Smart Medical Mirror

Smart Medical Mirror

Mr. Prasanna Kumar M J                                                        Shalini S

Assistant Proffesor                                                                   20CSE073

Computer Science & Engineering                                             Computer Science & Engineering

BGS Institute of Technology                                                     BGS Institute of Technology

Adhichunchanagiri University                                                   Adhichunchanagiri University

ABSTRACT — The abstract of the paper introduces the concept of a smart medical mirror system designed to address the challenge of irregular medical check-ups by providing users with a convenient and effortless means of monitoring their basic vital signs. The system aims to detect health issues early by enabling continuous monitoring of parameters such as heart rate, SPO2, body temperature, and BMI. By leveraging the ubiquity of mirrors in homes, the proposed system integrates sensors and processing units within a mirror structure to deliver real-time health information to users during their daily routines. The paper outlines the hardware and software design of the system, detailing sensor selection, processing unit configuration, and mechanical assembly.

Validation of the system's accuracy and usability is conducted through testing on multiple users, demonstrating coherence with FDA-approved medical systems. The abstract emphasizes the potential of the smart medical mirror to encourage regular health monitoring and suggests future enhancements to expand its functionality.

In modern society, the challenge of neglecting regular medical check-ups due to time constraints or lack of motivation persists. To address this issue, a novel solution is proposed: a smart medical mirror system that seamlessly integrates into daily routines, offering effortless measurement of vital signs such as heart rate, SPO2, body temperature, and BMI. This paper details the development and testing of the system, which utilizes a combination of sensors, processing units, and mechanical design to achieve its functionality. Results from user testing demonstrate the system's accuracy, usability, and potential to encourage regular health monitoring. The findings suggest that such innovative technologies hold promise in promoting proactive healthcare practices.

Keywords: Sensor Integration, Arduino Programming, Raspberry Pi Programming, Home Healthcare