光学精密工程
光學精密工程
광학정밀공정
OPTICS AND PRECISION ENGINEERING
2009年
10期
2392-2400
,共9页
衍射光斑%计算效率%亚像素定位%相关函数%拟合窗口
衍射光斑%計算效率%亞像素定位%相關函數%擬閤窗口
연사광반%계산효솔%아상소정위%상관함수%의합창구
diffraction spot%computational efficiency%sub-pixel location%correlation function%fitting window
为了提高相关函数拟合极值法在二维位相板衍射光斑亚像素定位中的计算效率,对相关函数拟合极值法中的模板大小、拟合窗口大小及相关函数3种影响因素进行了分析.分析过程以仿真图像检验法为理论基础,即用数学仿真图像验证算法和程序的可靠性和精度.分析结果表明,3种影响因素均对计算效率产生较大影响,整像素搜索时模板和拟合窗口大小的选取对定位精度影响最大.同理,对二维位相板衍射光斑亚像素定位实验中的搜索模板和拟合窗口大小进行了优化设计,最佳模板大小为51 pixel×51 pixel,最佳拟合窗口大小为3 pixel×3 pixel,与选用恰好包含整个衍射光斑时的模板(131 pixel×131 pixel)相比,整个定位过程的计算时间缩短了40%,在不损失定位精度的同时有效提高了计算效率.
為瞭提高相關函數擬閤極值法在二維位相闆衍射光斑亞像素定位中的計算效率,對相關函數擬閤極值法中的模闆大小、擬閤窗口大小及相關函數3種影響因素進行瞭分析.分析過程以倣真圖像檢驗法為理論基礎,即用數學倣真圖像驗證算法和程序的可靠性和精度.分析結果錶明,3種影響因素均對計算效率產生較大影響,整像素搜索時模闆和擬閤窗口大小的選取對定位精度影響最大.同理,對二維位相闆衍射光斑亞像素定位實驗中的搜索模闆和擬閤窗口大小進行瞭優化設計,最佳模闆大小為51 pixel×51 pixel,最佳擬閤窗口大小為3 pixel×3 pixel,與選用恰好包含整箇衍射光斑時的模闆(131 pixel×131 pixel)相比,整箇定位過程的計算時間縮短瞭40%,在不損失定位精度的同時有效提高瞭計算效率.
위료제고상관함수의합겁치법재이유위상판연사광반아상소정위중적계산효솔,대상관함수의합겁치법중적모판대소、의합창구대소급상관함수3충영향인소진행료분석.분석과정이방진도상검험법위이론기출,즉용수학방진도상험증산법화정서적가고성화정도.분석결과표명,3충영향인소균대계산효솔산생교대영향,정상소수색시모판화의합창구대소적선취대정위정도영향최대.동리,대이유위상판연사광반아상소정위실험중적수색모판화의합창구대소진행료우화설계,최가모판대소위51 pixel×51 pixel,최가의합창구대소위3 pixel×3 pixel,여선용흡호포함정개연사광반시적모판(131 pixel×131 pixel)상비,정개정위과정적계산시간축단료40%,재불손실정위정도적동시유효제고료계산효솔.
In order to improve the computational efficiency of sub-pixel location of a diffraction spot generated by a two-dimensional phase plate with the correlation function fitting extreme method,three effect factors,the template size,fitting window size and the correlation function were analyzed in detail.On the basis of the theory of emulation image examination,mathematical emulation images were used to verify the reliability and accuracy of algorithms and programs.Analyzing results indicate that the three effect factors all have bigger effect on computational efficiency and the template and fitting window sizes show the biggest effect on the locating precision during integer pixel searching.The optimal design of searching template and fitting window sizes are completed during the sub-pixel location experiment of diffraction spot generated by the two-dimensional phase plate,It is shown that the optimized template and fitting window sizes are 51 pixel×51 pixel and 3 pixel×3 pixel,respectively.Comparing with the template of 131 pixel×131 pixel which just includes the whole diffraction spot,the calculating time of whole locating process is shortened by 40%,which shows the computational efficiency is improved without degrading location precision.