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705 results on '"AHMAD, TANVIR"'

1. Stacked ensemble\-based mutagenicity prediction model using multiple modalities with graph attention network

Author

Liyaqat, Tanya, Ahmad, Tanvir, Kashif, Mohammad, and Saxena, Chandni

Subjects
Computer Science - Machine Learning
Abstract

Mutagenicity is a concern due to its association with genetic mutations which can result in a variety of negative consequences, including the development of cancer. Earlier identification of mutagenic compounds in the drug development process is therefore crucial for preventing the progression of unsafe candidates and reducing development costs. While computational techniques, especially machine learning models have become increasingly prevalent for this endpoint, they rely on a single modality. In this work, we introduce a novel stacked ensemble based mutagenicity prediction model which incorporate multiple modalities such as simplified molecular input line entry system (SMILES) and molecular graph. These modalities capture diverse information about molecules such as substructural, physicochemical, geometrical and topological. To derive substructural, geometrical and physicochemical information, we use SMILES, while topological information is extracted through a graph attention network (GAT) via molecular graph. Our model uses a stacked ensemble of machine learning classifiers to make predictions using these multiple features. We employ the explainable artificial intelligence (XAI) technique SHAP (Shapley Additive Explanations) to determine the significance of each classifier and the most relevant features in the prediction. We demonstrate that our method surpasses SOTA methods on two standard datasets across various metrics. Notably, we achieve an area under the curve of 95.21\% on the Hansen benchmark dataset, affirming the efficacy of our method in predicting mutagenicity. We believe that this research will captivate the interest of both clinicians and computational biologists engaged in translational research., Comment: Submitted to a journal

Published
2024

2. Advancements in Molecular Property Prediction: A Survey of Single and Multimodal Approaches

Author

Liyaqat, Tanya, Ahmad, Tanvir, and Saxena, Chandni

Subjects
Computer Science - Machine Learning, Condensed Matter - Materials Science, Physics - Chemical Physics, Quantitative Biology - Biomolecules
Abstract

Molecular Property Prediction (MPP) plays a pivotal role across diverse domains, spanning drug discovery, material science, and environmental chemistry. Fueled by the exponential growth of chemical data and the evolution of artificial intelligence, recent years have witnessed remarkable strides in MPP. However, the multifaceted nature of molecular data, such as molecular structures, SMILES notation, and molecular images, continues to pose a fundamental challenge in its effective representation. To address this, representation learning techniques are instrumental as they acquire informative and interpretable representations of molecular data. This article explores recent AI/-based approaches in MPP, focusing on both single and multiple modality representation techniques. It provides an overview of various molecule representations and encoding schemes, categorizes MPP methods by their use of modalities, and outlines datasets and tools available for feature generation. The article also analyzes the performance of recent methods and suggests future research directions to advance the field of MPP., Comment: Submitted to the journal

Published
2024

3. Exploring learning environments for label\-efficient cancer diagnosis

Author

Rani, Samta, Ahmad, Tanvir, Masood, Sarfaraz, and Saxena, Chandni

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Despite significant research efforts and advancements, cancer remains a leading cause of mortality. Early cancer prediction has become a crucial focus in cancer research to streamline patient care and improve treatment outcomes. Manual tumor detection by histopathologists can be time consuming, prompting the need for computerized methods to expedite treatment planning. Traditional approaches to tumor detection rely on supervised learning, necessitates a large amount of annotated data for model training. However, acquiring such extensive labeled data can be laborious and time\-intensive. This research examines the three learning environments: supervised learning (SL), semi\-supervised learning (Semi\-SL), and self\-supervised learning (Self\-SL): to predict kidney, lung, and breast cancer. Three pre\-trained deep learning models (Residual Network\-50, Visual Geometry Group\-16, and EfficientNetB0) are evaluated based on these learning settings using seven carefully curated training sets. To create the first training set (TS1), SL is applied to all annotated image samples. Five training sets (TS2\-TS6) with different ratios of labeled and unlabeled cancer images are used to evaluateSemi\-SL. Unlabeled cancer images from the final training set (TS7) are utilized for Self\-SL assessment. Among different learning environments, outcomes from the Semi\-SL setting show a strong degree of agreement with the outcomes achieved in the SL setting. The uniform pattern of observations from the pre\-trained models across all three datasets validates the methodology and techniques of the research. Based on modest number of labeled samples and minimal computing cost, our study suggests that the Semi\-SL option can be a highly viable replacement for the SL option under label annotation constraint scenarios., Comment: Submitted to the journal

Published
2024

4. DACB-Net: Dual Attention Guided Compact Bilinear Convolution Neural Network for Skin Disease Classification

Author

Ahmad, Belal, Usama, Mohd, Ahmad, Tanvir, Saeed, Adnan, Khatoon, Shabnam, and Chen, Min

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This paper introduces the three-branch Dual Attention-Guided Compact Bilinear CNN (DACB-Net) by focusing on learning from disease-specific regions to enhance accuracy and alignment. A global branch compensates for lost discriminative features, generating Attention Heat Maps (AHM) for relevant cropped regions. Finally, the last pooling layers of global and local branches are concatenated for fine-tuning, which offers a comprehensive solution to the challenges posed by skin disease diagnosis. Although current CNNs employ Stochastic Gradient Descent (SGD) for discriminative feature learning, using distinct pairs of local image patches to compute gradients and incorporating a modulation factor in the loss for focusing on complex data during training. However, this approach can lead to dataset imbalance, weight adjustments, and vulnerability to overfitting. The proposed solution combines two supervision branches and a novel loss function to address these issues, enhancing performance and interpretability. The framework integrates data augmentation, transfer learning, and fine-tuning to tackle data imbalance to improve classification performance, and reduce computational costs. Simulations on the HAM10000 and ISIC2019 datasets demonstrate the effectiveness of this approach, showcasing a 2.59% increase in accuracy compared to the state-of-the-art., Comment: 23 pages, 18 figures, 6 tables

Published
2024

5. Bilinear-Convolutional Neural Network Using a Matrix Similarity-based Joint Loss Function for Skin Disease Classification

Author

Ahmad, Belal, Usama, Mohd, Ahmad, Tanvir, Saeed, Adnan, Khatoon, Shabnam, and Hu, Long

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this study, we proposed a model for skin disease classification using a Bilinear Convolutional Neural Network (BCNN) with a Constrained Triplet Network (CTN). BCNN can capture rich spatial interactions between features in image data. This computes the outer product of feature vectors from two different CNNs by a bilinear pooling. The resulting features encode second-order statistics, enabling the network to capture more complex relationships between different channels and spatial locations. The CTN employs the Triplet Loss Function (TLF) by using a new loss layer that is added at the end of the architecture called the Constrained Triplet Loss (CTL) layer. This is done to obtain two significant learning objectives: inter-class categorization and intra-class concentration with their deep features as often as possible, which can be effective for skin disease classification. The proposed model is trained to extract the intra-class features from a deep network and accordingly increases the distance between these features, improving the model's performance. The model achieved a mean accuracy of 93.72%., Comment: 16 pages, 11 figures, 2 tables

Published
2024

6. JMI at SemEval 2024 Task 3: Two-step approach for multimodal ECAC using in-context learning with GPT and instruction-tuned Llama models

Author

Arefa, Ansari, Mohammed Abbas, Saxena, Chandni, and Ahmad, Tanvir

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

This paper presents our system development for SemEval-2024 Task 3: "The Competition of Multimodal Emotion Cause Analysis in Conversations". Effectively capturing emotions in human conversations requires integrating multiple modalities such as text, audio, and video. However, the complexities of these diverse modalities pose challenges for developing an efficient multimodal emotion cause analysis (ECA) system. Our proposed approach addresses these challenges by a two-step framework. We adopt two different approaches in our implementation. In Approach 1, we employ instruction-tuning with two separate Llama 2 models for emotion and cause prediction. In Approach 2, we use GPT-4V for conversation-level video description and employ in-context learning with annotated conversation using GPT 3.5. Our system wins rank 4, and system ablation experiments demonstrate that our proposed solutions achieve significant performance gains. All the experimental codes are available on Github., Comment: Paper Accepted at SemEval 2024

Published
2024

7. The proportion of weight gain due to change in fat mass in infants with vs without rapid growth

Author

Johnson, William, Nyati, Lukhanyo H., Ariff, Shabina, Ahmad, Tanvir, Byrne, Nuala M., Cheikh Ismail, Leila I., Costa, Caroline S., Demerath, Ellen W., Priscilla, Divya J., Hills, Andrew P., Kuriyan, Rebecca, Kurpad, Anura V., Loechl, Cornelia U., Lucas, M. Nishani, Santos, Ina S., Slater, Christine, Wickramasinghe, V. Pujitha, Norris, Shane A., and Murphy-Alford, Alexia J.

Published
2024
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9. A Methodology for the Prediction of Drug Target Interaction using CDK Descriptors

Author

Liyaqat, Tanya, Ahmad, Tanvir, and Saxena, Chandni

Subjects
Quantitative Biology - Quantitative Methods, Computer Science - Machine Learning
Abstract

Detecting probable Drug Target Interaction (DTI) is a critical task in drug discovery. Conventional DTI studies are expensive, labor-intensive, and take a lot of time, hence there are significant reasons to construct useful computational techniques that may successfully anticipate possible DTIs. Although certain methods have been developed for this cause, numerous interactions are yet to be discovered, and prediction accuracy is still low. To meet these challenges, we propose a DTI prediction model built on molecular structure of drugs and sequence of target proteins. In the proposed model, we use Simplified Molecular Input Line Entry System (SMILES) to create CDK descriptors, Molecular ACCess System (MACCS) fingerprints, Electrotopological state (Estate) fingerprints and amino acid sequences of targets to get Pseudo Amino Acid Composition (PseAAC). We target to evaluate performance of DTI prediction models using CDK descriptors. For comparison, we use benchmark data and evaluate models performance on two widely used fingerprints, MACCS fingerprints and Estate fingerprints. The evaluation of performances shows that CDK descriptors are superior at predicting DTIs. The proposed method also outperforms other previously published techniques significantly., Comment: 12 pages, Accepted in ICONIP 2022

Published
2022

10. Discordance in exclusive breastfeeding between maternal recall and deuterium dose-to-mother technique during the first 6 months of infants: A multi-country study in Asia

Author

Winichagoon, Pattanee, Pongcharoen, Tippawan, Fadjarwati, Tetra, Winarno, Ermin, Karim, Norima A., Purevsuren, Enkhzul, Ahmad, Tanvir, Yameen, Ayesha, Hettiarachchi, Manjula, Judprasong, Kunchit, Tran Thuy, Nga, Vu Thi Thu, Hien, Islam, Munirul, Slater, Christine, Thomas, Tinku, and Murphy-Alford, Alexia J.

Published
2024
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17. Language Identification of Hindi-English tweets using code-mixed BERT

Author

Ansari, Mohd Zeeshan, Beg, M M Sufyan, Ahmad, Tanvir, Khan, Mohd Jazib, and Wasim, Ghazali

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Language identification of social media text has been an interesting problem of study in recent years. Social media messages are predominantly in code mixed in non-English speaking states. Prior knowledge by pre-training contextual embeddings have shown state of the art results for a range of downstream tasks. Recently, models such as BERT have shown that using a large amount of unlabeled data, the pretrained language models are even more beneficial for learning common language representations. Extensive experiments exploiting transfer learning and fine-tuning BERT models to identify language on Twitter are presented in this paper. The work utilizes a data collection of Hindi-English-Urdu codemixed text for language pre-training and Hindi-English codemixed for subsequent word-level language classification. The results show that the representations pre-trained over codemixed data produce better results by their monolingual counterpart.

Published
2021

18. Language Lexicons for Hindi-English Multilingual Text Processing

Author

Ansari, Mohd Zeeshan, Ahmad, Tanvir, and Bari, Noaima

Subjects
Computer Science - Computation and Language
Abstract

Language Identification in textual documents is the process of automatically detecting the language contained in a document based on its content. The present Language Identification techniques presume that a document contains text in one of the fixed set of languages, however, this presumption is incorrect when dealing with multilingual document which includes content in more than one possible language. Due to the unavailability of large standard corpora for Hindi-English mixed lingual language processing tasks we propose the language lexicons, a novel kind of lexical database that supports several multilingual language processing tasks. These lexicons are built by learning classifiers over transliterated Hindi and English vocabulary. The designed lexicons possess richer quantitative characteristic than its primary source of collection which is revealed using the visualization techniques.

Published
2021

19. A Simple and Efficient Probabilistic Language model for Code-Mixed Text

Author

Ansari, M Zeeshan, Ahmad, Tanvir, Beg, M M Sufyan, and Ikram, Asma

Subjects
Computer Science - Computation and Language
Abstract

The conventional natural language processing approaches are not accustomed to the social media text due to colloquial discourse and non-homogeneous characteristics. Significantly, the language identification in a multilingual document is ascertained to be a preceding subtask in several information extraction applications such as information retrieval, named entity recognition, relation extraction, etc. The problem is often more challenging in code-mixed documents wherein foreign languages words are drawn into base language while framing the text. The word embeddings are powerful language modeling tools for representation of text documents useful in obtaining similarity between words or documents. We present a simple probabilistic approach for building efficient word embedding for code-mixed text and exemplifying it over language identification of Hindi-English short test messages scrapped from Twitter. We examine its efficacy for the classification task using bidirectional LSTMs and SVMs and observe its improved scores over various existing code-mixed embeddings

Published
2021

20. CoRank: A clustering cum graph ranking approach for extractive summarization

Author

Siddiqui, Mohd Khizir, Ahmad, Amreen, Pal, Om, and Ahmad, Tanvir

Subjects
Computer Science - Social and Information Networks
Abstract

Online information has increased tremendously in today's age of Internet. As a result, the need has arose to extract relevant content from the plethora of available information. Researchers are widely using automatic text summarization techniques for extracting useful and relevant information from voluminous available information, it also enables users to obtain valuable knowledge in a limited period of time with minimal effort. The summary obtained from the automatic text summarization often faces the issues of diversity and information coverage. Promising results are obtained for automatic text summarization by the introduction of new techniques based on graph ranking of sentences, clustering, and optimization. This research work proposes CoRank, a two-stage sentence selection model involving clustering and then ranking of sentences. The initial stage involves clustering of sentences using a novel clustering algorithm, and later selection of salient sentences using CoRank algorithm. The approach aims to cover two objectives: maximum coverage and diversity, which is achieved by the extraction of main topics and sub-topics from the original text. The performance of the CoRank is validated on DUC2001 and DUC 2002 data sets., Comment: 19 pages, 4 figures

Published
2021

23. Homograph Language Identification Using Machine Learning Techniques

Author

Ansari, Mohd Zeeshan, Ahmad, Tanvir, Khan, Sunubia, Mabood, Faria, Faizan, Mohd, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Saraswat, Mukesh, editor, Chowdhury, Chandreyee, editor, Kumar Mandal, Chintan, editor, and Gandomi, Amir H., editor

Published
2023
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24. Comparative Analysis of Breast and Prostate Cancer Prediction Using Machine Learning Techniques

Author

Rani, Samta, Ahmad, Tanvir, Masood, Sarfaraz, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Gupta, Deepak, editor, Khanna, Ashish, editor, Bhattacharyya, Siddhartha, editor, Hassanien, Aboul Ella, editor, Anand, Sameer, editor, and Jaiswal, Ajay, editor

Published
2023
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29. Feature Selection on Noisy Twitter Short Text Messages for Language Identification

Author

Ansari, Mohd Zeeshan, Ahmad, Tanvir, and Fatima, Ana

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

The task of written language identification involves typically the detection of the languages present in a sample of text. Moreover, a sequence of text may not belong to a single inherent language but also may be mixture of text written in multiple languages. This kind of text is generated in large volumes from social media platforms due to its flexible and user friendly environment. Such text contains very large number of features which are essential for development of statistical, probabilistic as well as other kinds of language models. The large number of features have rich as well as irrelevant and redundant features which have diverse effect over the performance of the learning model. Therefore, feature selection methods are significant in choosing feature that are most relevant for an efficient model. In this article, we basically consider the Hindi-English language identification task as Hindi and English are often two most widely spoken languages of India. We apply different feature selection algorithms across various learning algorithms in order to analyze the effect of the algorithm as well as the number of features on the performance of the task. The methodology focuses on the word level language identification using a novel dataset of 6903 tweets extracted from Twitter. Various n-gram profiles are examined with different feature selection algorithms over many classifiers. Finally, an exhaustive comparative analysis is put forward with respect to the overall experiments conducted for the task.

Published
2020

30. Aspect Term Extraction using Graph-based Semi-Supervised Learning

Author

Ansari, Gunjan, Saxena, Chandni, Ahmad, Tanvir, and Doja, M. N.

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

Aspect based Sentiment Analysis is a major subarea of sentiment analysis. Many supervised and unsupervised approaches have been proposed in the past for detecting and analyzing the sentiment of aspect terms. In this paper, a graph-based semi-supervised learning approach for aspect term extraction is proposed. In this approach, every identified token in the review document is classified as aspect or non-aspect term from a small set of labeled tokens using label spreading algorithm. The k-Nearest Neighbor (kNN) for graph sparsification is employed in the proposed approach to make it more time and memory efficient. The proposed work is further extended to determine the polarity of the opinion words associated with the identified aspect terms in review sentence to generate visual aspect-based summary of review documents. The experimental study is conducted on benchmark and crawled datasets of restaurant and laptop domains with varying value of labeled instances. The results depict that the proposed approach could achieve good result in terms of Precision, Recall and Accuracy with limited availability of labeled data.

Published
2020

31. Tie Strength in Online Social Networks and its Applications: A Brief Study

Author

Saxena, Chandni and Ahmad, Tanvir

Subjects
Computer Science - Social and Information Networks
Abstract

In online social network (OSN), understanding the factors bound to the role and strength of interaction(tie) are essential to model a wide variety of network-based applications. The recognition of these interactions can enhance the accuracy of link prediction, improve in ranking of dominants, reliability of recommendation and enhance targeted marketing as decision support system. In recent years, research interest on tie strength measures in OSN and its applications to diverse areas have increased, therefore it needs a comprehensive review covering tie strength estimation systematically. The objective of this paper is to provide an in-depth review, analyze and explore the tie strength in online social networks. A methodical category for tie strength estimation techniques are discussed and analyzed in a wide variety of network types. Representative applications of tie strength estimation are also addressed. Finally, a set of future challenges of the tie strength in online social networks is discussed.

Published
2020

35. Body composition reference charts for infants from birth to 24 months: Multicenter Infant Body Composition Reference Study

Author

Murphy-Alford, Alexia J., Johnson, William, Nyati, Lukhanyo H., Santos, Ina S., Hills, Andrew P., Ariff, Shabina, Wickramasinghe, V. Pujitha, Kuriyan, Rebecca, Lucas, M.Nishani, Costa, Caroline S., Slater, Christine, Ahmad, Tanvir, Byrne, Nuala M., Divya, Priscilla J., Kurpad, Anura V., Cheikh Ismail, Leila I., Loechl, Cornelia U., and Norris, Shane A.

Published
2023
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36. Group based Centrality for Immunization of Complex Networks

Author

Saxena, Chandni, Doja, M. N., and Ahmad, Tanvir

Subjects
Computer Science - Social and Information Networks, Physics - Physics and Society
Abstract

Network immunization is an extensively recognized issue in several domains like virtual network security, public health and social media, to deal with the problem of node inoculation so as to minimize the transmission through the links existed in these networks. We aim to identify top ranked nodes to immunize networks, leading to control the outbreak of epidemics or misinformation. We consider group based centrality and define a heuristic objective criteria to establish the target of key nodes finding in network which if immunized result in essential network vulnerability. We propose a group based game theoretic payoff division approach, by employing Shapley value to assign the surplus acquired by participating nodes in different groups through the positional power and functional influence over other nodes. We tag these key nodes as Shapley Value based Information Delimiters (SVID). Experiments on empirical data sets and model networks establish the efficacy of our proposed approach and acknowledge performance of node inoculation to delimit contagion outbreak.

Published
2018
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37. Stability of Local Information based Centrality Measurements under Degree Preserving Randomizations

Author

Saxena, Chandni, Doja, M. N., and Ahmad, Tanvir

Subjects
Computer Science - Social and Information Networks, Physics - Physics and Society
Abstract

Node centrality is one of the integral measures in network analysis with wide range of applications from socio-economic to personalized recommendation. We argue that an effective centrality measure should undertake stability even under information loss or noise introduced in the network. With six local information based centrality metric, we investigate the effect of varying assortativity while keeping degree distribution unchanged, using networks with scale free and exponential degree distribution. This model provides a novel scope to analyze stability of centrality metric which can further finds many applications in social science, biology, information science, community detection and so on., Comment: 8 pages, 25 figures, Intelligent Computing and Information and Communication. Springer, Singapore, 2018. 395-403

Published
2018

43. List of contributors

Author

Ahmad, Tanvir, primary, Akıl, Muhammed Fatih, additional, Alenezi, Fayadh, additional, Ayaltı, Samet, additional, Ayanzadeh, Aydin, additional, Balıkçi, Muhammed, additional, Belli, Özge Nur, additional, Bozaba, Engin, additional, Brahnam, Sheryl, additional, Çayır, Sercan, additional, Chandhru, K., additional, Chowdhury, Shreyasi Roy, additional, Cuza, Daniela, additional, Darbaz, Berkan, additional, Erdem, Yusuf Sait, additional, Ertuğrul, Ömer Faruk, additional, Filipovich, Ihar, additional, Iheme, Leonardo Obinna, additional, İnce, Ümit, additional, Karthik, R., additional, Kayhan, Cavit Kerem, additional, Khare, Yash, additional, Kovalev, Vassili, additional, Kusetogulları, Huseyin, additional, Loreggia, Andrea, additional, Lumini, Alessandra, additional, Masood, Sarfaraz, additional, Mayalı, Berkay, additional, Mazumdar, Susmita, additional, Morani, Kenan, additional, Nahid, Abdullah-Al, additional, Nanni, Loris, additional, Önal, Sevgi, additional, Özsoy, Gülşah, additional, Öztürk, Şaban, additional, Oğuz, Abdulhalık, additional, Pesen Okvur, Devrim, additional, Polat, Kemal, additional, Radzhabov, Ahmedkhan, additional, Raihan, Md. Johir, additional, Rani, Samta, additional, Senturk, Umit, additional, Snezhko, Eduard, additional, Solmaz, Gizem, additional, Srinivasan, Makesh, additional, Tekin, Eren, additional, Tokat, Fatma, additional, Töreyin, Behçet Uğur, additional, Uçar, Mahmut, additional, Ünay, Devrim, additional, Uzel, Burak, additional, Yalçın Özyusal, Özden, additional, Yazıcı, Çisem, additional, and Yucedag, Ibrahim, additional

Published
2023
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46. An Empirical Analysis of Survival Predictors for Cancer Using Machine Learning

Author

Kaur, Ishleen, Doja, M. N., Ahmad, Tanvir, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Khanna, Ashish, editor, Gupta, Deepak, editor, Bhattacharyya, Siddhartha, editor, Hassanien, Aboul Ella, editor, Anand, Sameer, editor, and Jaiswal, Ajay, editor

Published
2022
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49. Cross Script Hindi English NER Corpus from Wikipedia

Author

Ansari, Mohd Zeeshan, Ahmad, Tanvir, and Ali, Md Arshad

Subjects
Computer Science - Information Retrieval, Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

The text generated on social media platforms is essentially a mixed lingual text. The mixing of language in any form produces considerable amount of difficulty in language processing systems. Moreover, the advancements in language processing research depends upon the availability of standard corpora. The development of mixed lingual Indian Named Entity Recognition (NER) systems are facing obstacles due to unavailability of the standard evaluation corpora. Such corpora may be of mixed lingual nature in which text is written using multiple languages predominantly using a single script only. The motivation of our work is to emphasize the automatic generation such kind of corpora in order to encourage mixed lingual Indian NER. The paper presents the preparation of a Cross Script Hindi-English Corpora from Wikipedia category pages. The corpora is successfully annotated using standard CoNLL-2003 categories of PER, LOC, ORG, and MISC. Its evaluation is carried out on a variety of machine learning algorithms and favorable results are achieved., Comment: International Conference on Intelligent Data Communication Technologies and Internet of Things (ICICI-2018)

Published
2018

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