Tricorder-Like Device Design Project

The main goal for the project is to create three 3D renderings of tricorder-like devices, modernized for contemporary use in the rock, gem, and fossil industry. The prototypes will be designed in three versions: an industrial model, a phone attachment model, and a handheld model. The primary function of these devices will be to analyze and identify the composition of rocks, gems, and fossils, and present the results in a user-friendly manner to democratize access to scientific information.

Ammolite-Powered Secure Microchip Prototype Development

The project aims to design and 3D model a functional prototype of an ammolite-powered microchip, leveraging the unique optical properties of ammolite to enhance security features. The primary goal is to integrate Physical Unclonable Functions (PUFs) and quantum-resistant cryptographic protocols into the design, providing unparalleled security and authentication. This project offers learners the opportunity to apply their knowledge of advanced circuit design and cryptography in a simulated, practical setting. The 3D model will serve as a foundational concept for visualizing and refining the product, with the potential for large-scale implementation across various industries. The project focuses on creating a secure and efficient microchip concept that can withstand emerging security threats, ensuring robust protection for sensitive data.