空军工程大学学报(自然科学版)
空軍工程大學學報(自然科學版)
공군공정대학학보(자연과학판)
JOURNAL OF AIR FORCE ENGINEERING UNIVERSITY (NATURAL SCIENCE EDITION)
2015年
1期
77-80
,共4页
王莹莹%何苹%魏彤%李珊珊
王瑩瑩%何蘋%魏彤%李珊珊
왕형형%하평%위동%리산산
目标分割%直方图%最大熵算法%背景抑制
目標分割%直方圖%最大熵算法%揹景抑製
목표분할%직방도%최대적산법%배경억제
target segmentation%histogram%maximum entropy algorithm%background suppression
为了准确实现目标分割,提出将信息熵应用于红外图像的分割算法。对一般二维直方图最大熵进行推广,给出了外接4邻域直方图最大熵、灰度级-邻域灰度级绝对差直方图最大熵,以上3种二维信息熵算法均能有效地实现红外图像分割。引入属性直方图的概念,构造合适的属性集,先缩小目标的搜索范围,在此基础上运用信息熵进行目标分割,与单纯信息熵分割算法相比,得到的分割结果图中,目标的形状比较完整且引入的干扰较少。仿真结果表明该算法是有效的。
為瞭準確實現目標分割,提齣將信息熵應用于紅外圖像的分割算法。對一般二維直方圖最大熵進行推廣,給齣瞭外接4鄰域直方圖最大熵、灰度級-鄰域灰度級絕對差直方圖最大熵,以上3種二維信息熵算法均能有效地實現紅外圖像分割。引入屬性直方圖的概唸,構造閤適的屬性集,先縮小目標的搜索範圍,在此基礎上運用信息熵進行目標分割,與單純信息熵分割算法相比,得到的分割結果圖中,目標的形狀比較完整且引入的榦擾較少。倣真結果錶明該算法是有效的。
위료준학실현목표분할,제출장신식적응용우홍외도상적분할산법。대일반이유직방도최대적진행추엄,급출료외접4린역직방도최대적、회도급-린역회도급절대차직방도최대적,이상3충이유신식적산법균능유효지실현홍외도상분할。인입속성직방도적개념,구조합괄적속성집,선축소목표적수색범위,재차기출상운용신식적진행목표분할,여단순신식적분할산법상비,득도적분할결과도중,목표적형상비교완정차인입적간우교소。방진결과표명해산법시유효적。
In order to realize segmentation of the IR (infrared)small target image accurately,this paper proposes a segmented algorithm by applying the information entropy method to the infrared image.This paper not only takes the aspect of distribution of gray information into account in the two-dimensional en-tropy method,but also utilizes fully the spatial neighbor information of the pixel to obtain an ideal effec-tiveness of segmentation.After the introduction of the maximum entropy method based on the traditional two-dimensional histogram,other two methods based on External 4-connected G-A(Gray level-Average gray level)histogram and the G-G(Gray level-Gray absolute difference)histogram are given and the above methods all work well in the IR small target segmentation.Besides,the bound set of the IR image and the corresponding bound histogram are constructed to narrow the target search scope,and based on its bound histogram the IR image is segmented,by using the above the integer target is obtained with less noise compared with the pure entropy methods.The experiment results show that the algorithm is effective.