电子器件
電子器件
전자기건
JOURNAL OF ELECTRON DEVICES
2009年
1期
12-16
,共5页
红外图像%图像分割%Fisher线性鉴别分析%粒子群优化
紅外圖像%圖像分割%Fisher線性鑒彆分析%粒子群優化
홍외도상%도상분할%Fisher선성감별분석%입자군우화
infrared image%image segmentation%Fisher linear optimal discriminant analysis%particle swarm optimization
二维Fisher线性鉴别分析的图像分割算法,考虑了图像中目标和背景之间类间方差和类内方差在类别分离中的作用,有效地克服经典Otsu阈值法当图像中目标的面积很小(直方图上表现为峰的大小相差很大或者没有明显双峰)时产生的阈值"漂移"现象,是一种有效的图像分割方法.针对二维Fisher线性鉴别分析计算量大的特点,采用粒子群算法来搜索最优二维阈值向量.每个粒子代表一个可行的二维阈值,通过粒子群之间的协作来获得最优阈值向量.实验结果表明,所提出的方法不仅能准确地分割图像,而且计算量大大减少,达到了快速分割的目的,便于实时应用.
二維Fisher線性鑒彆分析的圖像分割算法,攷慮瞭圖像中目標和揹景之間類間方差和類內方差在類彆分離中的作用,有效地剋服經典Otsu閾值法噹圖像中目標的麵積很小(直方圖上錶現為峰的大小相差很大或者沒有明顯雙峰)時產生的閾值"漂移"現象,是一種有效的圖像分割方法.針對二維Fisher線性鑒彆分析計算量大的特點,採用粒子群算法來搜索最優二維閾值嚮量.每箇粒子代錶一箇可行的二維閾值,通過粒子群之間的協作來穫得最優閾值嚮量.實驗結果錶明,所提齣的方法不僅能準確地分割圖像,而且計算量大大減少,達到瞭快速分割的目的,便于實時應用.
이유Fisher선성감별분석적도상분할산법,고필료도상중목표화배경지간류간방차화류내방차재유별분리중적작용,유효지극복경전Otsu역치법당도상중목표적면적흔소(직방도상표현위봉적대소상차흔대혹자몰유명현쌍봉)시산생적역치"표이"현상,시일충유효적도상분할방법.침대이유Fisher선성감별분석계산량대적특점,채용입자군산법래수색최우이유역치향량.매개입자대표일개가행적이유역치,통과입자군지간적협작래획득최우역치향량.실험결과표명,소제출적방법불부능준학지분할도상,이차계산량대대감소,체도료쾌속분할적목적,편우실시응용.
Two-dimensional (2-D) Fisher linear optimal discriminant analysis, which considers the gray information and spatial neighbor information between pixels in the image simultaneously, overcome especially if the histogram of images in reality has no distinct sharp valleys or the valley is flat and broad, the proposed is an efficient image segmentation method. However, finding the optimal threshold vector using exhaustive searching is expensive for 2-D fisher criterion function thresholding method. In this paper, an optimization method, i.e., particle swarm optimization (PSO) is used to find the optimal 2-D threshold vector, in which each particle represents a possible 2-D threshold vector and the best 2-D threshold is obtained through the cooperation among particles. To show the validity of the proposed method, this paper uses several infrared images to segment. Analysis and experimental results show that the proposed method can not only obtain ideal segmentation results but also decrease the computation cost reasonably, and it is suitable for real-time applications.