首先本文以解剖学为依据，建立了一个较为复杂但更加真实的虚拟人体骨骼层模型。为进一步的肌肉层定位以及高级的人机评价方法实现打下基础。

First of all, we built a more complex but real virtual human skeleton model according to anatomy, which is a foundation for further locating the muscles and advanced ergonomics evaluation methods.

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以实际人体解剖学数据为基础，利用流体力学软件构建了口腔模型。

According to the anatomy date, the oral airway model was established with hydrodynamics software.

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本研究以上颌中切牙天然牙为解剖学基础建立了三维有限元模型。

A three-dimensional finite element model was built by using central maxillary incisor as its anatomical basis.

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以上颌中切牙为解剖学基础建立了三维有限元模型。

This paper presents the development of a three dimensional finite element model of central maxillary incisor.

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本文以肱骨横截面CT图像为解剖学基础，提取骨端面的几何形状，进行三维重建，建立肱骨的三维有限元模型。

Based on ct picture, the geometrical dimensions of humerus were obtained. A three-dimensional finite element model was established on the basis of three-dimensional reconstruction.

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本文以肱骨横截面CT图像为解剖学基础，提取骨端面的几何形状，进行三维重建，建立肱骨的三维有限元模型。

Based on ct picture, the geometrical dimensions of humerus were obtained. A three-dimensional finite element model was established on the basis of three-dimensional reconstruction.

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