Rigid motion reconstruction by functional iteration

2017 DGON Inertial Sensors and Systems (ISS) Pub Date : 2017-09-01 DOI:10.1109/INERTIALSENSORS.2017.8171501

Yuanxin Wu

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引用次数: 2

Abstract

Rigid motion computation or estimation is a cornerstone in numerous fields. Attitude computation can be achieved by integrating the angular velocity measured by gyroscopes, the accuracy of which is crucially important for the dead-reckoning inertial navigation. The state-of-the-art attitude algorithms have unexceptionally relied on the simplified differential equation of some kind of kinematic vector, such as the rotation vector, to obtain the attitude. This paper proposes a Functional Iteration technique using the Rodrigues vector (the so-called RodFIter method) to analytically reconstruct the attitude from gyroscope measurements. The RodFIter method is provably exact in reconstructing the incremental attitude as long as the angular velocity is exact. Notably, the Rodrigues vector is analytically obtained and can be used to update the attitude over the considered time interval. The proposed method gives birth to a novel attitude algorithm scheme that can be naturally extended to the general rigid motion computation. It is extensively evaluated under the attitude coning motion and compares favorably in accuracy with the mainstream attitude algorithm.

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基于函数迭代的刚体运动重建

刚性运动的计算或估计是许多领域的基础。姿态计算可以通过对陀螺仪测量的角速度进行积分来实现，其精度对航位推算惯性导航至关重要。最先进的姿态算法无一例外地依赖于某种运动矢量(如旋转矢量)的简化微分方程来获得姿态。本文提出了一种利用罗德里格斯向量的泛函迭代技术(即所谓的RodFIter方法)来解析重建陀螺仪测量的姿态。证明只要角速度是精确的，RodFIter方法在重建增量姿态时是精确的。值得注意的是，Rodrigues向量是解析得到的，可以用来在考虑的时间间隔内更新姿态。该方法产生了一种新的姿态算法方案，可以很自然地推广到一般的刚性运动计算中。该方法在姿态回转运动下得到了广泛的评价，在精度上优于主流姿态算法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2017 DGON Inertial Sensors and Systems (ISS)

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