Satellite Attitude Determination, Communication, and Control with AI

Orbiting the Earth alongside large objects like the Hubble Telescope or the ISS, small satellites, known as CubeSats, are flown for educational or experimental purposes and are about the size of a shoebox. Two integral components of these small satellites are the ADCS, the system that controls the satellite’s position, and the communication module, the system that sends and receives information. Integrated, commercial versions of these systems are generally cost-prohibitive for a CubeSat application. The goal is to instead use individual components to make a cheaper control system and to create a board that will apply existing technology to the CubeSat scale. The solutions we create will lead to better control of the satellite and increased ability to send information to ground. This larger rate of data transfer allows for more complex functionality, like running a Star Tracker, to occur.

=Problem Definition= Team Tardigrades' first primary goal will be to complete the development of the hardware and software for the Iridium 9523 Satellite Modem and its associated carrier module. This year will be the conclusive year on the project as it was started in the Fall of 2018 by the Capstone research team SCUBEE. The Iridium 9523 is capable of communications in the form of Short Burst Data (SBD) and stream network (RUDICS) modes. It has current use in NASA’s REBR program and The ESA’s QARMAN satellite. By completing this project, the effort put into the 9523 Satellite and its carrier will significantly improve the communication of smaller satellites in use. The design for this project is a fraction of the cost and complexity of standard satellite communication through radio modems. With progress already made on the project through the design team SCUBEE and team FIRE, a final flight-ready unit is a deliverable at the end of the project. If the project can uphold the deadline, the satellite could see a flight opportunity in 2021.

This portion of the project can be broken down into 3 main components:  The software necessary to provide encrypted communication from the ground server to the satellite. Managing firmware development between the dev board and the SAMD51. Designing a Radio Frequency power boost converter. 

This portion of the project can be broken down into 4 main components:  Consult materials against radiation shielding Develop control and firmware needed Development of electronic components and firmware for Sun Sensors, Magnetometers, and IMU Consult components to research and manufacture including torque rods, PCB Magnetorquers and Reaction Wheels</li> </ul>

Background
The Nano Orbital Workshop (NOW) department at NASA Ames focuses on finding cost-efficient solutions to small satellite development. This department researches cutting-edge development in computer science and engineering to create novel low-cost technology. The NOW Group has partnered with the University of Idaho's research initiative for many years to introduce students to the innovations in satellite development. These interest groups can complete educational satellites and see demonstrations through flight. With the recent launch of the TES-10 satellite, the NOW group is focusing on the use of GPU processors in space. Some of the current interests in GPU processors can be seen in its ability for autonomous navigation, onboard network communications for data transfer, and guided reentry via Exo-Brake technology. This year, the team will be focusing on the continuation of the use of the TFLOP GPU processors and begin the design and prototype for a new electromechanical satellite system.

Iridium 9523
 The software necessary to provide encrypted communication from the ground server to the satellite.</li> Managing firmware development between the dev board and the SAMD51.</li> Designing a Radio Frequency power boost converter.</li> </ul>

ADCS
 Consult materials against radiation shielding</li> Develop control and firmware needed</li> Development of electronic components and firmware for Sun Sensors, Magnetometers, and IMU</li> Consult components to research and manufacture including torque rods, PCB Magnetorquers and Reaction Wheels</li> </ul>

Specifications
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Project Schedule



Meeting Minutes

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Client Interview