Ekrem Varoğlu scite author profile

Named Entity Recognition (NER) from text constitutes the first step in many text mining applications. The most important preliminary step for NER systems using machine learning approaches is tokenization where raw text is segmented into tokens. This study proposes an enhanced rule based tokenizer, ChemTok, which utilizes rules extracted mainly from the train data set. The main novelty of ChemTok is the use of the extracted rules in order to merge the tokens split in the previous steps, thus producing longer and more discriminative tokens. ChemTok is compared to the tokenization methods utilized by ChemSpot and tmChem. Support Vector Machines and Conditional Random Fields are employed as the learning algorithms. The experimental results show that the classifiers trained on the output of ChemTok outperforms all classifiers trained on the output of the other two tokenizers in terms of classification performance, and the number of incorrectly segmented entities.

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Recognizing Biomedical Named Entities Using SVMs: Improving Recognition Performance with a Minimal Set of Features

Dimililer

Varoğlu

2006

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Classifier subset selection for biomedical named entity recognition

2008

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Classifier ensembling approach is considered for biomedical named entity recognition task. A vote-based classifier selection scheme having an intermediate level of search complexity between static classifier selection and real-valued and class-dependent weighting approaches is developed. Assuming that the reliability of the predictions of each classifier differs among classes, the proposed approach is based on selection of the classifiers by taking into account their individual votes. A wide set of classifiers, each based on a different set of features and modeling parameter setting are generated for this purpose. A genetic algorithm is developed so as to label the predictions of these classifiers as reliable or not. During testing, the votes that are labeled as being reliable are combined using weighted majority voting. The classifier ensemble formed by the proposed scheme surpasses the full object F-score of the best individual classifier by 2.75% and it is the highest score achieved on the data set considered.

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Vote-Based Classifier Selection for Biomedical NER Using Genetic Algorithms

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Varoğlu

Altınçay

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Abstract. We propose a genetic algorithm for constructing a classifier ensemble using a vote-based classifier selection approach for biomedical named entity recognition task. Assuming that the reliability of the predictions of each classifier differs among classes, the proposed approach is based on dynamic selection of the classifiers by taking into account their individual votes. During testing, the classifiers whose votes are considered as being reliable are combined using weighted majority voting. The classifier ensemble formed by the proposed scheme surpasses the full object F-score of the best individual classifier and the ensemble of all classifiers by 2.5% and 1.3% respectively.

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Balanced undersampling: a novel sentence-based undersampling method to improve recognition of named entities in chemical and biomedical text

2017

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Ekrem Varoğlu

ChemTok: A New Rule Based Tokenizer for Chemical Named Entity Recognition

Recognizing Biomedical Named Entities Using SVMs: Improving Recognition Performance with a Minimal Set of Features

Classifier subset selection for biomedical named entity recognition

Vote-Based Classifier Selection for Biomedical NER Using Genetic Algorithms

Balanced undersampling: a novel sentence-based undersampling method to improve recognition of named entities in chemical and biomedical text

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