Journal of Intelligent Systems and Internet of Things JISIoT 2690-6791 2769-786X 10.54216/JISIoT https://www.americaspg.com/journals/show/2493 2019 2019 Department of ECE, Vel Tech Rangarajan Dr. Saguthala R&D institute of Science and Technology, Chennai, Tamil Nadu, India S. S. Department of IT, MLRITM Engineering College, Hyderabad, India Dınesh Valluru Department of Information Technology, Seshadri Rao Gudlavalleru Engineering College, Gudlavalleru, Krishna district, Andhra Pradesh, India Siva Satya Sreedhar. .. Department of Computer Science and Engineering, R. M. D. Engineering College, Kavaraipettai, Tiruvallur, Tamil Nadu, India N. Ramshankar Department of Electronics and communication Engineering, Christ University, School of Engineering and Technology, Bangalore, India Sujatha. .. Management Studies Department, Kongu Engineering College, Erode 638060 India Somasundaram. R. Department of ECE, Paavai Engineering College (Autonomous), Namakkal,Tamilnadu, India M. Sudha Department of ECE, Saveetha Engineering College, Chennai. Tamil Nadu, India S. Navaneethan Recently, healthcare systems integrate the power of deep learning (DL) models with the connectivity and data processing capabilities of the Internet of Things (IoT) to enhance the early recognition and diagnosis of disease. Oral cancer diagnosis comprises the detection of cancerous or pre-cancerous abrasions in the oral cavity. Timely identification is essential for successful treatment and enhanced prognosis. Here is an overview of the key aspects of oral cancer diagnosis. One potential benefit of utilizing DL for oral cancer detection is that it analyses huge counts of data fast and accurately, and it could not need clear programming of the rules for recognizing abnormalities. This can create the procedure of detecting oral cancer more effective and efficient. Thus, the study presents an Enhanced Jaya Optimization Algorithm with Deep Learning Based Oral Cancer Classification (EJOADL-OCC) method. The presented EJOADL-OCC method aims to classify and detect the existence of oral cancer accurately and effectively. To accomplish this, the presented EJOADL-OCC method initially exploits median filtering for the noise elimination. Next, the feature vector generation process is performed by the residual network (ResNetv2) model with EJOA as a hyperparameter optimizer. For accurate classification of oral cancer, a continuously restricted Boltzmann machine with a deep belief network (CRBM-DBN) model. The simulated validation of the EJOADL-OCC algorithm is tested by the series of simulations and the outcome demonstrates its supremacy over present DL approaches. 2024 2024 97 110 10.54216/JISIoT.110209 https://www.americaspg.com/articleinfo/18/show/2493