Development of inference methods for rotational motions on ground surface

Japan Geoscience Union Pub Date : 2017-03-10 DOI:10.5610/jaee.17.2_88
K. Hada, Horike Masanori
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Abstract

In this study, we develop two methods for the inference of rotation vector on ground surface, two rocking rotations and a single torsional rotation. The first, termed nth-order elastic method, is based on the elasticity of the ground surface. The rotation vector is constructed from the first derivative with respect to the space of the ground surface motions. The first derivative is calculated from simultaneous equations by n-th order Taylor expansion obtained by difference motion between multiple observation points. Meanwhile, the second, termed rigid method, is based on the rigidity of ground surface and the rotation.
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地表旋转运动推理方法的发展
在这项研究中,我们开发了两种方法来推断地面上的旋转矢量,两个摇摆旋转和一个扭转旋转。第一种是基于地表弹性的n阶弹性法。旋转矢量由对地面运动空间的一阶导数构造而成。一阶导数由联立方程通过多个观测点之间的差分运动得到的n阶泰勒展开计算。第二种是刚性法,它是基于地表的刚性和旋转。
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Japan Geoscience Union
Japan Geoscience Union
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