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Process Monitoring and Control in Dermatological Diagnosis: A Deep Learning Approach using Python, NumPy, Pandas, Keras, and TensorFlow
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1  Department of Computer science and engineering, school of engineering and technology, GIET University, Gunupur, Odisha, India
Academic Editor: Wen-Jer Chang

Abstract:

Context: This paper delves into integrating machine learning techniques into dermatological diagnostics, specifically focusing on identifying and evaluating skin diseases. The aim is to revolutionize dermatology by leveraging AI algorithms and image recognition methods to enhance the accuracy and efficiency of dermatological analysis, ultimately improving patient outcomes.

Objective: The primary goal of this article is to develop an AI-driven tool for rapid and precise skin condition diagnostics. By harnessing machine learning and image analysis, we aim to redefine dermatological diagnostics and enhance patient care.

Materials/Methods: Using the HAM10000 dataset comprising 10,000 dermatoscopic images of various skin lesions, we employed a pre-trained convolutional neural network (CNN) model, refined through transfer learning. Data preprocessing involved normalization and scaling, with model training conducted using Keras with a TensorFlow backend. Evaluation metrics like F1 score, recall, accuracy, and precision were used. An intuitive online interface facilitated seamless image input, and robustness testing was performed through validation using unseen data. The entire process adhered to dermatological and machine learning best practices, ensuring accurate disease classification.

Conclusion: In summary, this skin detection and analysis project holds promising prospects for dermatological experts and individuals alike, signifying a significant advancement in dermatological diagnosis. Leveraging AI and image recognition technology, this innovation has the potential to revolutionize skin health assessment and treatment, leading to improved healthcare outcomes. Through continuous research and development, it can empower individuals to take proactive measures for their skin health.

Keywords: Disese prediction ,Deep learning ,dermatoscopic images
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