4.7 Article

Contextual Urdu Lemmatization Using Recurrent Neural Network Models

期刊

MATHEMATICS
卷 11, 期 2, 页码 -

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MDPI
DOI: 10.3390/math11020435

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neural networks; natural language processing; inflectional morphology; derivational morphology

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Machine translation is a rapidly developing research area in natural language processing that bridges the linguistic gap to enhance human communication. The importance of normalization and morphological analyses in information retrieval for machine translation is highlighted, particularly for resource-scarce languages like Urdu. This paper introduces a lemmatization algorithm based on recurrent neural network models for Urdu, which outperforms existing models.
In the field of natural language processing, machine translation is a colossally developing research area that helps humans communicate more effectively by bridging the linguistic gap. In machine translation, normalization and morphological analyses are the first and perhaps the most important modules for information retrieval (IR). To build a morphological analyzer, or to complete the normalization process, it is important to extract the correct root out of different words. Stemming and lemmatization are techniques commonly used to find the correct root words in a language. However, a few studies on IR systems for the Urdu language have shown that lemmatization is more effective than stemming due to infixes found in Urdu words. This paper presents a lemmatization algorithm based on recurrent neural network models for the Urdu language. However, lemmatization techniques for resource-scarce languages such as Urdu are not very common. The proposed model is trained and tested on two datasets, namely, the Urdu Monolingual Corpus (UMC) and the Universal Dependencies Corpus of Urdu (UDU). The datasets are lemmatized with the help of recurrent neural network models. The Word2Vec model and edit trees are used to generate semantic and syntactic embedding. Bidirectional long short-term memory (BiLSTM), bidirectional gated recurrent unit (BiGRU), bidirectional gated recurrent neural network (BiGRNN), and attention-free encoder-decoder (AFED) models are trained under defined hyperparameters. Experimental results show that the attention-free encoder-decoder model achieves an accuracy, precision, recall, and F-score of 0.96, 0.95, 0.95, and 0.95, respectively, and outperforms existing models.

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