Online Adaptation for Flying Quadrotors in Tight Formations
Online Adaptation for Flying Quadrotors in Tight Formations
The task of flying in tight formations is challenging for teams of quadrotors because the complex aerodynamic wake interactions can destabilize individual team members as well as the team. Furthermore, these aerodynamic effects are highly nonlinear and fast-paced, making them difficult to model and predict. To overcome these challenges, we present L1 KNODE-DW MPC, an adaptive, mixed expert learning based control framework that allows individual quadrotors to accurately track trajectories while adapting to time-varying aerodynamic interactions during formation flights. We evaluate L1 KNODE-DW MPC in two different three-quadrotor formations and show that it outperforms several MPC baselines. Our results show that the proposed framework is capable of enabling the three-quadrotor team to remain vertically aligned in close proximity throughout the flight. These findings show that the L1 adaptive module compensates for unmodeled disturbances most effectively when paired with an accurate dynamics model. A video showcasing our framework and the physical experiments is available here: https://youtu.be/9QX1Q5Ut9Rs
Pei-An Hsieh、Kong Yao Chee、M. Ani Hsieh
航空航天技术航空
Pei-An Hsieh,Kong Yao Chee,M. Ani Hsieh.Online Adaptation for Flying Quadrotors in Tight Formations[EB/OL].(2025-06-20)[2025-07-16].https://arxiv.org/abs/2506.17488.点此复制
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