自动可靠地获取精确且均匀分布的连接点并进行区域网平差解算,是使用倾斜航空影像进行高精度测绘、三维信息提取和三维城市模型构建等应用的前提。本文提出了一种实用化的大重叠率倾斜航空影像的全自动连接点匹配和联合区域网平差方法。一方面,针对倾斜航空影像因遮挡严重、尺度变化大和几何变形严重而引起的同名点匹配困难问题,充分利用POS数据和平均飞行高度等初始数据,同时顾及这些数据的误差,通过有效组合一种改进的ASIFT算法和基于窗口的多角度多视影像匹配模型(WMVM),使用由粗到细的多分辨率分层匹配策略完成连接点的全自动提取;另一方面,在传统的最小二乘光束法平差的基础上,根据倾斜航空影像数据的特点,提出了基于稳健估值原理的粗差自动探测与剔除关键算法。最后,利用多组典型试验区域的倾斜航空影像数据试验结果验证了所提算法的可靠性、精度和实际性能。
Due to advantages such as ease of interpretation, completeness through mitigation of occluding areas, as well as system accessibility, the aerial oblique images have found their place in numerous civil applications. However, for these applications high quality orientation data are essential. A fully automatic tie-point extraction procedure is developed to precisely orient the large block of oblique aerial images, in which a refined ASIFT algorithm and a window-based multiple-viewing image matching (WMVM) method are combined. In this approach, the WMVM method is based on the concept of multi-image matching guided from object space and allows reconstruction of 3D objects by matching all available images simultaneously, and a square correlation window in the reference image can be correlated with windows of different size, shape and orientation in the search images.Then another key algorithms, i.e. the combined bundle adjustment method with gross-error detection & removal algorithm, which can be used for simultaneously orient the oblique and nearly-vertical images will be presented. Finally, through the experiments by using real oblique images over several test areas, the performance and accuracy of the proposed method is studied and presented.
[1] 王伟, 黄雯雯, 镇姣. Pictometry倾斜摄影技术及其在3维城市建模中的应用[J]. 测绘与空间地理信息, 2011, 34(3):181-183. WANG Wei, HUANG Wenwen, ZHEN Jiao. Pictometry Oblique Photography Technique and Its Application in 3D City Modeling[J]. Geomatics & Spatial Information Technology, 2011, 34(3):181-183.
[2] 杨久勇, 高峰, 向宇. 倾斜航空摄影的原理与特点[C]//中国测绘学会2010年学术年会论文集. 南京:中国测绘学会, 2010:341-344. YANG Jiuyong, GAO Feng, XIANG Yu. Principle & Characteristics of the Oblique Aerial Photogrammetry[C]//Proceedings of the Society of Geodesy、Photogrammetry and Cartography. Nanjing:China Surveying and Mapping Society, 2010:341-344.
[3] 田野, 向宇, 高峰, 等. 利用Pictometry倾斜摄影技术进行全自动快速三维实景城市生产——以常州市三维实景城市生产为例[J]. 测绘通报, 2013(2):59-62,66. TIAN Ye, XIANG Yu, GAO Feng, et al. Automatic and Fast 3D True City Production Based on Pictometry Oblique Photogrammetry Technology[J]. Bulletin of Surveying and Mapping, 2013(2):59-62,66.
[4] 桂德竹, 林宗坚, 张成成. 倾斜航空影像的城市建筑物三维模型构建研究[J]. 测绘科学, 2012, 37(4):140-142. GUI Dezhu, LIN Zongjian, ZHANG Chengcheng. Research on Construction of 3D Building Based on Oblique Images from UAV[J]. Science of Surveying and Mapping, 2012, 37(4):140-142.
[5] WEITH-GLUSHKO S, SALVAGGIO C. Automatic Tie-point Generation for Oblique Aerial Imagery:An Algorithm[EB/OL].[2012-03-10]. http://testcis.cis.rit.edu/cnspci/references/theses/senior/weith-glushko2004.pdf.
[6] RUPNIK E, NEX F, REMONDINO F. Automatic Orientation of Large Blocks of Oblique Images[C]//International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences:XL-1/W1. Hannover:ISPRS, 2013:299-304.
[7] 姚国标, 邓喀中, 张力, 等. 融合互补仿射不变特征的倾斜立体影像高精度自动配准方法[J]. 测绘学报, 2013, 42(6):869-876. YAO Guobiao, DENG Kazhong, ZHANG Li, et al. An Automated Registration Method with High Accuracy for Oblique Stereo Images Based on Complementary Affine Invariant Features[J]. Acta Geodaetica et Cartographica Sinica, 2013, 42(6):869-876.
[8] WIEDEMANN A, MORé J. Orientation Strategies for Aerial Oblique Images[C]//International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences:XXXIX-B1. Melbourne:ISPRS, 2012:185-189.
[9] 闫利, 费亮, 叶志云, 等. 大范围倾斜多视影像连接点自动提取的区域网平差法[J]. 测绘学报, 2016, 45(3):310-317. DOI:10.11947/j.AGCS.2016.20140673. YAN Li, FEI Liang, YE Zhiyun, et al. Automatic Tie-points Extraction for Triangulation of Large-scale Oblique Multi-view Images[J]. Acta Geodaetica et Cartographica Sinica, 2016, 45(3):310-317. DOI:10.11947/j.AGCS.2016.20140673.
[10] 戴激光, 王新亮, 郭一洋. 一种稳健的倾斜航空影像粗差探测方法[J]. 测绘通报, 2014(5):28-31. DOI:10.13474/j.cnki.11-2246.2014.0151. DAI Jiguang, WANG Xinliang, GUO Yiyang. A Robust Method of Gross Error Detection for Oblique Aerial Image[J]. Bulletin of Surveying and Mapping, 2014(5):28-31. DOI:10.13474/j.cnki.11-2246.2014.0151.
[11] NISTÉR D. An Efficient Solution to the Five-point Relative Pose Problem[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2004, 26(6):756-770.
[12] LÄBE T,FÖRSTNER W. Automatic Relative Orientation of Images[C]//Proceedings of the 5th Turkish-German Joint Geodetic Days. Berlin:[s.n.], 2006.
[13] LOWE D G. Distinctive Image Features from Scale-invariant Keypoints[J]. International Journal of Computer Vision, 2004, 60(2):91-110.
[14] MATAS J, CHUM O, URBAN M, et al. Robust Wide-baseline Stereo from Maximally Stable Extremal Regions[J]. Image and Vision Computing, 2004, 22(10):761-767.
[15] MIKOLAJCZYK K,SCHMID C. Scale & Affine Invariant Interest Point Detectors[J]. International Journal of Computer Vision, 2004, 60(1):63-86.
[16] YANG Huachao,ZHANG Shubi,WANG Yangbo. Robust and Precise Registration of Oblique Images Based on Scale-invariant Feature Transformation Algorithm[J]. IEEE Geoscience and Remote Sensing Letters, 2012, 9(4):783-787.
[17] YU Yinan, HUANG Kaiqi, CHEN Wei, et al. A Novel Algorithm for View and Illumination Invariant Image Matching[J]. IEEE Transactions on Image Processing, 2012, 21(1):229-240.
[18] MOREL J M, YU Guoshen. ASIFT:A New Framework for Fully Affine Invariant Image Comparison[J]. SIAM Journal on Imaging Sciences, 2009, 2(2):438-469.
[19] ZHANG Li. Automatic Digital Surface Model (DSM) Generation from Linear Array Images[D]. Zurich:Institute of Geodesy and Photogrammetry, ETH Zurich, 2005.
[20] ZHANG Li, GRUEN A. Multi-image Matching for DSM Generation from IKONOS Imagery[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 2006, 60(3):195-211.
[21] 李德仁, 袁修孝. 误差处理与可靠性理论[M]. 武汉:武汉大学出版社, 2002. LI Deren, YUAN Xiuxiao. Error Processing and Reliability Theory[M]. Wuhan:Wuhan University Press, 2002.
