Loading...
|
Please use this identifier to cite or link to this item:
https://nccur.lib.nccu.edu.tw/handle/140.119/35892
|
| Title: | 產生正射影像區塊並進行航空影像定位
Generation of Orthoimage Pacthes and Orientation Determination for Aerial Images |
| Authors: | 李昆峯 |
| Contributors: | 邱式鴻
李昆峯 |
| Keywords: | 正射影像
外方位參數
地元
物空間匹配
Orthoimage
Exterior Orientation
Groundel
Object Space Matching |
| Date: | 2007 |
| Issue Date: | 2009-09-18 16:19:14 (UTC+8) |
| Abstract: | 本研究運用物空間匹配的理論,由已知方位的航空影像與由航空影像自動匹配產生或由空載光達測量取得的數值表面模型(DSM)資料中的平面特徵,製作成正射影像區塊,作為航空影像的控制資訊,並解算待求解之航空影像外方位參數。物空間匹配是以地元(groundel)的概念為基礎,地元為物空間上的單元,每個地元均含描述地表灰值變化的輻射資訊,以及描述地表起伏的幾何資訊。在此一地元即對應於正射影像區塊中的一個正射影像位置,由地元出發,經共線條件並進行輻射資訊調整可於航空影像上產生相對應的像元灰值。依據此關係,產生正射影像區塊時,使用已知方位的航空影像,由DSM資料並萃取物空間中的平面資訊,並由萃取平面上的每一地元出發,經由共線條件比對各已知方位航空影像中相對應像元間的灰值差異,進而產生正射影像區塊;而以正射影像區塊進行影像控制時,則由正射影像區塊中的每一地元出發,仍經由共線條件比對地表上的地元與相對應於待求解之航空影像上的像元灰值差異,達到影像外方位求解之目的。本研究中除以物空間匹配模式發展正射影像區塊製作與航空影像外方位求解之理論之外,並以不同時期的航空影像資料進行實驗與分析。
Existing aerial images and related spatial data are suitable for control data in aerial photogrammetry. This study will employ the concept of object space matching to generate the orthoimage control patches of plane features from existing aerial images data and digital surface model acquired from aerial image matching or airborne LIDAR surveying. Afterwards, those orthoimage control patches will be used to determine exterior orientation of aerial images by the concept of object space matching. Essentially, object space matching is based on the concept of groundel. The terrain surface condition is described by radiative information and geometric information in each groundel, i.e. each location (or pixel) in orthoimage control patches. The corresponding grey value of each pixel in each aerial image is transformed by the collinear condition and the adjustment of radiative information of groundel. According to the above-mentioned relationship, the relevant theory for generation of orthoimage control patches and exterior orientation determination of aerial images will be developed based on the comparison of grey value between each groundel and each corresponding aerial image pixel. To verify the feasibility of our derived theory, the aerial image data acquired from different period will be utilized for the test. Meanwhile, the relevant problems will be discussed and investigated in the experiments. |
| Reference: | 王正忠,2002,「以近景攝影測量進行模型式建物重建」,國立成功大學測量工程學系碩士論文。
江凱偉,2007,「新世代的測量車」,『科學發展』月刊,416期,頁6-12。
李德仁,袁修孝,2002,『誤差處理與可靠性理論』,武漢,武漢大學出版社。
李志宏,2002,「應用線特徵物求解攝影測量方位參數與物型重建」,國立台灣大學土木研究所碩士論文。
吳怡燊,2003,「影像控制區塊自動化量測及方位求解作業之探討」,國立台灣大學土木研究所碩士論文。
邱式鴻,2006,「產生正射影像區塊作為新拍航空影像控制用之可行性探討」,『航測及遙測學刊』,11(2),頁111-126。
周尚弘,2005,GPS與INS結合同軸數位量測相機之外方位精度分析,國立成功大學地球科學研究所碩士論文。
高治喜,1991,「小面解析立體視覺模式在一維方向之建立與探討」,國立成功大學航空測量研究所碩士論文。
陳雍政,2003,航空攝影測量於河川管理之實務應用,國立中興大學土木工程學系碩士論文。
陳詹閔,2006,「以影像控制區塊解算航攝影像外方位參數實用策略」,國立台灣大學土木研究所碩士論文。
張祖勛、張劍清,1997,『數字攝影測量學』,武漢,武漢大學出版社。
張哲豪,1990,「數位影像相關及定位於物空間整合之研究」,國立成功大學航空測量研究所碩士論文。
許志彰,2004,「以數值地形圖和GIS資料計算都會區航照像片外方位參數」,國立成功大學測量及空間資訊學系碩士論文。
彭念豪,2005,「以控制直線進行影像外方位參數求解之自動化作業」,國立台灣大學土木研究所碩士論文。
湯美華,2006,「空載光達點雲及地形圖輔助生產真實正射影像之研究」,國立成功大學測量及空間資訊學系碩士論文。
楊靈峰,2003,「以現有正射影像與DTM資料解算外方位參數」,國立成功大學測量工程學系碩士論文。
趙鍵哲、彭念豪,2005,「以光達資料之控制直線求解單張像片外方位參數之模式探討與可行性評估」,『航測及遙測學刊』,10(1),頁89-102。
Bilker, M., Honkavaara, E. and Jaakkola, J., 1998, “GPS supported aerial triangulation using untargeted ground control”, ISPRS Commission III Symposium, International Archives of Photogrammetry and Remote Sensing, 32(3/1), pp. 2-9.
Cramer, M, 2005, “GPS/inertial data in aerial photogrammetry”, University of Suttgart. http://www.ifp.uni-stuttgart.de/forschung/photo/georef-Dateien/georef.en.html
Drewniok, C. and Rohr, K., 1996, “Automatic Exterior Orientation of Aerial Images in Urban Environment”, International Archives of Photogrammetry and Remote Sensing, 31, pp. 146-152.
Ebner, H. and Ohlhof, T., 1994, “Utilization of Ground Control Points for Image Orientation without Point Identification in Image Space” International Archives of photogrammetry and Remote Sensing, ISPRS Commission III Symposium, Munich, Sep, Vol.30, Part 3/1, pp. 206-211.
Ebner, H. and Strunz, G., 1988, “Combined Point Determination Using Digital Terrain Models as Control Information”, International Archives of Photogrammetry and Remote Sensing, ISPRS 16th Congress, Kyoto, 27, pp. 578-587.
Ecker, R., Kalliany, R., and Otepka, G., 1993, “High Quality Rectification and Image Enhancement Techniques for Digital Orthophoto Production”, Photogrammetric Week `93, pp. 143-155.
Gonzalez, R.C. and Woods, R.E.著,繆紹綱譯,2003,『數位影像處理』,台北,普林斯頓國際有限公司。
Helava, U.V., 1988, “Object Space Least Squares Correlation”, International Archives of Photogrammetry and Remote Sensing, 27(B3), pp. 321-331.
Masry, S. E., 1981, “Digital Mapping Using Entities: A New Concept”, Photogrammetric Engineer and Remote Sensing, 48, pp. 1561-1599.
Pedersen, B. M., 1996, “Automated Measurement of Ground Control Objects in Large Scale Aerial Photographs”, International Archives of Photogrammetry and Remote Sensing, 31, pp. 633-637.
Schenk, T., 2004, “From point-based to feature-based aerial triangulation”, ISPRS Journal of Photogrammetry and Remote Sensing, 58, pp. 315-329.
Werner, T., Schaffalitzky, F. and Zisserman, A., 2001, “Automated Architecture Reconstruction from Close-Range Photogrammetry”, Proc. on CIPA 2001 International Symposium: Surveying and Documentation of Historic Buildings Monuments Sites.
Wolf, P. R. and Dewitt B. A., 2000, Elements of Photogrammetry with Applications in GIS, 3rd ed., McGraw-Hill.
Wrobel, B. 1987, “Facets Stereo Vision (FAST Vision) – A New Approach to Computer Stereo Vision and to Digital Photogrammetry”, Conference on Fast Processing of Photogrammetric Data, pp.231-258. |
| Description: | 碩士
國立政治大學
地政研究所
94257001
96 |
| Source URI: | http://thesis.lib.nccu.edu.tw/record/#G0094257001 |
| Data Type: | thesis |
| Appears in Collections: | [地政學系] 學位論文
|
All items in 政大典藏 are protected by copyright, with all rights reserved.
|
