基于光学运动捕捉的虚拟人体标定技术

图学学报

基于光学运动捕捉的虚拟人体标定技术

出版日期:2013-10-31 发布日期:2015-06-19

A Technique for Virtual Human Calibration Based on Optical Motion Capture

Online:2013-10-31 Published:2015-06-19

摘要/Abstract

摘要： ：分析关节对骨骼段运动的约束，基于光学运动捕捉设备给出两种关节中心
参数估计模型——双骨骼段模型和球模型。对两种模型分别给出最小二乘解法，通过求解线
性方程组得到关节中心位置。利用虚拟铰链测试了两种解法的精度，选取精度较高的双骨骼
段模型，结合虚拟人的关节结构提出一种虚拟人体标定技术。比较某表演者四肢的测量值和
标定值，得出标定误差在4.3%以内。对标定后的虚拟人进行驱动，标定后的虚拟人逼真地
复制了表演者的动作，并减少了肢体交叉。

关键词: 光学运动捕捉, 关节中心参数估计, 最小二乘法, 虚拟人体标定

Abstract: Based on optical motion capture, two joint center estimation models: Bi-segment
Model and Sphere Model are given by analyzing the motion of segments constrained by joints.
For each model a least squares solution is presented respectively and the joint center location
could be acquired by solving a linear equation. A virtual linkage is used to test the accuracy of the
two least squares solutions. Using the Bi-segment Model which is more accurate, a technique for
virtual human calibration is proposed based on the topology of the virtual human. The comparison
of measured values and calibrated values of a performer demonstrates errors for limbs are less
than 4.3%. Finally, the calibrated virtual human is driven. The result shows the virtual human can
mimic the performer vividly and limbs intersection cases are reduced.

Key words: optical motion capture, joint center estimation, least squares solution, virtual
human calibration

侯永隆，宁涛，王可. 基于光学运动捕捉的虚拟人体标定技术[J]. 图学学报.

Hou Yonglong, Ning Tao, Wang Ke. A Technique for Virtual Human Calibration Based on Optical Motion Capture[J]. Journal of Graphics.

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