Cornell University Sustainable Design
Cornell University's Sustainable Design Project Team aims to reinvent bus stops in Tompkins County using empathy fieldwork and solar power.
As a member of the mechanical team, we focused on the design and successful operation of the entire system.
Explore our Website to learn more.
Bench, Electronics Enclosure
- 2019
- Autodesk Fusion 360
- A model of the bench design and layout which houses the primary electronics that power the bus shelter. Features an AC-DC inverter, charge controller, Raspberry Pi, batteries, and climate control mechanisms. Once built, empirical data was gathered to test and control the temperature profile.
Cornell University Autonomous Bicycle
Cornell University's Autonomous Bicycle Project Team aims to build a self-steering, self-balancing, and self-navigating bycicle.
As the former Systems lead, my team's responsibilities were to design and maintain
our bikes' electronic hardware and mechanical operations. Explore our
GitHub or
Website to learn more.
Secondary Electronics Housing
- 2018
- Autodesk Fusion 360, 3D Printed ABS
- A photo of the finished "brain" box installed on the bicycle's frame. The seat was removed to interface with the hollow angled shaft, and the front is split-clamped to the horizontal frame.
Inertial Measurement Unit Case
- 2017
- Autodesk Fusion 360, 3D Printed ABS
- A model of a case for our inertial measurement units. This was a challenging design because it could not be permanent and specific spacial and accessibility considerations had to be made.
Motor Controller Case
- 2017
- Autodesk Fusion 360, 3D Printed ABS
- 3D printed case for our Steer-by-wire bicycle's front motor controller.
Landing Gear
- 2017
- Autodesk Fusion 360, Machined Aluminum
- A model of our autonomous bike's landing gear, depicting the baseplate-hardstop, limit-switch placement, and switch activation mechanism I designed in order to improve the safety and effectiveness of the system.