TY - GEN
T1 - Monocular Gate Perception Based on ICP-like Optimization for Autonomous Drone Racing
AU - Cao, Xu
AU - Fang, Hao
AU - Hua, Junyang
N1 - Publisher Copyright:
© 2025 IEEE.
PY - 2025
Y1 - 2025
N2 - Autonomous drone racing is a challenging task. It requires UAVs to autonomously cross an obstacle gate in space with unknown pose only by relying on onboard sensors and computing devices. Therefore, reliable detection and pose estimation of the gate is crucial. The accuracy of gate perception directly determines the success rate of UAVs in crossing the obstacle gate. In this paper, a monocular gate perception method based on ICP-like optimization is proposed. It mainly includes a frontend obstacle gate detector based on ellipse fitting and a backend pose optimization estimator based on ICP-like optimization. And a two-stage gate pose estimation method is introduced, which estimates the coarse gate position based on the detection results as the initial value to guide the nonlinear optimization of the pose estimator. We have conducted sufficient qualitative and quantitative experiments in both outdoor simulator scene and indoor real scene. In a large number of tests, our method demonstrates fast and accurate target detection and pose estimation performance and strong environmental adaptability. The real flight experiments prove that the method can well meet the needs of gate perception in autonomous drone competitions.
AB - Autonomous drone racing is a challenging task. It requires UAVs to autonomously cross an obstacle gate in space with unknown pose only by relying on onboard sensors and computing devices. Therefore, reliable detection and pose estimation of the gate is crucial. The accuracy of gate perception directly determines the success rate of UAVs in crossing the obstacle gate. In this paper, a monocular gate perception method based on ICP-like optimization is proposed. It mainly includes a frontend obstacle gate detector based on ellipse fitting and a backend pose optimization estimator based on ICP-like optimization. And a two-stage gate pose estimation method is introduced, which estimates the coarse gate position based on the detection results as the initial value to guide the nonlinear optimization of the pose estimator. We have conducted sufficient qualitative and quantitative experiments in both outdoor simulator scene and indoor real scene. In a large number of tests, our method demonstrates fast and accurate target detection and pose estimation performance and strong environmental adaptability. The real flight experiments prove that the method can well meet the needs of gate perception in autonomous drone competitions.
KW - autonomous drone racing
KW - detection
KW - optimization estimation
KW - perception
UR - https://www.scopus.com/pages/publications/105013964828
U2 - 10.1109/CCDC65474.2025.11090738
DO - 10.1109/CCDC65474.2025.11090738
M3 - Conference contribution
AN - SCOPUS:105013964828
T3 - Proceedings of the 37th Chinese Control and Decision Conference, CCDC 2025
SP - 654
EP - 659
BT - Proceedings of the 37th Chinese Control and Decision Conference, CCDC 2025
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 37th Chinese Control and Decision Conference, CCDC 2025
Y2 - 16 May 2025 through 19 May 2025
ER -