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该文旨在开发一种新型的基于高速动态摄影测量系统的医疗器械精密检测技术。通过集成高帧率图像处理、多相机三维摄影测量和自动化智能化测量软件,研究提出一种高精度、高效率的医疗器械检测方案,该检测系统基于高速动态摄影测量技术,通过多台高帧率相机同步触发,结合高频均匀光源与高反光编码标记点,实时捕获医疗器械的动态图像;利用多视图几何三角测量与EPnP算法,重建目标的三维坐标并解算其6自由度位姿(位置与姿态),同时通过机器学习优化特征匹配与误差补偿实现对目标的动态跟踪。该方案能够对医疗器械实现微米级重复定位精度(±0.1 mm)与毫秒级响应时间(<10 ms),显著提升医疗器械的动态检测效率与生产质量控制能力。
Abstract:This paper aims to develop a novel medical device precision detection technology based on a highspeed dynamic photogrammetry system. By integrating high-frame-rate image processing, multi-camera threedimensional photogrammetry and automated intelligent measurement software, this research proposes a highprecision and high-efficiency detection scheme for medical devices. This scheme can achieve a micrometerlevel repeatability positioning accuracy(±0.1 mm) and a millisecond-level response time(<10 ms) for medical devices, significantly enhancing the dynamic detection efficiency and production quality control capability of medical devices.
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基本信息:
DOI:
中图分类号:TH77;TP391.41
引用信息:
[1]郑子伟,许航,付志勇,等.基于高速动态摄影测量系统的医疗器械精密检测技术研究[J].中国测试,2025,51(11):48-57.
基金信息:
国家市场监督管理总局科技计划项目(2023MK154); 中国检验检测学会科研项目(KY202404)