Orbital Stabilization and Time Synchronization of Unstable Periodic Motions in Underactuated Robots
By: Surov Maksim
Potential Business Impact:
Robots stay in orbit and sync their moves.
This paper presents a control methodology for achieving orbital stabilization with simultaneous time synchronization of periodic trajectories in underactuated robotic systems. The proposed approach extends the classical transverse linearization framework to explicitly incorporate time-desynchronization dynamics. To stabilize the resulting extended transverse dynamics, we employ a combination of time-varying LQR and sliding-mode control. The theoretical results are validated experimentally through the implementation of both centralized and decentralized control strategies on a group of six Butterfly robots.
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