测绘工程
測繪工程
측회공정
ENGINEERING OF SURVEYING AND MAPPING
2015年
6期
33-38,42
,共7页
李鹏飞%汪长城%付海强%李宁
李鵬飛%汪長城%付海彊%李寧
리붕비%왕장성%부해강%리저
海面目标检测%四分量分解%螺旋散射%Wishart分类器%纹理特征
海麵目標檢測%四分量分解%螺鏇散射%Wishart分類器%紋理特徵
해면목표검측%사분량분해%라선산사%Wishart분류기%문리특정
sea-surface target detection%four-component decomposition%Helix scattering%Wishart classifier%texture feature
提出一种优化的极化SAR图像海面目标检测方法,结合改进的极化SAR四分量分解中的螺旋散射分量与Wishart分类器,充分利用极化散射特性、结构特征、统计特性来进行目标的自动检测。同时通过纹理特征相似性克服了Wishart分类器在无目标海域检测时容易将强度值较高的海杂波误认为目标的缺陷。采用美国无人机 UA‐VSAR在Mexico海域和巴拿马Barro Colorado Island海域获取的两组L波段全极化数据进行实验验证。实验结果表明:文中的优化方法能够较准确检测海面目标,很好地降低虚警率;同时解决了Wishart分类器在无目标海域发生错检的问题。
提齣一種優化的極化SAR圖像海麵目標檢測方法,結閤改進的極化SAR四分量分解中的螺鏇散射分量與Wishart分類器,充分利用極化散射特性、結構特徵、統計特性來進行目標的自動檢測。同時通過紋理特徵相似性剋服瞭Wishart分類器在無目標海域檢測時容易將彊度值較高的海雜波誤認為目標的缺陷。採用美國無人機 UA‐VSAR在Mexico海域和巴拿馬Barro Colorado Island海域穫取的兩組L波段全極化數據進行實驗驗證。實驗結果錶明:文中的優化方法能夠較準確檢測海麵目標,很好地降低虛警率;同時解決瞭Wishart分類器在無目標海域髮生錯檢的問題。
제출일충우화적겁화SAR도상해면목표검측방법,결합개진적겁화SAR사분량분해중적라선산사분량여Wishart분류기,충분이용겁화산사특성、결구특정、통계특성래진행목표적자동검측。동시통과문리특정상사성극복료Wishart분류기재무목표해역검측시용역장강도치교고적해잡파오인위목표적결함。채용미국무인궤 UA‐VSAR재Mexico해역화파나마Barro Colorado Island해역획취적량조L파단전겁화수거진행실험험증。실험결과표명:문중적우화방법능구교준학검측해면목표,흔호지강저허경솔;동시해결료Wishart분류기재무목표해역발생착검적문제。
An optimized sea-surface target detection method based on Poarimetric SAR (PolSAR ) data is proposed which combines the enhanced Yamaguchi four-component decomposition with the Wishart classifier ,therefore being able to detect sea-surface targets automatically by using the advantages of scattering property ,structural feature and statistic characteristics .Meanwhile ,this method can overcome the deficiency that the Wishart classifier will falsely recognize the sea clutter with high intensity as targets in the no‐target sea area ,which selects two L‐band quad-polarization data covered USA UAVSAR in the sea area of the Gulf of Mexico and Panama Barro Colorado Island for experiments .Experimental results indicate this optimized method can detect the sea-surface targets effectively ,reduce the false alarm rate and overcome the w rong detection by Wishart classifier in no‐target sea areas .
