Limitation of the classical health monitoring and location tracking technology tends to impair the human safety and operational efficiency during emergency health situations. Traditional systems are usually not sufficient in capturing real-time physiological data, are lowly connected in far places, and must be triggered manually during emergency situations. This study introduces the design and deployment of an Internet of Things (IoT)-based solution that would overcome these drawbacks and allow the permanent physiological monitoring and geolocation in real time. The system is supplemented with wearable sensors that can measure the most vital health parameters, including the heart rate, the blood oxygen saturation (SpO₂), and the geography position, measured with the assistance of the MAX3010 sensor module. The sensor data are delivered to an HTTP-enabled IoT server and shown in a web-based dashboard, which provides an opportunity to remotely monitor the patient in real-time and respond immediately in case of emergency. In addition, it introduces another line of approach, namely enhancing situational awareness, operational responsiveness, and survival of individuals in potential dangerous circumstances.