InfaSafe, an innovative infant health monitoring system, has been developed by a team of Illinois Institute of Technology students, earning the prestigious Grainger Computing Innovation Prize. This advanced system integrates artificial intelligence with non-invasive monitoring techniques to combat Sudden Unexpected Infant Death (SUID) and enhance neonatal care. Utilizing AI-driven features for real-time pose estimation, breathing surveillance, and cry analysis, InfaSafe offers a comprehensive approach to monitoring infant well-being.
The system's core is powered by AI technologies, including pose analysis and audio monitoring, combined with thermal imaging. These features enable InfaSafe to detect crucial factors such as sleeping position, breathing rate, and ambient conditions, providing caregivers and medical professionals with a detailed view of an infant's safety and health. InfaSafe's scalable architecture and automated data archiving capabilities make it not only a tool for immediate infant care but also a valuable asset for advanced medical research.
InfaSafe emphasizes privacy and security, processing and storing data locally to protect sensitive information. The accompanying InfaSafe app enhances user experience with live monitoring and instant notifications, catering to both individual caregivers and larger institutions like hospitals. This project represents a significant step forward in infant healthcare technology, demonstrating the potential of AI and computing to address critical challenges in healthcare and society.