MPCC using arc-length parameterization and a compact coupled-dynamics model enables precise trajectory tracking for bird-scale ornithopters without predefined speed profiles.
High-speed motion planning for aerial swarms in unknown and cluttered environments
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SANDO achieves high success rates with collision-free guarantees in dynamic unknown 3D environments via spatiotemporal safe flight corridors, variable-elimination MIQP, and formal analysis under bounded velocity and estimation error.
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Accurate Trajectory Tracking with MPCC for Flapping-Wing MAVs
MPCC using arc-length parameterization and a compact coupled-dynamics model enables precise trajectory tracking for bird-scale ornithopters without predefined speed profiles.
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SANDO: Safe Autonomous Trajectory Planning for Dynamic Unknown Environments
SANDO achieves high success rates with collision-free guarantees in dynamic unknown 3D environments via spatiotemporal safe flight corridors, variable-elimination MIQP, and formal analysis under bounded velocity and estimation error.