- Adam Yozwiak - awy23 (@cornell.edu)
- Dr. Mark Campbell
- Dr. Mark Psiaki
- Liran Gazit - lg345
The Attitude Determination, Control, and Navigation Subsystem (ADCNS) executes the relative navigation that will be used for CUSat's in-orbit inspection procedures. CUSat will primarily be using three GPS boards for attitude determination. For attitude control, CUSat will be using pulsed-plasma thrusters (PPTs) and torque coils. The software portion of ADCNS will consist of the relative navigation algorithms, which will run the various modes of operation defined by the CONOPs.
|Shawn Bonneau - slb298||Tunc Ertan - te53|
|Jeremy Feinstein - jlf248||Mark Hendrick - mh648|
|Stuart Jackson - saj52||Jin-Sung Kim - jk738|
The Flight Operations team defines the detailed, on orbit operations plan for both CUSat satellites. Operating procedures are defined to match with hardware and mission specifications and help ensure successful execution of the mission.
|Michael Boor - mdb236||Sarah Brotman - smb375|
|Alexandra Hilbert - amh275||Timothy Kim - tjk68|
|Wenceslaus Lee - wwl45||Joseph Mongeluzzi - jam634|
The InControl-Dev team develops InControl ground control software for CUSat flight operations. This includes interfacing between ground systems, implementing software that allows for easy control and communication with both satellites, and supporting mission operators.
|Joseph Mongeluzzi - jam634|
The CUSat Satellite project employs Systems Engineering extensively. The Systems group is largely responsible for providing the project with direction by creating top level system requirements, creating best practices, maintaining communications, making design choices, and creating processes for creating a successful product. Each of the subsystem leads also participates as a member of the Systems group, which allows the project to maintain consistency and focus.
|Michael Goetz - mag222|
The Ground Segment team ensures proper implementation of CUSat ground operations. This includes building and coordinaing the four ground stations (Ithaca, Redondo Beach, Colorado Springs, and Kwaj) as well as implementing software that allows for easy control and communication with both satellites.
|Clement Ng - ycn3||Haines Sy - hls54|