Manufacturer’s Specification for Smart Pediatric Epilepsy Monitoring Device
Janne Heilala*
Faculty of Technology, University of Turku, Finland
*Corresponding Author: Janne Heilala, Faculty of Technology, University of Turku, Finland.
Published: September 16, 2024
DOI: 10.55162/MCET.07.234
Abstract  
Epilepsy monitoring equipment has recently shown innovative promises for metaverse-integrated devices tailored for professional pediatric use. The specification emphasizes critical biomechanical elements, including structure-to-topology optimization, for weight and durability. Key components are collected by a scoped review of books from the identification used for the design. Key components reveal high-stress areas, optimize material efficiency, and ensure biocompatibility through careful material selection. Ergonomics and comfort are prioritized for long-term wear by children, along with considerations for the device's lifespan and durability. The device's integration with Metaverse facilitates real-time monitoring and more extended data collection. The specification also outlines qualification and validation protocols. Further refinement could benefit from additional details, as simulating sensor placement, specific wear locations, and data on typical wear patterns and stress points.
Keywords: Biomechanics; User Requirements; IoT-based device; Epilepsy monitoring; Mechanical design
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