Python simulation of CubeSat attitude control using pyramid-configured reaction wheels. Features quaternion-based cascaded controller, wheel saturation logic, fault tolerance, and real-time 3D animation. Modular architecture for easy customization and learning.
This is the main repository for the codes for Spacecraft Attitude Control course Final Project - Politecnico di Milano
🛰️ Detumbling-Simulator is a MATLAB simulator for magnetic detumbling of fast-tumbling picosatellites, featuring a weighted B-dot control algorithm that reduces power consumption while maintaining effective detumbling performance. A related paper details the method and simulation results.
Application of kynodynamical motion planning algorithms to perform attitude maneuvers for a magnetorquer-actuated LEO satellite with pointing constrains.
Research and development (R&D) refers to the set of activities companies undertake to innovate and introduce new products and services.
An example of user settings repository for c2a-aobc
Visualize and debug quaternions
An example of user settings repository for s2e-aobc
Lateral flight controller design for a B-747 using classical control(lead/lag compensator & wash-out filter) and LQR
Physics-based quadcopter simulation with rigid-body dynamics and cascaded PD attitude control, serving as a foundation for constrained and optimization-based control methods.
Research project where was developed a new Guidance, Navigation and Control (GNC) law for Attitude Determination and Control Systems (ADCS) of CubeSat satellites.
To determine the physical parameters, model and mathematical representation of a magnetorquer.
Home for Spacecraft Attitude Control Testbed simulation and hardware code
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