光电工程
光電工程
광전공정
OPTO-ELECTRONIC ENGINEERING
2014年
8期
1-9
,共9页
李惠光%王帅%沙晓鹏%邵暖%李峰
李惠光%王帥%沙曉鵬%邵暖%李峰
리혜광%왕수%사효붕%소난%리봉
显微视觉%自动聚焦%评价函数%离散余弦变换%SUSAN算法
顯微視覺%自動聚焦%評價函數%離散餘絃變換%SUSAN算法
현미시각%자동취초%평개함수%리산여현변환%SUSAN산법
micro-vision%auto focusing%evaluation function%DCT%SUSAN algorithm
在聚焦评价算法的研究中,本文首先对传统的离散余弦变换(DCT)算法和最小核值相似区(SUSAN)算法进行改进,然后结合改进后的DCT算法和SUSAN算法提出一种新的聚焦评价算法,该算法结合频域评价算法和空间域评价算法各自的优点,使聚焦曲线在单峰性,局部极值点和灵敏度等方面与传统算法相比有较大改善。在聚焦窗口的研究中,本文提出一种基于图像子块重要程度加权的聚焦窗口选择方法,该方法以总梯度变化率作为图像子块重要程度因子,将重要程度因子值小于阈值的图像子块视为背景子块,去除背景子块后剩下的部分为聚焦窗口。新的聚焦窗口选择方法能实现动态的区分目标区域与背景区域。
在聚焦評價算法的研究中,本文首先對傳統的離散餘絃變換(DCT)算法和最小覈值相似區(SUSAN)算法進行改進,然後結閤改進後的DCT算法和SUSAN算法提齣一種新的聚焦評價算法,該算法結閤頻域評價算法和空間域評價算法各自的優點,使聚焦麯線在單峰性,跼部極值點和靈敏度等方麵與傳統算法相比有較大改善。在聚焦窗口的研究中,本文提齣一種基于圖像子塊重要程度加權的聚焦窗口選擇方法,該方法以總梯度變化率作為圖像子塊重要程度因子,將重要程度因子值小于閾值的圖像子塊視為揹景子塊,去除揹景子塊後剩下的部分為聚焦窗口。新的聚焦窗口選擇方法能實現動態的區分目標區域與揹景區域。
재취초평개산법적연구중,본문수선대전통적리산여현변환(DCT)산법화최소핵치상사구(SUSAN)산법진행개진,연후결합개진후적DCT산법화SUSAN산법제출일충신적취초평개산법,해산법결합빈역평개산법화공간역평개산법각자적우점,사취초곡선재단봉성,국부겁치점화령민도등방면여전통산법상비유교대개선。재취초창구적연구중,본문제출일충기우도상자괴중요정도가권적취초창구선택방법,해방법이총제도변화솔작위도상자괴중요정도인자,장중요정도인자치소우역치적도상자괴시위배경자괴,거제배경자괴후잉하적부분위취초창구。신적취초창구선택방법능실현동태적구분목표구역여배경구역。
In the research of the evaluation function, this paper firstly states the improvement Discrete Cosine Transform (DCT) algorithm and Small Univalve Segment Assimilating Nucleus (SUSAN) algorithm. Then, combining with the improved DCT algorithm and SUSAN algorithm, a new focusing evaluation algorithm has been presented. New algorithm collects the respective advantages of frequency domain algorithm and spatial domain algorithm, which enable the focus curve to has a greatly improvement in unimodal, local extreme points and sensitivity. In the research of the focusing window, a new selection method is proposed on the basis of the importance of image sub-block. The new method regards the gradient rate as image sub-block importance factor. Then, put the image sub-block whose factor value is less than threshold as background sub-block and removed. Finally, after removing background sub-block image, treat the rest of part as the focusing window. The new selection method can achieve dynamic distinguishing between target area and background area.
