The target audience are middle schoolers but the workshop is accessible to anyone capable of learning to program in Scratch. The program concludes with a tour the Fairfield University engineering labs, machine shop, and 3D printing center.ĬT Public Library Middle School Robotics WorkshopsĬT Public Library Robotics Workshops promotes robotics by presenting workshops at interested Connecticut public libraries. The aim is to increase confidence and curiosity about STEM subjects and to inspire them to pursue engineering education and careers. Students will learn about the engineering design process, experimental design and analysis using Biomedical Engineering themed activities. This program seeks to engage approximately 15 middle-school students from under-represented backgrounds through innovative hands-on STEM curriculum delivered by Fairfield University undergraduate students. Susan Freudzon seeks funding to support a STEM afterschool program at the Wakeman Boys and Girls Club in Bridgeport, CT. Faculty STEM Education Programmingīiomedical STEM Outreach in Bridgeport, CTĭr. These filaments will then be used to fabricate two theoretically novel imaging and communication metamaterial devices, an angle-independent Salisbury screen and a band-pass optical filter. In this project, we propose to develop, produce, and test a variety of new conductive and semi-conductive filaments that can be implemented into 3D printing technologies. A persistent obstacle in their realization is fabrication and production. Both of these are of the utmost importance in NASA’s Science Mission Directorate (SMD) and Space Technology Mission Directorate (STMD). Metamaterials, light manipulating synthetic materials not found in nature, have the potential to produce revolutionary effects in space communication and imaging. It has a close relevance to areas of interest of NASA’s Space Technology Mission Directorate (STMD).ĭevelopment and Fabrication of Conductive Filaments in 3D Printing for Design of Multiscale Metamaterial Devices for Space Communication and Imaging This project aims to provide opportunities for undergraduate student involvement on early research and education in optics and photonic. Light field based multidimensional information extraction, reconstruction and visualization can enhance users’ knowledge of the observation. Signal processing approaches and algorithms will to be investigated for computational reconstruction and optical display. We plan to integrate and extend light field imaging into higher-dimensions which contains the spacial, temporal and polarimetric information. This project is focus on the multidimensional light field sensing and visualization technologies. Multidimensional Light Field Imaging and Visualization
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