research project, the proposed semi-supervised approach has a statistical comparable performance as the one of a supervised classier trained with more annotated data (80,5 vs. 82,3 de \'F IND. 1\', p > 0, 01).

Anotação de papéis semânticos

Aprendizado semissupervisionado

Natural language processing

Processamento de língua natural

Semantic role labeling

Semi-supervised learning

Abordagens para aprendizado semissupervisionado multirrótulo e hierárquico / Multi-label and hierarchical semi-supervised learning approaches

Metz, Jean

25 October 2011

A tarefa de classificação em Aprendizado de Máquina consiste da criação de modelos computacionais capazes de identificar automaticamente a classe de objetos pertencentes a um domínio pré-definido a partir de um conjunto de exemplos cuja classe é conhecida. Existem alguns cenários de classificação nos quais cada objeto pode estar associado não somente a uma classe, mas a várias classes ao mesmo tempo. Adicionalmente, nesses cenários denominados multirrótulo, as classes podem ser organizadas em uma taxonomia que representa as relações de generalização e especialização entre as diferentes classes, definindo uma hierarquia de classes, o que torna a tarefa de classificação ainda mais específica, denominada classificação hierárquica. Os métodos utilizados para a construção desses modelos de classificação são complexos e dependem fortemente da disponibilidade de uma quantidade expressiva de exemplos previamente classificados. Entretanto, para muitas aplicações é difícil encontrar um número significativo desses exemplos. Além disso, com poucos exemplos, os algoritmos de aprendizado supervisionado não são capazes de construir modelos de classificação eficazes. Nesses casos, é possível utilizar métodos de aprendizado semissupervisionado, cujo objetivo é aprender as classes do domínio utilizando poucos exemplos conhecidos conjuntamente com um número considerável de exemplos sem a classe especificada. Neste trabalho são propostos, entre outros, métodos que fazem uso do aprendizado semissupervisionado baseado em desacordo coperspectiva, tanto para a tarefa de classificação multirrótulo plana quanto para a tarefa de classificação hierárquica. São propostos, também, outros métodos que utilizam o aprendizado ativo com intuito de melhorar a performance de algoritmos de classificação semissupervisionada. Além disso, são propostos dois métodos para avaliação de algoritmos multirrótulo e hierárquico, os quais definem estratégias para identificação dos multirrótulos majoritários, que são utilizados para calcular os valores baseline das medidas de avaliação. Foi desenvolvido um framework para realizar a avaliação experimental da classificação hierárquica, no qual foram implementados os métodos propostos e um módulo completo para realizar a avaliação experimental de algoritmos hierárquicos. Os métodos propostos foram avaliados e comparados empiricamente, considerando conjuntos de dados de diversos domínios. A partir da análise dos resultados observa-se que os métodos baseados em desacordo não são eficazes para tarefas de classificação complexas como multirrótulo e hierárquica. Também é observado que o problema central de degradação do modelo dos algoritmos semissupervisionados agrava-se nos casos de classificação multirrótulo e hierárquica, pois, nesses casos, há um incremento nos fatores responsáveis pela degradação nos modelos construídos utilizando aprendizado semissupervisionado baseado em desacordo coperspectiva / In machine learning, the task of classification consists on creating computational models that are able to automatically identify the class of objects belonging to a predefined domain from a set of examples whose class is known a priori. There are some classification scenarios in which each object can be associated to more than one class at the same time. Moreover, in such multilabeled scenarios, classes can be organized in a taxonomy that represents the generalization and specialization relationships among the different classes, which defines a class hierarchy, making the classification task, known as hierarchical classification, even more specific. The methods used to build such classification models are complex and highly dependent on the availability of an expressive quantity of previously classified examples. However, for a large number of applications, it is difficult to find a significant number of such examples. Moreover, when few examples are available, supervised learning algorithms are not able to build efficient classification models. In such situations it is possible to use semi-supervised learning, whose aim is to learn the classes of the domain using a few classified examples in conjunction to a considerable number of examples with no specified class. In this work, we propose methods that use the co-perspective disagreement based learning approach for both, the flat multilabel classification and the hierarchical classification tasks, among others. We also propose other methods that use active learning, aiming at improving the performance of semi-supervised learning algorithms. Additionally, two methods for the evaluation of multilabel and hierarchical learning algorithms are proposed. These methods define strategies for the identification of the majority multilabels, which are used to estimate the baseline evaluation measures. A framework for the experimental evaluation of the hierarchical classification was developed. This framework includes the implementations of the proposed methods as well as a complete module for the experimental evaluation of the hierarchical algorithms. The proposed methods were empirically evaluated considering datasets from various domains. From the analysis of the results, it can be observed that the methods based on co-perspective disagreement are not effective for complex classification tasks, such as the multilabel and hierarchical classification. It can also be observed that the main degradation problem of the models of the semi-supervised algorithms worsens for the multilabel and hierarchical classification due to the fact that, for these cases, there is an increase in the causes of the degradation of the models built using semi-supervised learning based on co-perspective disagreement

Active learning

Aprendizado ativo

Aprendizado semissupervisionado

Classificação hierárquica

Classificação multirrótulo

Hierarchical classification

Multi-label classification

Semi-supervised learning

Classificação semi-supervisionada ativa baseada em múltiplas hierarquias de agrupamento / Active semi-supervised classification based on multiple clustering hierarchies

Batista, Antônio José de Lima

08 August 2016

Algoritmos de aprendizado semi-supervisionado ativo podem se configurar como ferramentas úteis em cenários práticos em que os dados são numerosamente obtidos, mas atribuir seus respectivos rótulos de classe se configura como uma tarefa custosa/difícil. A literatura em aprendizado ativo destaca diversos algoritmos, este trabalho partiu do tradicional Hierarchical Sampling estabelecido para operar sobre hierarquias de grupos. As características de tal algoritmo o coloca à frente de outros métodos ativos, entretanto o mesmo ainda apresenta algumas dificuldades. A fim de aprimorá-lo e contornar suas principais dificuldades, incluindo sua sensibilidade na escolha particular de uma hierarquia de grupos como entrada, este trabalho propôs estratégias que possibilitaram melhorar o algoritmo na sua forma original e diante de variantes propostas na literatura. Os experimentos em diferentes bases de dados reais mostraram que o algoritmo proposto neste trabalho é capaz de superar e competir em qualidade dentro do cenário de classificação ativa com outros algoritmos ativos da literatura. / Active semi-supervised learning can play an important role in classification scenarios in which labeled data are laborious and/or expensive to obtain, while unlabeled data are numerous and can be easily acquired. There are many active algorithms in the literature and this work focuses on an active semi-supervised algorithm that can be driven by clustering hierarchy, the well-known Hierarchical Sampling (HS) algorithm. This work takes as a starting point the original Hierarchical Sampling algorithm and perform changes in different aspects of the original algorithm in order to tackle its main drawbacks, including its sensitivity to the choice of a single particular hierarchy. Experimental results over many real datasets show that the proposed algorithm performs superior or competitive when compared to a number of state-of-the-art algorithms for active semi-supervised classification.

Active learning

Active semi-supervised classification

Aprendizado ativo

Aprendizado de máquina

Clustering hierarchies.

Hierarquia de grupos.

Machine learning

Multi-Label Latent Spaces with Semi-Supervised Deep Generative Models

Rastgoufard, Rastin

18 May 2018

Expert labeling, tagging, and assessment are far more costly than the processes of collecting raw data. Generative modeling is a very powerful tool to tackle this real-world problem. It is shown here how these models can be used to allow for semi-supervised learning that performs very well in label-deficient conditions. The foundation for the work in this dissertation is built upon visualizing generative models' latent spaces to gain deeper understanding of data, analyze faults, and propose solutions. A number of novel ideas and approaches are presented to improve single-label classification. This dissertation's main focus is on extending semi-supervised Deep Generative Models for solving the multi-label problem by proposing unique mathematical and programming concepts and organization. In all naive mixtures, using multiple labels is detrimental and causes each label's predictions to be worse than models that utilize only a single label. Examining latent spaces reveals that in many cases, large regions in the models generate meaningless results. Enforcing a priori independence is essential, and only when applied can multi-label models outperform the best single-label models. Finally, a novel learning technique called open-book learning is described that is capable of surpassing the state-of-the-art classification performance of generative models for multi-labeled, semi-supervised data sets.

deep learning

semi-supervised learning

multi-label

generative models

a priori independence

open-book testing

Proposition d'une méthode spectrale combinée LDA et LLE pour la réduction non-linéaire de dimension : Application à la segmentation d'images couleurs / Proposition of a new spectral method combining LDA and LLE for non-linear dimension reduction : Application to color images segmentation

Hijazi, Hala

19 December 2013

Les méthodes d'analyse de données et d'apprentissage ont connu un développement très important ces dernières années. En effet, après les réseaux de neurones, les machines à noyaux (années 1990), les années 2000 ont vu l'apparition de méthodes spectrales qui ont fourni un cadre mathématique unifié pour développer des méthodes de classification originales. Parmi celles-ci ont peut citer la méthode LLE pour la réduction de dimension non linéaire et la méthode LDA pour la discrimination de classes. Une nouvelle méthode de classification est proposée dans cette thèse, méthode issue d'une combinaison des méthodes LLE et LDA. Cette méthode a donné des résultats intéressants sur des ensembles de données synthétiques. Elle permet une réduction de dimension non-linéaire suivie d'une discrimination efficace. Ensuite nous avons montré que cette méthode pouvait être étendue à l'apprentissage semi-supervisé. Les propriétés de réduction de dimension et de discrimination de cette nouvelle méthode, ainsi que la propriété de parcimonie inhérente à la méthode LLE nous ont permis de l'appliquer à la segmentation d'images couleur avec succès. La propriété d'apprentissage semi-supervisé nous a enfin permis de segmenter des images bruitées avec de bonnes performances. Ces résultats doivent être confortés mais nous pouvons d'ores et déjà dégager des perspectives de poursuite de travaux intéressantes. / Data analysis and learning methods have known a huge development during these last years. Indeed, after neural networks, kernel methods in the 90', spectral methods appeared in the years 2000. Spectral methods provide an unified mathematical framework to expand new original classification methods. Among these new techniques, two methods can be highlighted : LLE for non-linear dimension reduction and LDA as discriminating classification method. In this thesis document a new classification technique is proposed combining LLE and LDA methods. This new method makes it possible to provide efficient non-linear dimension reduction and discrimination. Then an extension of the method to semi-supervised learning is proposed. Good properties of dimension reduction and discrimination associated with the sparsity property of the LLE technique make it possible to apply our method to color images segmentation with success. Semi-supervised version of our method leads to efficient segmentation of noisy color images. These results have to be extended and compared with other state-of-the-art methods. Nevertheless interesting perspectives of this work are proposed in conclusion for future developments.

Classification spectrale

Classification semi supervisée

Réduction de dimension

Segmentation d'image en couleur

Spectral classification

Semi supervised classification

Dimension reduction

Segmentation of color image

Representing and Recognizing Temporal Sequences

Shi, Yifan

15 August 2006

Activity recognition falls in general area of pattern recognition, but it resides mainly in temporal domain which leads to distinctive characteristics. We provide an extensive survey over existing tools including FSM, HMM, BNT, DBN, SCFG and Symbolic Network Approach (PNF-network). These tools are inefficient to meet many of the requirements of activity recognition, leading to this work to develop a new graphical model: Propagation Net (P-Net). Many activities can be represented by a partially ordered set of temporal intervals, each of which corresponds to a primitive motion. Each interval has both temporal and logical constraints that control the duration of the interval and its relationship with other intervals. P-Net takes advantage of such fundamental constraints that it provides an graphical conceptual model to describe the human knowledge and an efficient computational model to facilitate recognition and learning. P-Nets define an exponentially large joint distribution that standard bayesian inference cannot handle. We devise two approximation algorithms to interpret a multi-dimensional observation sequence of evidence as a multi-stream propagation process through P-Net. First, Local Maximal Search Algorithm (LMSA) is constructed with polynomial complexity; Second, we introduce a particle filter based framework, Discrete Condensation (D-Condensation) algorithm, which samples the discrete state space more efficiently then original Condensation. To construct a P-Net based system, we need two parts: P-Net and the corresponding detector set. Given topology information and detector library, P-Net parameters can be extracted easily from a relatively small number of positive examples. To avoid the tedious process of manually constructing the detector library, we introduce semi-supervised learning framework to build P-Net and the corresponding detectors together. Furthermore, we introduce the Contrast Boosting algorithm that forces the detectors to be as different as possible but not necessary to be non-overlapping. The classification and learning ability of P-Nets are verified on three data sets: 1)vision tracked indoor activity data set; 2)vision tracked glucose monitor calibration data set; 3)sensor data set on simple weight-lifting exercise. Comparison with standard SCFG and HMM prove a P-Net based system is easier to construct and has a superior ability to classify complex human activity and detect anomaly.

Temporal sequence model

Propagation net

Activity recognition

Graphical model

Semi-supervised learning

Simulation methods

Pattern recognition systems

Stochastic m-estimators: controlling accuracy-cost tradeoffs in machine learning

Dillon, Joshua V.

15 November 2011

m-Estimation represents a broad class of estimators, including least-squares and maximum likelihood, and is a widely used tool for statistical inference. Its successful application however, often requires negotiating physical resources for desired levels of accuracy. These limiting factors, which we abstractly refer as costs, may be computational, such as time-limited cluster access for parameter learning, or they may be financial, such as purchasing human-labeled training data under a fixed budget. This thesis explores these accuracy- cost tradeoffs by proposing a family of estimators that maximizes a stochastic variation of the traditional m-estimator. Such "stochastic m-estimators" (SMEs) are constructed by stitching together different m-estimators, at random. Each such instantiation resolves the accuracy-cost tradeoff differently, and taken together they span a continuous spectrum of accuracy-cost tradeoff resolutions. We prove the consistency of the estimators and provide formulas for their asymptotic variance and statistical robustness. We also assess their cost for two concerns typical to machine learning: computational complexity and labeling expense. For the sake of concreteness, we discuss experimental results in the context of a variety of discriminative and generative Markov random fields, including Boltzmann machines, conditional random fields, model mixtures, etc. The theoretical and experimental studies demonstrate the effectiveness of the estimators when computational resources are insufficient or when obtaining additional labeled samples is necessary. We also demonstrate that in some cases the stochastic m-estimator is associated with robustness thereby increasing its statistical accuracy and representing a win-win.

Approximate inference

Semi-supervised learning

Parameter learning

Structured prediction

Graphical models

Machine learning

Computational complexity

Markov random fields

On discriminative semi-supervised incremental learning with a multi-view perspective for image concept modeling

Byun, Byungki

17 January 2012

This dissertation presents the development of a semi-supervised incremental learning framework with a multi-view perspective for image concept modeling. For reliable image concept characterization, having a large number of labeled images is crucial. However, the size of the training set is often limited due to the cost required for generating concept labels associated with objects in a large quantity of images. To address this issue, in this research, we propose to incrementally incorporate unlabeled samples into a learning process to enhance concept models originally learned with a small number of labeled samples. To tackle the sub-optimality problem of conventional techniques, the proposed incremental learning framework selects unlabeled samples based on an expected error reduction function that measures contributions of the unlabeled samples based on their ability to increase the modeling accuracy. To improve the convergence property of the proposed incremental learning framework, we further propose a multi-view learning approach that makes use of multiple features such as color, texture, etc., of images when including unlabeled samples. For robustness to mismatches between training and testing conditions, a discriminative learning algorithm, namely a kernelized maximal- figure-of-merit (kMFoM) learning approach is also developed. Combining individual techniques, we conduct a set of experiments on various image concept modeling problems, such as handwritten digit recognition, object recognition, and image spam detection to highlight the effectiveness of the proposed framework.

Discriminative learning

Semi-supervised learning

Incremental learning

Image modeling

Multi-view learning

Machine learning

Supervised learning (Machine learning)

Boosting (Algorithms)

Learning with Limited Supervision by Input and Output Coding

Zhang, Yi

01 May 2012

In many real-world applications of supervised learning, only a limited number of labeled examples are available because the cost of obtaining high-quality examples is high. Even with a relatively large number of labeled examples, the learning problem may still suffer from limited supervision as the complexity of the prediction function increases. Therefore, learning with limited supervision presents a major challenge to machine learning. With the goal of supervision reduction, this thesis studies the representation, discovery and incorporation of extra input and output information in learning. Information about the input space can be encoded by regularization. We first design a semi-supervised learning method for text classification that encodes the correlation of words inferred from seemingly irrelevant unlabeled text. We then propose a multi-task learning framework with a matrix-normal penalty, which compactly encodes the covariance structure of the joint input space of multiple tasks. To capture structure information that is more general than covariance and correlation, we study a class of regularization penalties on model compressibility. Then we design the projection penalty, which encodes the structure information from a dimension reduction while controlling the risk of information loss. Information about the output space can be exploited by error correcting output codes. Using the composite likelihood view, we propose an improved pairwise coding for multi-label classification, which encodes pairwise label density (as opposed to label comparisons) and decodes using variational methods. We then investigate problemdependent codes, where the encoding is learned from data instead of being predefined. We first propose a multi-label output code using canonical correlation analysis, where predictability of the code is optimized. We then argue that both discriminability and predictability are critical for output coding, and propose a max-margin formulation that promotes both discriminative and predictable codes. We empirically study our methods in a wide spectrum of applications, including document categorization, landmine detection, face recognition, brain signal classification, handwritten digit recognition, house price forecasting, music emotion prediction, medical decision, email analysis, gene function classification, outdoor scene recognition, and so forth. In all these applications, our proposed methods for encoding input and output information lead to significantly improved prediction performance.

regularization

error-correcting output codes

supervised learning

semi-supervised learning

multi-task learning

multi-label classification

dimensionality reduction

Computer Sciences