Smart Rescue Manikin

Better solution for rescuers' training

This project involved the development of a sophisticated medical smart half-body manikin tailored for Red Cross rescuer training. The manikin facilitates practice in artificial respiration and cardiac resuscitation, incorporating a standardized grading system for enhanced learning. In my capacity as an STM32 programmer, I focused on sensor integration and crafting an intuitive graphical user interface for a compact touchscreen embedded within the manikin.

My role in this project

I undertook a captivating project focused on enhancing rescue training through the development of a smart manikin designed to refine the skills of first responders. The innovative manikin incorporated advanced sensors, including a HAL sensor and a magnet to measure air pressure in the lungs and the chest compression. These sensors were seamlessly integrated with an STM32F4 microcontroller, enabling precise calculations of chest compression through a rotary encoder and lung air pressure. I meticulously crafted scenarios to simulate real-life rescue situations, providing students with a dynamic learning experience.

To complement the technical aspects, I designed and implemented a user-friendly graphical interface using the STM32 microcontroller, showcased on a touch-screen LCD. The graphical user interface (GUI) not only facilitated interaction with the manikin but also displayed critical information and real-time feedback to the trainees. Through this project, I aimed to offer a comprehensive learning tool for rescuers, complete with scenario-based point calculations and detailed reports. This remarkable product serves as an invaluable resource, empowering individuals in the field to master the intricacies of cardiac and respiratory resuscitations, ultimately contributing to more effective and confident emergency responses.

Smart Rescue Manikin Video

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