Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/10352
標題: 應用數值航空攝影測量評估九份二山崩塌地演變
Using digital aerial photogrammetry on the Evaluation of Chiu-fen-erh-shan landslides Change
作者: 陳典佑
Chen, Dian-You
關鍵字: 數值航空攝影測量
Digital aerial photogrammetry
數值地形模型
九份二山崩塌地
地形高程變異
Digital terrain model (DTM)
Chiu-fen-erh-shan landslides
Terrain elevation variation
出版社: 土木工程學系所
引用: 1. 王晉倫、尹承遠、王文能(2006),九份二山崩塌地觀測探討,水土保持學報,38(4):303-316。 2. 千木良雅弘(2011),大規模崩塌潛感區(王文能、陳樹群、吳俊鋐,譯)。 3. 行政院農委會林務局農林航空測量所,http://www.afasi.gov.tw/。 4. 仲琦科技,http://www.hitrontech.com/。 5. 行政院農委會水土保持局(2001) ,「八十九年度土石流觀測機制建置-九份二山堰塞湖規劃及防災演練計畫」。 6. 行政院農委會水土保持局(2008) ,「九份二山崩塌地觀測計畫成果彙編」。 7. 李錫堤(2011),草嶺大崩山之地質與地形演變,中華水土保持學報,42(4): 325-335。 8. 李俊賢(2005),「觀音坑溪集水區土砂災害區位治理順位之研究」,國立中興大學水土保持學系碩士論文。 9. 吳華泰(2003),「整合特徵資訊的區域匹配法研究」,國立臺灣大學土木工程學系研究所碩士論文。 10. 吳秋雅(2007),「九份二山山崩前後構造地形特徵及坡體破壞機制探討」,國立臺灣大學理學院地質科學所碩士論文。 11. .吳奇勳(1994),「ASTER與SRTM產製DTM資料融合之研究」,國防大學中正理工學院軍事工程研究所碩士論文。 12. 何維信(1995),「航空攝影測量學」,大中國圖書公司。 13. 呂建華(2001),「集水區地理資訊系統數位分析應用」,必中出版社。 14. 陳俊仰(2007),應用數值航空攝影測量於土石變異量空間分布之評估,國立中興大學土木系碩士論文。 15. 陳耀賢(1991),「數值影像匹配及其對相似性評估能力之研究」,國立成功大學航空測量研究所碩士論文。 16. 經濟部中央地質調查所(2001),「九二一地震地質調查報告」。 17. 經濟部中央地質調查所(2000),「五萬分之ㄧ臺灣地質圖說明書-埔里圖幅」。 18. 黃聖恩(2011),應用數值航空攝影測量於崩塌地特徵分析-高雄旗山溪為例,國立中興大學土木系碩士論文。 19. 楊龍士、雷祖強、周天穎(2006),「遙感探測理論與分析實務」,文魁資訊有限股份公司。 20. 詹景丞(2009),應用數值航空攝影測量於地形高程與地表特徵變異之評估,國立中興大學土木系碩士論文。 21. 廖大牛(1980),「森林資源攝影測量」,臺灣省林務局。 22. 劉邦偉(2003),「以特徵為基礎的方法對NASA JPL AIRSAR影像與航測正射影像進行」,國立成功大學測量工程學系碩士論文。 23. 謝怡昇(2000),「數值航攝影像應用於土地利用強度之研究」,國立政治大學地政學系碩士論文。 24. Chi, W. R. (1979), Calcareaous nannoplankton biostratigraphy of the Nantou area, central Taiwan:Petrol. Geol. Taiwan, No. 16, 131-165. 25. Chiu, H. T. (1975), Miocene stratigraphy anf its relation to the Paleogene rocks in west-central Taiwan:Petrol. Geol. Taiwan, No. 12, 51-80. 26. E. Bruckl , F.K. Brunner , K. Kraus (2006), Kinematics of a deep-seated landslide derived from photogrammetric, GPS and geophysical data, Engineering Geology 88 (2006) 149–159. 27. Gonzalez, R. C. and Woods, R. E. (2002),Digital image processing. 28. Huang, C.Y. (1986), Oligocene and Miocene stratigraphy of the Kouhsing area, central Taiwan: Acta Geoogica Taiwanica. No. 24, 281-318. 29. Iida, T., and Okunishi, K., 1983, Development of hillslopes due to landslides, Extreme land forming events, 67-78. 30. Jian-Hong Wu,, Wen-Neng Wang, Chuang-Sheng Chang, Chin-Lun Wang, Effects of strength properties of discontinuities on the unstable lower slope in the Chiu-fen-erh-shan landslide, Taiwan. 31. Khazai, B. and Sitar, N. (2000),Companion website for landslides in Native Ground : A GIS-Based Approach to Regional Seismic Stability Slope Stability Assessment. 32. Leica Photogrammetry Suite Project Manager User’s Guide(2005), Leica Geosystems Geospatial Imaging, LLC. 33. Lillesand, T. M. and R. W. Kiefer, 2000. Remote Sensing and Image Interpretation, 4th ed., John Wiley & Sons, New York, USA. 34. Mark, D. M. (1984),Automated detection of drainage networks from digital elevation models, Cartographica(Auto-Carto Six Selected Papers,21(2-3):pp.168-178. 35. Miller, C. L and Laflamme, R. A. (1985),The digital terrain model-theory and application, Photogrammetric Engineering and Remote Sensing. 24(3):pp.433-443. 36. Peucker, T. K., Fowler, R. J., Little J. J. and Mark D. M., 1978, The trigangulated irregular network. Proceedings, Digital Terrain Models(DTM) Symposium. pp.516-540. 37. Peucker, T. K., Fowler, R. J., Little J. J. and Mark D. M., 1978, The trigangulated irregular network. Proceedings, Digital Terrain Models(DTM) Symposium. pp.516-540. 38. Richards, J. A. and X. Jia, 1999. Remote sensing digital image analysis:an introduction, 3rd ed., Springer-Verlag, Berlin, Germany. 39. Richards, J. A. and X. Jia, 1999. Remote sensing digital image analysis:an introduction, 3rd ed., Springer-Verlag, Berlin, Germany. 40. Wolf, P. R. and Dewitt, B. A. (2000), Elements of Photogrammetry (with Applicationsin GIS), 3rd edition. 41. Wen-Neng Wang,, Masahiro Chigira, and Takahiko Furuya (2002) , Geological and geomorphological precursors of the Chiu-fen-erh-shan landslide triggered by the Chi-chi earthquake in central Taiwan.
摘要: 1999年9月21日集集大地震重創台灣地區,地震在九份二山誘發大規模的山崩,大量的土石造成兩處堰塞湖的形成,此區域在地震過後為避免堰塞湖潰堤和雨季時所帶來的土石流等二次傷害,相關單位在此進行諸多的治理工程。 為了解九份二山崩塌地在地震過後的演變,使用數值航空攝影測量,運用ERDAS IMAGINE的Leica Photogrammetry Suites(LPS)模組,重建不同時期之正射影像與數值地形模型,影像來源為農林航空測量所歷年來在九份二山地區以及週遭地區所拍攝的航空影像。 建立民國91、94、96、98及100年之數值地形模型,搭配正射影像探討崩塌地地形高程變異,以及河道高程變異。 分析結果顯示九份二山崩塌地在民國91至94年間有較大高程變異,而民國94年以後的高程變異有逐漸變小之趨勢;河道亦有同樣高程變化,前期沖刷堆積現象也較為明顯,後期亦處於穩定狀態。
In 21st September of 1999, the Chi-Chi earthquake happened in central Taiwan. A large scale extensive landslide in Chiu-fen-erh-shan. Then, two dammed lake made by large mudflows and landslides. In trying to avoid the second hurt from the dammed lake failure and the landslide in the rainy season after the Chi-Chi earthquake. The government proceed a lot of projects. For the reason of to know about the geomorphological change after the Chi-Chi earthquake in Chiu-fen-erh-shan, Digital Aerial Photo -grammetry and the Leica Photogrammetry Suites(LPS) of ERDAS IMAGINE to rebuild orthophotos and digital terrain model for different time. The photo was took by the Aerial Survey Office. The photo was covers the Chiu-fen-erh-shan area and surrounding area for the photographic image. The digital terrain model of numerical was build for 2002, 2005, 2007, 2009 and 2011. It was arranged in pairs orthophotos to make comparison for the landslide Terrain elevation variation and river elevation variation. The results appear that there are large difference from 2002 to 2005 in Chiu-fen-erh-shan. Furthermore the elevation variation was smaller after 2005, as same as change of the river course. Erosion and sedimentation was obvious in the beginning and then was more stable.
URI: http://hdl.handle.net/11455/10352
其他識別: U0005-1308201312030800
文章連結: http://www.airitilibrary.com/Publication/alDetailedMesh1?DocID=U0005-1308201312030800
Appears in Collections:土木工程學系所

文件中的檔案:

取得全文請前往華藝線上圖書館



Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.