异步Binning高帧频CCD相机的拖尾校正

刘璐; 罗通顶; 李斌康; 杨少华; 严明

doi:doi:10.3788/ope.20172501.0217

光学精密工程, 2017, 25 (1): 217, 网络出版: 2017-03-10

异步Binning高帧频CCD相机的拖尾校正

Smear correction of asynchronous binning high frame rate CCD camera

论文大纲

刘璐罗通顶李斌康杨少华严明

作者单位

西北核技术研究所, 陕西西安 710024

异步Binning 高帧频相机帧转移CCD 拖尾校正 asynchronous Binning high frame rate camera frame transfer CCD smear correction

摘要

一种基于异步时序驱动和Binning技术的高帧频成像技术在帧转移CCD相机上得到成功应用。为了抑制该CCD相机成像时产生的拖尾效应, 基于该相机的高帧频连续成像原理, 理论上分析了图像获取过程中拖尾产生的原因, 给出了一套完整的消除拖尾的数值解析算法。该算法充分考虑了图像亮度变化对拖尾形成产生的影响, 并对此进行了修正, 已在异步Binning CCD相机上进行了实验验证。利用相机以40 000帧每秒的帧频获取4幅连续图像进行实验, 实验结果表明, 该算法可有效去除每幅图像的拖尾噪声, 而且消除拖尾噪声后的图像区域的灰度方差得到明显降低, 异步Binning CCD相机的成像质量得以提高。上述结果表明算法适用于高帧频相机的连续成像。

Abstract

A high frame rate imaging technology based on asynchronous timing drive and Binning technology has been applied on frame transfer CCD camera successfully. The reason why smear noise occurs in image acquisition process has been analyzed theoretically and a complete set of numerical analytic algorithm for smear correction has been carried out to restraint the smear generated in the imaging of this CCD camera, according to its continuous imaging principle. The algorithm has fully taken the effects of consecutive frame exposures and changing intensity on smear into account and then amended them. Experimental verification has been conducted in asynchronous Binning camera. Results indicate that the camera can get 4 continuous images at a frame rate of 40 000 frames per second. The algorithm has effectively eliminated the smear noise of all images, making contribution to the remarkable decrease of the gradation variance in smear area and the improvement of asynchronous Binning CCD cameras imaging quality. The smear correction algorithm is applicable to continuous imaging of high frame rate camera.

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刘璐, 罗通顶, 李斌康, 杨少华, 严明. 异步Binning高帧频CCD相机的拖尾校正[J]. 光学精密工程, 2017, 25(1): 217. LIU Lu, LUO Tong-ding, LI Bin-kang, YANG Shao-hua, YAN Ming. Smear correction of asynchronous binning high frame rate CCD camera[J]. Optics and Precision Engineering, 2017, 25(1): 217.

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