TY  - EJOU
AU  - Duhayyim, Mesfer Al 
AU  - Al-onazi, Badriyya B. 
AU  - Alzahrani, Jaber S. 
AU  - Alshahrani, Hussain 
AU  - Elfaki, Mohamed Ahmed 
AU  - Mohamed, Abdullah 
AU  - Yaseen, Ishfaq 
AU  - Mohammed, Gouse Pasha 
AU  - Rizwanullah, Mohammed 
AU  - Zamani, Abu Sarwar 

TI  - Multi-Versus Optimization with Deep Reinforcement Learning Enabled Affect Analysis on Arabic Corpus
T2  - Computer Systems Science and Engineering

PY  - 2023
VL  - 47
IS  - 3
SN  - 

AB  - Sentiment analysis (SA) of the Arabic language becomes important despite scarce annotated corpora and confined sources. Arabic affect Analysis has become an active research zone nowadays. But still, the Arabic language lags behind adequate language sources for enabling the SA tasks. Thus, Arabic still faces challenges in natural language processing (NLP) tasks because of its structure complexities, history, and distinct cultures. It has gained lesser effort than the other languages. This paper developed a Multi-versus Optimization with Deep Reinforcement Learning Enabled Affect Analysis (MVODRL-AA) on Arabic Corpus. The presented MVODRL-AA model majorly concentrates on identifying and classifying effects or emotions that occurred in the Arabic corpus. Firstly, the MVODRL-AA model follows data pre-processing and word embedding. Next, an n-gram model is utilized to generate word embeddings. A deep Q-learning network (DQLN) model is then exploited to identify and classify the effect on the Arabic corpus. At last, the MVO algorithm is used as a hyperparameter tuning approach to adjust the hyperparameters related to the DQLN model, showing the novelty of the work. A series of simulations were carried out to exhibit the promising performance of the MVODRL-AA model. The simulation outcomes illustrate the betterment of the MVODRL-AA method over the other approaches with an accuracy of 99.27%.
KW  - Arabic language; Arabic corpus; natural language processing; affect analysis; deep learning

DO  - 10.32604/csse.2023.033836