基于成像传感器的快速旋转物体角速度估计

Jinchun Wang, J. Chun, Jinkyu Park, Yong-Hwan Kim
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引用次数: 4

摘要

提出了一种基于成像传感器的旋转物体角速度估计方法。以前的大多数算法都需要知道姿态或身体矢量的测量值。然而,对于快速旋转的物体,由于物体图像的流动,物体矢量测量是一项困难的任务。为了克服这一困难,我们寻找最小代价函数的角速度,代价函数是由观测到的星迹和估计角速度的导数星迹的欧几里得距离差定义的。在此公式下,角速度的确定就变成了角速度矢量在三维空间中的最小化问题。为了降低搜索维数并在一维中使用搜索技术,我们在星形轨迹上随机采样点,这些随机点根据运动学方程对可能的角速度向量分配约束。通过对快纺工况的数值模拟来验证结果。
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Angular velocity estimation of fast spinning object using an imaging sensor
We propose a new spinning object angular velocity estimation method using an imaging sensor. Most of the previous algorithms require a knowledge of the attitude or of the body vector measurements. For a fast spinning object, however, the body vector measurement is a difficult task due to flows of the object image. To overcome this difficulty, we search for the angular velocity which minimizes the cost function defined by the Euclidean distance differences of the observed star traces and the derivative star traces of an estimated angular velocity. With this formulation, angular velocity determination becomes a kind of minimization problem in 3D of the angular velocity vector. To reduce the search dimensions and use search techniques in 1D, we randomly sample points on the star traces and these random points assign a constraint to the possible angular velocity vector according to the kinematics equation. A numerical simulation for fast spinning cases is carried out to establish the results.
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