Catalyzing Healthcare Advancements: Integrating IoT-Driven Smart Systems and Deep Learning for Precision Breast Cancer Detection in Telemedicine.

Background: Timely detection and treatment of serious diseases, including cancer, are crucial for saving lives and improving longevity. The Internet of Medical Things (IoMT) holds promise for enhancing healthcare by enabling real-time disease identification through automated image analysis. However, integrating large deep learning models with IoMT devices poses challenges. Objective: This study aims to develop an efficient deep learning model, "EffiPathNet," specifically designed for analyzing histopathological images with a focus on achieving both accuracy and speed. Method: EffiPathNet was developed to address the challenges associated with large models and to ensure compatibility with IoMT imaging devices. The model was tested on a reputable histopathological image dataset, evaluating its accuracy, speed, and computational requirements. Result: EffiPathNet achieved an average accuracy of 97.79% and a 0.987 F1 score, demonstrating its exceptional ability to accurately classify histopathological images. The model's lightweight design, requiring only a few kilobytes in size, enhances its compatibility with IoMT imaging devices. Main Findings: The study highlights EffiPathNet's efficacy in accurately classifying histopathological images and its potential for integration with IoMT devices. The lightweight design further enhances its suitability for practical IoMT applications. Conclusion: EffiPathNet emerges as a promising solution for real-time disease identification in histopathological images, combining high accuracy with computational efficiency. Its compatibility with IoMT devices suggests its potential for practical implementation in healthcare settings, contributing to timely and effective medical interventions. [ABSTRACT FROM AUTHOR]