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.
Schlumberger
Developing Safer and New Technologies.
CFD Analysis, ANSYS, Flow/Fluid Dynamics
Rosharon, Texas
Schlumberger
Mechanical Design/Engineering Intern
R&D Researcher, Product Developer, Project Manager
June - Aug 2019
Company
Position
Roles
Period
Skills
Location
Overview
As Schlumberger I was assigned to a new product development team and was given the role to lead the early design phase for an add-on module that would be attached to a oil well. The purpose was to increase the erosion resistance of certain parts of the assembly through the add-on module.
Constraints in this engineering project included unique geometry, material properties, cost, maneuverability, modularity, and system integration. To assist me in narrowing down design ideas, I used CFD analysis through ANSYS and basic fluid/flow dynamics knowledge.
Objective
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.