This summer, I had the pleasure to work at a startup, Figur8, which seeks to digitize 3D body movement easily for everyone. The sensor is encased in a rectangular shape, and one of the projects I worked on was to develop a new hardware attachment that could place the sensor on different parts of the body. A hardware attachment needed to be made that securely holds the sensor to one's arm, shoe, wrist, and hip.
This summer, I had the pleasure to work at a startup, Figur8, which seeks to digitize 3D body movement easily for everyone. The sensor is encased in a rectangular shape, and one of the projects I worked on was to develop a new hardware attachment that could place the sensor on different parts of the body. A hardware attachment needed to be made that securely holds the sensor to one's arm, shoe, wrist, and hip.
This summer, I had the pleasure to work at a startup, Figur8, which seeks to digitize 3D body movement easily for everyone. The sensor is encased in a rectangular shape, and one of the projects I worked on was to develop a new hardware attachment that could place the sensor on different parts of the body. A hardware attachment needed to be made that securely holds the sensor to one's arm, shoe, wrist, and hip.
This summer, I had the pleasure to work at a startup, Figur8, which seeks to digitize 3D body movement easily for everyone. The sensor is encased in a rectangular shape, and one of the projects I worked on was to develop a new hardware attachment that could place the sensor on different parts of the body. A hardware attachment needed to be made that securely holds the sensor to one's arm, shoe, wrist, and hip.
This summer, I had the pleasure to work at a startup, Figur8, which seeks to digitize 3D body movement easily for everyone. The sensor is encased in a rectangular shape, and one of the projects I worked on was to develop a new hardware attachment that could place the sensor on different parts of the body. A hardware attachment needed to be made that securely holds the sensor to one's arm, shoe, wrist, and hip.
Northrop Grumman
Defining the future.
Overview
Company
Position
Roles
Period
Skills
Location
Mechanical Engineering Intern
R & D Researcher, Project Manager
June - Aug 2017
Northrop Grumman
Experimental Design, Troubleshooting, Researching, Using TCs,, Data Analysis
Palmdale & El Segundo, California
Objective
I had various assignments during my internship at Northrop Grumman. I was assigned to manage and design experiments to test different applications of paint coats using TCs and verify their data. I also worked in their R&D department to look into different alternatives to auto-claving.
Auto-claving is when a pressure chamber used to carry out industrial and scientific processes requiring elevated temperature and pressure different from ambient air pressure. Using past research studies that also sought to look for alternates, I was able to organize and troubleshoot through a process-plan to research and create an alternative to auto-claving through IR heating.
Many of the specifics of my projects are proprietary in nature, so I will not disclose this information on my portfolio. Please let me know if you have further questions concerning this project and/or internship.