SAFETY GLOVES AND HEALTH MONITORING OF ELECTRICIANS
Kanakashree R1, Madalambika M2, Deepak B C3, Harshith M N4, Dr. Shamala N5
1Kanakashree R, department of EEE & Vidya Vikas institute of engineering and technology 2Madalambika M, department of EEE & Vidya Vikas institute of engineering and technology 3Deepak B C, department of EEE & Vidya Vikas institute of engineering and technology 4Harshith M N department of EEE & Vidya Vikas institute of engineering and technology
5Dr.Shamala N, Professor & HOD department of EEE & Vidya Vikas institute of engineering and technology
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Abstract - In an era characterized by increasing demands for safety and efficiency, the need for advanced monitoring and emergency response systems is paramount, particularly in high-risk occupations such as line checking personnel in various industries. To address this need, we propose a comprehensive health monitoring and emergency response system designed to safeguard the well-being of line checking personnel during their operations. The core features of our system include a panic button integrated with GPS technology, health monitoring capabilities, and AC current sensing functionalities. The panic button serves as an immediate distress signal mechanism, enabling personnel to alert authorities in case of emergencies or hazardous situations. Upon activation, the system swiftly retrieves the user's live location through GPS and transmits it to designated authorities via a GSM module, facilitating prompt response and assistance. Simultaneously, the health monitoring aspect of the system continuously tracks vital signs crucial for assessing the user's well-being. Sensors measuring heart rate and blood oxygen saturation (SpO2) provide real-time data, which is securely uploaded to the Blynk cloud platform for remote monitoring by designated personnel. This feature not only enables early detection of health issues but also facilitates proactive intervention when necessary, enhancing overall safety and health management. Moreover, the inclusion of an AC current sensor adds an additional layer of functionality to the system. By monitoring the electrical current drawn by personnel during their tasks, the system can detect anomalies or irregularities that may indicate potential hazards or operational inefficiencies. This data, along with health metrics and location information, contributes to a comprehensive overview of personnel safety and operational status. Overall, our proposed system represents a holistic approach to health monitoring and emergency response for line checking personnel. By integrating cutting-edge technologies and robust data transmission mechanisms, it offers enhanced safety, efficiency, and peace of mind for both personnel and supervisory authorities, ultimately contributing to a safer and more productive work environment.
