第二章介绍了三维人体坐标测量的原理以及几种经常采用的方法,并对各种方法进行了比较。
Second chapter introduced the principle and several adopted methods of three dimensional human body coordinates measurement. Followed by the comparison of the differences among the methods.
第三章详细介绍了采用超声波方法进行三维人体坐标测量的硬件电路设计。
Third chapter introduced in detail about USES the ultrasonic wave method to carry on the three dimensional human body coordinates survey the hardware circuit design.
提出了一种使用校验块的新方法,用来校验基于结构光条纹投射的三维人体测量仪的系统误差。
A novel method, which USES verifying block to verify the system error of 3d body measurement apparatus based on structured light fringe projecting, is mentioned in this paper.
本文叙述一种新的无需参考物体或平面的自动三维度量学测量系统的原理,以及应用这种系统对人体头面部进行测量。
A new automated 3-d profile measurement system without any reference object or plane is presented. The principle and its application to human face measurements are also described.
提出并研究了基于CCD(光电藕合器件)与红外传感技术的三维人体尺寸自动测量系统。
The auto measuring system of 3d human body based on CCD (charge coupled devices) and infrared sensor technology are presented.
结论:该测量方法是一个较为完善的三维人体运动临床和科研分析方法。
CONCLUSION: This present measurement is nearly a flawless method for the scientific research and clinical analysis in 3d body motion.
应用三维摄像测量系统分析人体上肢运动时,由于实验噪声的影响,按一般旋转矩阵计算方法得到的数据会产生较大的误差。
Spin matrixes used in ordinary methods to analyze the motion of the human upper-limb based on 3-d camera measurement system, the results are not satisfactory due to the effects of noise.
对一种三维人体测量转台进行了研究,详细介绍了其机械和控制部分设计。
This paper discusses a turning table for 3-d measuring, presents the design of its mechanism and control system.
二维非接触人体测量系统中,围度尺寸需要通过二维至三维的数据转换间接获得。
In the 2d non-contacted body measurement, the size of body girths can only be acquired indirectly by data transform from 2d to 3d.
本文利用改进的OTSU阈值方法测量人体空间三维尺寸的带标定框图像,为后续的特征点提取和三维拟合计算打下良好的基础。
The traditional OTSU threshold method has been improved in order to establish a good foundation for feature extraction and the fitting of 3D in image process with calibration plate.
①目的应用 热释光 (TLD)技术测量人体食管腔内靶区剂量 ,结合三维治疗计划系统 (3DTPS)验证评估肺校正在食管癌放疗计划设计中的重要意义。
Objective To investigate the importance of lung correction in designing radiotherapy for esophageal cancer by using 3D-TPS and TLD techniques.
①目的应用 热释光 (TLD)技术测量人体食管腔内靶区剂量 ,结合三维治疗计划系统 (3DTPS)验证评估肺校正在食管癌放疗计划设计中的重要意义。
Objective To investigate the importance of lung correction in designing radiotherapy for esophageal cancer by using 3D-TPS and TLD techniques.
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