可观测性
跳跃式监视
估计员
运动(物理)
计算机科学
运动估计
加速度
计算机视觉
人工智能
观察员(物理)
工作(物理)
由运动产生的结构
单眼
联轴节(管道)
控制理论(社会学)
算法
运动控制
估计理论
数学
运动场
估计
噪音(视频)
稳健性(进化)
各向同性
作者
Yin Zhang,Zian Ning,Shiyu Zhao
摘要
Monocular vision-based target motion estimation is a fundamental challenge in numerous applications. This work introduces a novel bearing-box approach that fully leverages modern 3D detection measurements that are widely available nowadays but have not been well explored for motion estimation so far. Unlike existing methods that rely on restrictive assumptions such as isotropic target shape and lateral motion, our bearing-box estimator can estimate both the target's motion and its physical size without these assumptions by exploiting the information buried in a 3D bounding box. When applied to multi-rotor micro aerial vehicles (MAVs), the estimator yields an interesting advantage: it further removes the need for higher-order motion assumptions by exploiting the unique coupling between MAV's acceleration and thrust. This is particularly significant, as higher-order motion assumptions are widely believed to be necessary in state-of-the-art bearing-based estimators. We support our claims with rigorous observability analyses and extensive experimental validation, demonstrating the estimator's superior performance in real-world scenarios.
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