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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
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dc.contributor.advisor | 趙鍵哲(Jen-Jer Jaw) | |
dc.contributor.author | Ting-Hsuan Chiu | en |
dc.contributor.author | 邱庭萱 | zh_TW |
dc.date.accessioned | 2021-06-15T11:15:52Z | - |
dc.date.available | 2021-11-08 | |
dc.date.copyright | 2016-11-08 | |
dc.date.issued | 2016 | |
dc.date.submitted | 2016-08-19 | |
dc.identifier.citation | Agrafiotis, P., and Georgopoulos, A., 2015. Camera constant in the case of two media photogrammetry. The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, 40(5):1-6.
Fryer, J.G., and Kniest H.T., 1985. Errors in depth determination caused by waves in through-water photogrammetry, The Photogrammetric Record, 11:745-753. Jerlov, N.G., 1976. Marine Optics, Elsevier Publishing, Amsterdam, The Netherland, 231 p. Kotowski, R., 1988. Phototriangulation in Multi-media Photogrammetry, International Archives of Photogrammetry and Remote Sensing, ISPRS 1988 Congress, Vol. XXXVII, Part 5, pp. 324-334. Lucido, L., Opderbecke, J., Rigaud, K., Deriche, R., and Zhang, Z., 1996, A terrain referenced underwater positioning using sonar bathymetric profiles and multiscale analysis. In: OCEANS'96. MTS/IEEE. Prospects for the 21st Century. Conference Proceedings, Vol. 1, pp.417-421. Maas, H.-G., 1992. Digitale Photogrammetrie in der Dreidimensionalen Strömungsmesstechnik. Ph.D. Thesis, ETH Zürich, Zürich, Switzerland. Maas, H.-G., 1995. New developments in multimedia photogrammetry, Optical 3-D Measurement Techniques III, Wichmann Verlag, Karlsruhe. Maas, H.-G. 2015. On the accuracy potential in underwater/multimedia photogrammetry, Sensors, 15(8), 18140-18152. Melsheimer, C., and Chin L. S., 2001, Extracting bathymetry from multi-temporal SPOT images, the 22nd Asian Conference on Remote Sensing, Vol. 5. Mikhail, E. M., Bethel, J. S., & McGlone, J. C. (2001). Introduction to modern photogrammetry (Vol. 1). John Wiley & Sons Inc. Mulsow, C., 2010. A Flexible Multi-media Bundle Approach, International Archives of Photogrammetry and Remote Sensing, ISPRS 2010 Congress, Vol. XXXVIII, Part 5, Newcastle upon Tyne, UK, pp. 472-477. Murase, T., Tanaka, M., Tani, T., Miyashita, Y., Ohkawa, N., Ishiguro, S., Suzuki, Y., Kayanne, H., and Yamano, H., 2008. A photogrammetric correction procedure for light refraction effects at a two-medium boundary, Photogrammetric Engineering and Remote Sensing, 74(9):1129-113. Roberts, A. C. B., 1999. Shallow water bathymetry using integrated airborne multi-spectral remote sensing. International Journal of Remote Sensing, 20(3):497-510. Shih, P.T.Y., Y.H. Chen, and J.C. Chen, 2014. Historic Shipwreck Study in Dongsha Atoll with Bathymetric LiDAR, Archaeol. Prospect, (21):139-146. Wang, C. K., and Philpot, W. D., 2007. Using airborne bathymetric lidar to detect bottom type variation in shallow waters. Remote Sensing of Environment, 106(1):123-135. 東沙環礁,2013. 地圖與遙測影像數位典藏,中央研究院人文社會科學研究中心地理資訊科學研究專題中心,URL: http://gis.rchss.sinica.edu.tw/mapdap/wp-content/uploads/2013/02/東沙環礁衛星影像20041106.jpg. (last date assessed: 31 Dec. 2015) 洪可芹,2014。以透水攝影測量獲取河川底床地形,碩士論文,國立成功大學測量及空間資訊研究所。 欽桂勤、黃桂平、張永生,2011。雙介質攝影測量共線理論研究,測繪學報,40(3):351-358。 黃聖日、趙鍵哲,2014,自空氣往水中之攝影測量前方交會定位分析,第三十三屆測量及空間資訊研討會,論文集,國立臺灣大學土木工程學研究所,pp.1111-1122。 趙鍵哲、彭念豪、黃泊森,2009。有理函式秩虧處理,航測及遙測學刊,14(3):225-236。 | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/49096 | - |
dc.description.abstract | 框幅式影像物像對應關係建立於透視投影原理,在單一介質中遵循像點、透視中心及物點共線特性。然而當成像光線行經不同介質環境時會因折射效應產生偏折,惟有正確地描述光線在不同介質中的行經路徑才能獲致良好的物像對應關係。本文旨在清澈且平靜無波的水體環境假設下,在函數模式上考量光線折射效應,並將水位面參數以及水下物點坐標列為前方交會計算之未知參數;在隨機模式上引入虛擬觀測量,使得觀測量或參數誤差能合理及隨資料品質有彈性地在最小二乘平差計算中運作。本文成果包含可解性及解算策略的定性討論,以及在水位面及水下物點坐標解算品質上的定量分析,可作為類似場景及測量任務品質精進之重要參考。 | zh_TW |
dc.description.abstract | The imaging ray under perspective projection would follow the collinearity property, meaning that the image point, perspective center, and object point are collinear, if single medium of imaging is considered. Yet, the refraction effect would bend the imaging ray when it comes to passing different media. Only by quality object-to-image correspondence could the whole path of imaging ray travelling in varied media be correctly established. Under the assumption of clear and lentic environment, the study aims to determine the underwater object points and the water surface simultaneously when dealing with photogrammetric intersection considering the refraction effect in the function model; besides, the pseudo-observations are drawn into the random model that leads the least square adjustment more reasonable and flexible along with observations or errors from parameters. The results involve not only the qualitative discussions of solvability and the strategies solving for singular geometry, but also the quantitative analysis of the quality of determined underwater object points and the water surface, both ultimately offering tasks of the like effective tools and experiences gained in this study. | en |
dc.description.provenance | Made available in DSpace on 2021-06-15T11:15:52Z (GMT). No. of bitstreams: 1 ntu-105-R03521113-1.pdf: 4874813 bytes, checksum: 846b97cff408dfacb1a981a341c85e8c (MD5) Previous issue date: 2016 | en |
dc.description.tableofcontents | 致謝 I
中文摘要 II ABSTRACT III 目錄 IV 圖目錄 VI 表目錄 VIII 1 第一章 緒論 1 1.1 研究動機與目的 1 1.2 研究方法與流程 5 1.3 論文架構 5 2 第二章 研究背景 7 2.1 框幅式影像物像對應數學模式 7 2.2 前方交會 8 2.3 折射效應 9 2.4 自空氣往水中攝影之前方交會 9 3 第三章 研究方法 11 3.1 物像對應數學模式 11 3.1.1 自空氣往水中物像對應數學模式 11 3.1.2 解算系統分析 13 3.1.3 虛擬觀測平差模型 14 3.2 前交物點配置可解性分析 16 3.3 條件數求解幾何穩定性 18 3.4 品質評估 19 3.4.1 參數理論精度 19 3.4.2 實際精度 22 4 第四章 模擬資料與實際資料實驗成果與討論 24 4.1 模擬資料實驗配置及定位分析 24 4.2 前交可解性數值分析 27 4.2.1 立體對對應單一水位面位置 27 4.2.2 立體對對應不同水位面位置 30 4.3 參數精度對前交解算品質之影響 34 4.3.1 參數精度之定位品質 34 4.3.2 虛擬觀測誤差合理授予 37 4.3.3 同時解算水位面高度及水下物點三維坐標之定位品質 37 4.3.3.1 同時解算單一水位面及水下物點三維坐標之定位品質 40 4.3.3.2 同時解算不同水位面及水下物點三維坐標之定位品質 44 4.4 實際影像自空氣往水中攝影前方交會 45 4.4.1 實驗場景及設計 45 4.4.2 方位解算及前方交會解算成果 50 4.4.2.1 實驗一 50 4.4.2.2 實驗二 55 4.4.2.3 實驗三 59 4.4.2.4 實驗四 62 5 第五章 結論與建議 66 5.1 結論 66 5.2 建議 67 參考文獻 68 附錄一 70 附錄二 72 | |
dc.language.iso | zh-TW | |
dc.title | 以攝影測量進行水位面及水下物點坐標解算 | zh_TW |
dc.title | Photogrammetric Determination of Water Surface and Underwater Object Points | en |
dc.type | Thesis | |
dc.date.schoolyear | 104-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 蔡展榮,邱式鴻 | |
dc.subject.keyword | 折射效應,前方交會,水位面,水下物點, | zh_TW |
dc.subject.keyword | Refraction effect,Intersection,Water surface,Underwater object point, | en |
dc.relation.page | 73 | |
dc.identifier.doi | 10.6342/NTU201603311 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2016-08-21 | |
dc.contributor.author-college | 工學院 | zh_TW |
dc.contributor.author-dept | 土木工程學研究所 | zh_TW |
顯示於系所單位: | 土木工程學系 |
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