Difference between revisions of "Sequoia GNC"

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No matter what background you have, you can contribute to Sequoia GNC! You can learn about the intersection between physics, CS, and engineering and especially control theory. Here's a few aspects of our system we currently need someone to work on:
 
No matter what background you have, you can contribute to Sequoia GNC! You can learn about the intersection between physics, CS, and engineering and especially control theory. Here's a few aspects of our system we currently need someone to work on:
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! Chose a Project!
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| Write Script to Evaluate Kalman Filter Performance || A Kalman Filter is an algorithm that takes noisy measurements from multiple sources, adds in some physics and probability theory, and estimates the current state of the satellite, with uncertainties. Currently, we have an in-progress code that simulates the physics of the sattilite's rotation and a Kalman filter that gets simulated measurements from that code and estimates the orientation of the satellite. However, we need a code that runs the Kalman filter multiple times in different scenarios and evaluates its performance. This will be needed as we progress with the Kalman Filter development to evaluate its performance and identify problems. || Basic knowledge of coding (particularly Python), physics, and probability theory are helpful, but by no means necessary. We expect that this project will be a good chance to learn about these.
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| Example || Example || Example
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| Example || Example || Example
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== Overview of Sequoia GNC Architecture ==
 
== Overview of Sequoia GNC Architecture ==
  
 
[[File:SequoiaGNCArchitectureOverview.png]]
 
[[File:SequoiaGNCArchitectureOverview.png]]

Revision as of 20:15, 15 August 2020

This page describes the architecture for the Guidance, Navigation, and Control (GNC) system for the Sequoia project. Since this system is primarily focused on determining and controlling attitude, we also may refer to it as ADCS.

Sequoia GNC Onboarding

No matter what background you have, you can contribute to Sequoia GNC! You can learn about the intersection between physics, CS, and engineering and especially control theory. Here's a few aspects of our system we currently need someone to work on:

Caption text
Chose a Project!
Write Script to Evaluate Kalman Filter Performance A Kalman Filter is an algorithm that takes noisy measurements from multiple sources, adds in some physics and probability theory, and estimates the current state of the satellite, with uncertainties. Currently, we have an in-progress code that simulates the physics of the sattilite's rotation and a Kalman filter that gets simulated measurements from that code and estimates the orientation of the satellite. However, we need a code that runs the Kalman filter multiple times in different scenarios and evaluates its performance. This will be needed as we progress with the Kalman Filter development to evaluate its performance and identify problems. Basic knowledge of coding (particularly Python), physics, and probability theory are helpful, but by no means necessary. We expect that this project will be a good chance to learn about these.
Example Example Example
Example Example Example

Overview of Sequoia GNC Architecture

SequoiaGNCArchitectureOverview.png