AVS Laboratory
AVS Laboratory conducts aerospace research to improve autonomous spacecraft maneuvering and debris mitigation for safer space operations. It uses Basilisk for high-fidelity dynamics, Monte-Carlo analyses, and hardware-in-the-loop simulations across ADCS and relative-motion projects. The work covers Attitude Dynamics and Control, electrostatic actuation for relative motion, visual relative motion control, and space debris macro-motion studies. Autonomy is advanced with ML and AI for flight-mode selection and resource prediction within Basilisk-based workflows. It collaborates with universities and space industry to scale methods for mission analysis and autonomous commanding solutions.
AVS Laboratory
AVS Laboratory conducts aerospace research to improve autonomous spacecraft maneuvering and debris mitigation for safer space operations. It uses Basilisk for high-fidelity dynamics, Monte-Carlo analyses, and hardware-in-the-loop simulations across ADCS and relative-motion projects. The work covers Attitude Dynamics and Control, electrostatic actuation for relative motion, visual relative motion control, and space debris macro-motion studies. Autonomy is advanced with ML and AI for flight-mode selection and resource prediction within Basilisk-based workflows. It collaborates with universities and space industry to scale methods for mission analysis and autonomous commanding solutions.