中心惯性主轴系统的主转动惯量和欧拉角的计算:算法的设计与实现

Q4 Engineering

International Journal of Materials and Structural Integrity Pub Date : 2015-08-13 DOI:10.1504/ijmsi.2015.071119

Jianwei Wu, Fuyun Liu, Deng Yong, Gan Lin

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引用次数: 0

摘要

为了克服文献中关于最接近原始坐标的中心惯性主轴系统的主转动惯量和欧拉角的算法和程序的缺乏，应用线性代数的理论和方法对坐标系间的惯性矩阵进行变换。该算法根据方向余弦矩阵的定义，求解最接近原坐标系的中心惯性主轴上的欧拉角。最后，利用MATLAB编写了计算程序。通过与ADAMS进行比较，得到了与ADAMS相同的结果，验证了算法的正确性和有效性。获得准确的主转动惯量和中心转动惯量主轴是力矩滚转轴解耦的重要条件。

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Calculation of the principal moment of inertia and Euler angles of the centre inertia principal axis system: design and implementation of the algorithm

To overcome the lack of algorithms and programs in the literature about the principal moment of inertia and Euler angles of the centre inertia principal axis system for the closest to the original coordinates, the theories and methods of linear algebra are applied to transform of the inertia matrix between coordinate systems. The algorithms are designed to solve Euler angles on the centre inertia principal axis of the closest to the original coordinate system according to the definition of direction cosine matrix. Lastly, calculation program is developed using the algorithms based on MATLAB. Compared with ADAMS, the program by using the algorithms gets the same results with ADAMS, which verified the correctness and effectiveness of the algorithms. It is the important requisites in the torque roll axis decoupling to obtain an accurate main moment of inertia and the centre inertia principal axis.

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来源期刊

International Journal of Materials and Structural Integrity Engineering-Mechanical Engineering

CiteScore

0.40

自引率

0.00%

发文量