目的:系统的整理犬肝脏及其附属管道的解剖学数据,为建立各种犬动物模型提供依据。
AIM: to collect systematically the anatomic data of canine liver and affiliated conduits and provide a foundation for making a variety of canine models.
提出一种基于几何造型方法的软组织变形模型,并应用于一个基于VRML的网上动物解剖学虚拟实验室系统。
A geometrically - based soft tissue deformable model is proposed and is applied to a VRML - based animal anatomy virtual laboratory system.
在这个新的层状晶状体模型中,最外层前后表面的非球面系数与解剖学数据相符。
The anterior surface of the lens is prolate, whereas the posterior surface of the lens is oblate which is consistent with the anatomical data.
目的观察犬肝脏解剖学特点,探索建立改良的犬同种异体原位背驮式肝移植模型。
Objective To investigate the anatomical features of canine liver and study whether a modified orthotopic piggyback liver transplantation can be established in canines.
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.
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.
这种方法涉及了一系列的人体骨骼,关节,肌肉和神经生理学,解剖学和机械特性的数学模型。
Such method involves mathematical modeling on a series of physiological, anatomical and mechanical characteristics of human bones, joints, muscles and nerves.
由于它的直观性,人体组织器官的三维模型如果成熟的运用于解剖学研究、外科手术及医学教学将起到不可估量的作用。
It is so intuitionistic, if the 3d model of human tissues and organs are applied to anatomical study, surgery and medical education it will play an immeasurable role.
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.
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.
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.
为了实现虚拟空间中人体动画的逼真运动,基于解剖学建立了虚拟人体三维骨骼模型。
In order to achieve realistic human motion in virtual environment, a 3D skeleton model of virtual human is built.
首先,结合运动解剖学、临床医学和康复医学等相关知识,分析了踝关节的损伤类型、机理,建立了踝关节的仿生机构学模型和康复运动模型。
Then, based on the kinematics and statics of the ankle rehabilitation robot mechanism, we did its trajectory planning which is good for ankle rehabilitating and designed its control system.
首先,结合运动解剖学、临床医学和康复医学等相关知识,分析了踝关节的损伤类型、机理,建立了踝关节的仿生机构学模型和康复运动模型。
Then, based on the kinematics and statics of the ankle rehabilitation robot mechanism, we did its trajectory planning which is good for ankle rehabilitating and designed its control system.
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