The formation of infrared radiation human body thermometer and the method of calibration experiment are introduced.
本文简要介绍了所研制的红外辐射式体温计的构成及标定实验方法;
The calibration method is proposed and our system calibration experiment is accomplished.
提出系统标定方法,完成系统标定实验。
Studying the non-coplanar camera calibration method and completing the calibration experiment.
研究了摄像机非共面标定方法,完成单目立体视觉传感器的标定实验;
This method expands the selection of the light source of the calibration experiment platform, and improves the homemade instrument's performance.
该方法扩大了标定实验平台对光源的选取范围,提高了自制仪器的性能。
The experiment design and calibration data are dealt with the central composite design, which is a statistical method.
利用二次回归的中心组合设计方法进行试验设计和数据优化。
The method is proved as high speed, high accuracy and robust after experiment, so it meets the need of multi-camera fast calibration in large-scale vision system.
经验证该方法标定速度快、精度较高、算法健壮,适用于大型视觉系统多摄像机的快速标定。
A standard metal ball with known RCS value has been used as the calibration body in the external calibration experiment which used a relative calibration method and acquired the calibration data.
实验时采用已知rcs值的标准金属球作为定标体,使用相对定标法对系统进行外定标实验,得到定标数据。
The experiment results show that this calibration method is accurate and applicable to the medium-accuracy IMU.
试验结果表明:该方法标定精度较高,适用于中等精度IMU 的参数标定。
In the experiment, we reconstruct 3-d position of the target by linear self-calibration technology based on active vision and the matching method based on characteristic points.
通过实验,利用基于主动视觉的线性自标定技术,完成了对相机的自标定,并利用基于特征点的立体匹配方法,完成了点的三维重构。
In the experiment, we reconstruct 3-d position of the target by linear self-calibration technology based on active vision and the matching method based on characteristic points.
通过实验,利用基于主动视觉的线性自标定技术,完成了对相机的自标定,并利用基于特征点的立体匹配方法,完成了点的三维重构。
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