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改进的光流场算法在核爆炸图像监控中的应用 被引量:1

Application of improved optic flow field in the supervisory control of nuclear explosion
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摘要 为了监测出核爆炸,采用一种改进的Horn-Schunck算法,进行了理论分析和实验验证。计算出连续帧核爆图片的光流场,绘制出光流场图。例如,取第1159帧和第1160帧图像,得到了水平光流均值为0.018181pixel/s,均方差为0.375775pixel/s;垂直光流均值为-0.503308pixel/s,均方差为0.896142pixel/s。结果表明,根据图形及速度分布能够判断出核爆炸。 A improved Horn-Schunck algorithm method was proposed to judge nuclear explosion. The optic flow field of a consecutive sequence of frames of nuclear explosion was calculated and the picture of optic flow field was drawn. For example, the average horizontal optical flow field was 0. 018181pixel/s with a mean square deviation (MSD)of 0. 375775pixel/s and the average vertical optical flow field was -0. 503308pixel/s with a MSD of 0. 896142pixel/s at the 1159th frame and the ll60th frame. A preliminary judgment can be made that it is a nuclear explosion according the picture and velocities distribution.
作者 李亚南 余学才 唐飞 黄凯 丁建平
机构地区 电子科技大学光电信息学院
出处 《激光技术》 CAS CSCD 北大核心 2013年第1期118-120,共3页 Laser Technology
关键词 图像处理 核爆炸 光流场 Horn—Schunck算法 image processing nuclear explosion optic flow field Horn-Schunck algorithm
分类号 TP391 [自动化与计算机技术—计算机应用技术]
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