TY - EJOU AU - Al-onazi, Badriyya B. AU - Alotaibi, Najm AU - Alzahrani, Jaber S. AU - Alshahrani, Hussain AU - Elfaki, Mohamed Ahmed AU - Marzouk, Radwa AU - Othman, Mahmoud AU - Motwakel, Abdelwahed TI - Modified Dragonfly Optimization with Machine Learning Based Arabic Text Recognition T2 - Computers, Materials \& Continua PY - 2023 VL - 76 IS - 2 SN - 1546-2226 AB - Text classification or categorization is the procedure of automatically tagging a textual document with most related labels or classes. When the number of labels is limited to one, the task becomes single-label text categorization. The Arabic texts include unstructured information also like English texts, and that is understandable for machine learning (ML) techniques, the text is changed and demonstrated by numerical value. In recent times, the dominant method for natural language processing (NLP) tasks is recurrent neural network (RNN), in general, long short term memory (LSTM) and convolutional neural network (CNN). Deep learning (DL) models are currently presented for deriving a massive amount of text deep features to an optimum performance from distinct domains such as text detection, medical image analysis, and so on. This paper introduces a Modified Dragonfly Optimization with Extreme Learning Machine for Text Representation and Recognition (MDFO-EMTRR) model on Arabic Corpus. The presented MDFO-EMTRR technique mainly concentrates on the recognition and classification of the Arabic text. To achieve this, the MDFO-EMTRR technique encompasses data pre-processing to transform the input data into compatible format. Next, the ELM model is utilized for the representation and recognition of the Arabic text. At last, the MDFO algorithm was exploited for optimal tuning of the parameters related to the ELM method and thereby accomplish enhanced classifier results. The experimental result analysis of the MDFO-EMTRR system was performed on benchmark datasets and attained maximum accuracy of 99.74%. KW - Arabic corpus; dragonfly algorithm; machine learning; text mining; extreme learning machine DO - 10.32604/cmc.2023.034196