Method for calculating rotating shaft direction and rotating angular velocity of moving rotating object

Abstract

The invention provides a rotating shaft direction and rotating angular velocity resolving method for a moving rotating object, which comprises the following steps of: firstly, registering an adjacentpoint cloud at the moment by using a nearest point iteration point cloud registration algorithm, and constructing a local track matrix by using a registration matrix; secondly, point position information is obtained according to a local track matrix, point track fitting is carried out, the speed of a certain point at a certain moment is solved, and finally an equation is established according to the rigid body rotation physical process to carry out rotation parameter resolving; according to the method, dependence on feature points is avoided, and the motion condition of a target at a certain moment is described by using a local track matrix; good robustness is achieved on point cloud local loss caused by self-shielding of the target, and errors caused by incomplete feature point tracks inthe sequence point cloud are avoided; the method can effectively solve the rotating shaft and the rotating angular velocity, especially when the angular velocity of the rotating object is variable motion, the solving result can better track the change of the set angular velocity, the solving precision is higher, and the solving advantage is more obvious.

Description

technical field [0001] The invention belongs to the field of calculating rotation parameters of moving objects and scanning point clouds, and in particular relates to a method for calculating the rotation axis direction and rotation angular velocity of a moving rotating object. Background technique [0002] In the field of spaceflight, the solution of the motion parameters of space non-cooperative targets is the premise of target tracking, detection and on-orbit approach, so the research on the motion parameters of space non-cooperative targets is a very important research field. A commonly used technical method is to use laser or camera sensors to observe and scan non-cooperative targets to obtain a sequence of 3D point clouds of non-cooperative targets. In general, the motion parameters of non-cooperative targets, such as motion speed, rotation axis direction and rotation angular velocity, can be obtained according to the sequence point cloud. [0003] At present, there a...

AI Technical Summary

Problems solved by technology

This method relies on the selection of feature points and the quality of their trajectories. The algorithm has two limitations: the first limitation is that feature points need to be artificially designed based on experience to select feature points, so some non-cooperative targets may appear Under certain rules, there are fewer or missing feature points; the second limitation is that when the sensor scans non-cooperative targets, due to the self-occlusion of non-cooperative targets, there will be continuous points in the sequence point cloud. The disappearance of feature points on several frames of point clouds, resulting in incomplete feature point trajectories

The second algorithm is to perform point cloud...

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