航天返回与遥感
航天返迴與遙感
항천반회여요감
SPACECRAFT RECOVERY & REMOTE SENSING
2014年
1期
72-80
,共9页
区域网平差%有理多项式系数模型%稀少控制点%“资源三号”卫星%图像处理%空间遥感
區域網平差%有理多項式繫數模型%稀少控製點%“資源三號”衛星%圖像處理%空間遙感
구역망평차%유리다항식계수모형%희소공제점%“자원삼호”위성%도상처리%공간요감
block adjustment%rational polynomial coefficients model%limited ground control points%ZY-3 satellite%image process%spatial remote sensing
目前卫星影像的区域网平差技术已经有了初步的发展,但大多数研究都基于国际高分辨率卫星影像,针对大区域范围内的中国卫星影像的快速平差还鲜有提及。文章以“资源三号”卫星正视影像为数据源,配合高分辨率的控制点影像和数字高程模型(DEM)数据,基于RPC(rational polynomial coefficients)模型参数精确解算和一种新的控制点选取策略对大区域范围内仅使用少量控制点的区域网平差进行了研究与试验。在试验过程中,文章采用地形坡度统计的方法来快速获取多景影像中控制点的优先选取区域,缩小控制点选取范围。除此之外,文章还通过添加选取相对较为容易的连接点替代部分控制点来保证影像平差精度。结果表明:采用文中方法能大量减少控制点选取难度并有效提高中国遥感影像的几何定位精度,真正实现数字正射影像(DOM)产品的快速生产。
目前衛星影像的區域網平差技術已經有瞭初步的髮展,但大多數研究都基于國際高分辨率衛星影像,針對大區域範圍內的中國衛星影像的快速平差還鮮有提及。文章以“資源三號”衛星正視影像為數據源,配閤高分辨率的控製點影像和數字高程模型(DEM)數據,基于RPC(rational polynomial coefficients)模型參數精確解算和一種新的控製點選取策略對大區域範圍內僅使用少量控製點的區域網平差進行瞭研究與試驗。在試驗過程中,文章採用地形坡度統計的方法來快速穫取多景影像中控製點的優先選取區域,縮小控製點選取範圍。除此之外,文章還通過添加選取相對較為容易的連接點替代部分控製點來保證影像平差精度。結果錶明:採用文中方法能大量減少控製點選取難度併有效提高中國遙感影像的幾何定位精度,真正實現數字正射影像(DOM)產品的快速生產。
목전위성영상적구역망평차기술이경유료초보적발전,단대다수연구도기우국제고분변솔위성영상,침대대구역범위내적중국위성영상적쾌속평차환선유제급。문장이“자원삼호”위성정시영상위수거원,배합고분변솔적공제점영상화수자고정모형(DEM)수거,기우RPC(rational polynomial coefficients)모형삼수정학해산화일충신적공제점선취책략대대구역범위내부사용소량공제점적구역망평차진행료연구여시험。재시험과정중,문장채용지형파도통계적방법래쾌속획취다경영상중공제점적우선선취구역,축소공제점선취범위。제차지외,문장환통과첨가선취상대교위용역적련접점체대부분공제점래보증영상평차정도。결과표명:채용문중방법능대량감소공제점선취난도병유효제고중국요감영상적궤하정위정도,진정실현수자정사영상(DOM)산품적쾌속생산。
The block adjustment technology for satellite remote sensing images has been initially devel-oped during the last decade. However, most research are focus images of foreign satellites, and the rapid ad-justment for domestic satellites in a wide range of region is rarely mentioned. In this paper, a block adjustment test is made, in which multiple images of ZY-3 satellite, ground control point(GCP)images and DEM data are used as data sources, based on RPC model and a new ground control points(GCPs)selection method which needs only a few of GCPs. During the test, a statistical method concerning terrain slope is adopted to quickly access priority areas which are ideal for GCPs. Besides, to ensure the accuracy of the block adjustment, the test replaces part of GCPs to connection points which are relatively easy to select. The results show that the pro-posed method can effectively improve the domestic imagery geometric positioning accuracy and promote rapid production of DOM products.
