把立体视觉模型参数划分为主值参数和调节参数,两类参数分别进行标定。
The parameters describing the stereoscopic model are divided into two types: the main parameters and the adjustive parameters, and these two parameters are calibrated respectively.
本研究分两部分,第一部分以计算机立体视觉为模型建立脊柱三维运动测量系统。
In the first part, a measuring system of three-dimensional motions of spine was established with computer stereovision model.
目的:介绍以计算机立体视觉为模型建立的颈椎活动度精确测量系统。
Objective: To introduce the system of accurately measuring the range of motion (ROM) of cervical spine with computer stereovision model.
算法对传统二次率失真模型进行了改进,并结合人眼的立体视觉特性,提出了新的码率控制策略。
The conventional quadric rate-distortion model was improved and a new one was introduced by incorporating the human visual system (HVS) characteristics.
以双目立体视觉传感器三维测量模型为基础,提出了一种用于测量空间三维点坐标的低成本单摄像机模型。
Based on the three-dimensional binocular vision sensor measurement model, a kind of low cost single camera model used to measure coordinates in space was established.
最后介绍了本系统所采用的立体成像方式、三维重建方法和模型,以及立体视觉中的图像匹配的问题。
Finally we introduce three-dimensional imaging system, three-dimensional reconstruction method and model that we have adopted, and the problem about image matching in the three-dimensional vision.
基于摄像机透视成像的针孔模型,分析了立体视觉中摄像机标定和三维重建过程的主要误差来源。
Various error sources of binocular stereo system are analyzed based on pinhole camera model for estimation of the depth error.
在立体视觉传感器三维测量模型基础上,引入特征点约束优化传感器结构参数,同时实现了传感器现场标定。
And based on the 3-d measurement model of stereo-visual sensor, the parameters of sensor can be optimized with the feature points constraint simultaneously.
第二部分研究了SLM立体视觉的建模型问题,视觉模型描述了二维图像空间与三维物空间的映射关系。
Second, the modeling problem of micro stereovision with SLM is discussed, and a vision model that describes the projection between 2d image space and 3d object space is derived.
为提高双目立体视觉系统的测量精度,分析双目视觉系统的工作原理以及该系统各个环节的误差模型。
To raise the measurement accuracy of binocular stereo vision system, working principle of binocular vision system and error model in all aspects are analyzed.
分析了空间圆透视投影的数学模型,并建立了点的空间三坐标立体视觉测量数学模型。
The perspective projection model of the spatial circle is discussed and the mathematical model of three-dimensional (3D) measurement for the stereo vision sensor is analyzed.
本文从人类立体视觉的原理出发,重点讨论在计算机中如何从3d模型获取用于裸眼立体显示视差图像的问题。
The problem of how to extract parallax images from computer 3d models used in stereoscopic display is discussed in this paper.
本文从人类立体视觉的原理出发,重点讨论在计算机中如何从3d模型获取用于裸眼立体显示视差图像的问题。
The problem of how to extract parallax images from computer 3d models used in stereoscopic display is discussed in this paper.
应用推荐