T. Trong, Quan-Tran Hai, Manh Vu Van, B. N. Thai, Tung Nguyen Chi, Truong Nguyen Quang
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引用次数: 2
摘要
在海上的关键任务中,实时探测和跟踪移动的船只以及定位船上的直升机停机坪仍然是一个挑战。通过使用VTOL(垂直起飞和降落)UAV(无人驾驶飞行器)类型,它允许两种能力飞接近舰船并且也能够垂直降落在直升机停机坪上。本文提出了一种用于验证垂直起降无人机在执行任务过程中对海上运动船舶自动检测和跟踪的SITL (Software In The Loop)系统,以及指导垂直起降无人机在接近和降落海上运动船舶过程中模式选择的算法。在X-Plane 11模拟环境中,垂直起降无人机的相机收集的空中图像用于训练深度学习计算机视觉算法。实时船舶检测算法,高达125 FPS和96%的精度。根据舰船和直升机停机坪的检测结果,提出了一种辅助垂直起降无人机在海上移动舰船跟踪降落任务中飞行模式转换的算法。
Autonomous Detection and Approach Tracking of Moving Ship on the Sea by VTOL UAV based on Deep Learning Technique through Simulated Real-time On-Air Image Acquisitions
Real-time detection and tracking moving ships as well as locating the helipad on that ship is still a challenge in critical missions at sea. By using VTOL (Vertical Take-Off and Landing) UAV (Unmanned Aerial Vehicle) types, it allows both the ability to fly approaching the ship and also be able to land vertically on the helipad. This paper proposes a SITL (Software In The Loop) system to verify the automatic detection and tracking of ships moving at sea for the VTOL UAV during the mission and an algorithm to guide VTOL UAV mode selection in the process of approaching and landing on ships moving at sea. On-air images collected from the VTOL UAV’s camera in the X-Plane 11 simulation environment are used to train Deep Learning computer vision algorithms. Real-time ship detection algorithm with up to 125 FPS and 96% accuracy. From the results of the ship and helipad detection, we propose an algorithm to assist the transition of flight modes of VTOL UAV during the tracking and landing mission on a moving ship at sea.
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