引用本文: | 陈明生,秦明新,孙即祥,等.低信噪比下融合随机共振的运动目标检测算法.[J].国防科技大学学报,2013,35(1):103-107.[点击复制] |
CHEN Mingsheng,QIN Mingxin,SUN Jixiang,et al.An algorithm improving objects detection for low-quality video using stochastic resonance[J].Journal of National University of Defense Technology,2013,35(1):103-107[点击复制] |
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低信噪比下融合随机共振的运动目标检测算法 |
陈明生1,2, 秦明新3, 孙即祥1, 尹中秋4, 宁旭3 |
(1.国防科技大学 电子科学与工程学院,湖南 长沙 410073;2.
2.第三军医大学 生物医学工程与医学影像学院,重庆 400030;3.2.第三军医大学 生物医学工程与医学影像学院,重庆 400030;4.3.驻某军事代表室,河南 郑州 450062)
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摘要: |
为提高智能视频监控系统中运动目标检测算法在低信噪比条件下的鲁棒性,结合混合高斯背景建模算法和随机共振原理实现一种低信噪比下的运动目标检测算法。算法根据混合高斯背景模型对当前帧生成目标概率灰度图,在本文定义的性能评价函数下,通过向该概率灰度图添加噪声使得评价函数最优化从而达到随机共振,对该随机共振灰度图进行阈值分割得到输出的检测目标。针对昏暗、大雾和红外视频分别进行了实验,证实了本文算法的有效性同时也显示本文算法相对于普通背景差算法性能获得了明显提升。 |
关键词: 目标检测 混合高斯 目标概率灰度图 随机共振 |
DOI: |
投稿日期:2012-03-01 |
基金项目: |
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An algorithm improving objects detection for low-quality video using stochastic resonance |
CHEN Mingsheng1,2, QIN Mingxin3, SUN Jixiang1, YIN Zhongqiu4, NING Xu3 |
(1.College of Electronic Science and Engineering, National University of Defense Technology, Changsha 410073, China;2.
2.College of Biomedical Engineering and Medical Imaging, The Third Military Medical University, Chongqing 400030,China;3.2.College of Biomedical Engineering and Medical Imaging, The Third Military Medical University, Chongqing 400030,China;4.3.The PLA Agent, Zhengzhou 450062, China)
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Abstract: |
Video object extraction is a key technology in intelligence surveillance. An object detection algorithm for low-quality video based on Gaussian Mix Model and stochastic resonance was proposed. Firstly, the algorithm generated the object probability gray image from the current frame with the Gaussian Mix Model by the mapping function defined. Then, stochastic resonance was applied to the object probability gray image by adding noise until the defined evaluation function achieved the minimum value. After stochastic resonance, an effectively enhanced object probability gray image could be obtained. Hence the binary image including the interested objects is retrieved by segmentation of the enhanced object probability gray image. The experimental results show that the proposed algorithm combining the Gaussian Mix Model and the stochastic resonance achieved satisfactory subjective and objective performance under the worse environment with dark, foggy and infrared imaging while the classic background subtraction method almost could not detect the interested objects. |
Keywords: object detection Gaussian mixture model object probability gray image stochastic resonance |
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