政大機構典藏-National Chengchi University Institutional Repository(NCCUR):Item 140.119/106931

政大機構典藏-National Chengchi University Institutional Repository(NCCUR):Item 140.119/106931

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政大典藏 > College of Social Science > Department of Land Economics > Theses > Item 140.119/106931

Please use this identifier to cite or link to this item: https://nccur.lib.nccu.edu.tw/handle/140.119/106931

Title:	以四旋翼UAS酬載熱感測器製作數值表面溫度模型供地溫研究 Generation of digital surface temperature model from images collected by thermal sensor on quadcopter UAS for geothermal study
Authors:	謝耀震 Hsieh, Yao-Chen
Contributors:	邱式鴻 Chio, Shih-Hong 謝耀震 Hsieh, Yao-Chen
Keywords:	無人機熱像定位定向光束法空三平差熱像儀率定三焦張量 Unmanned aircraft system Thermal images Positioning and orientation Bundle adjustment aerial triangulation Thermal camera calibration Trifocal tensor
Date:	2017
Issue Date:	2017-03-01 17:24:13 (UTC+8)
Abstract:	熱像儀，能感測可見光感測器無法取得的訊息，因此若能透過熱像儀器進行環境偵測，便能得到一般可見光感測器無法獲取的資料。本研究擬以四旋翼UAS酬載熱像儀得到局部區域高解析度之地面熱資訊以便作為地溫研究之背景資料使用。而一般地溫研究區，不易佈設控制點，因此本研究除於無人機上酬載熱像儀之外，並將搭載Trimble BD970 GNSS OEM接收模組，嘗試以少量地面控制點、以及GNSS動態後處理的方式取得取像時對應的GNSS觀測量輔助熱像定位定向。本研究中針對國立政治大學旁的指南溪實驗區與陽明山國家公園的小油坑實驗區，使用AI-RIDER YJ-1000-HC四旋翼UAS分別酬載熱像儀FLIR Tau 640和巨哥XM6，並且同時搭載Trimble BD970 GNSS OEM接收模組、以及GNSS動態後處理的方式取得取像時對應的GNSS觀測量搭配少量地面控制點輔助熱像定位定向，過程中透過三焦張量剔除自動匹配之誤匹配連結點。實驗結果顯示，兩實驗區所產製之DSM於不易變動區域精度經現有資料檢核均在±1m，而指南溪實驗區產製出地面解析度11公分的數值表面模型(Digital Surface Model, DSM)與正射熱像，且正射熱像平面精度達為47公分；小油坑實驗區產製出地面解析度14公分之DSM與正射熱像，正射熱像平面精度則為67公分，雖然DSM和正射熱像精度無法符合一般常規的測量規範，但成果仍然可以證明熱像直接產製DSM以及正射熱像之可行性，兩實驗區最後皆生成數值溫度表面模型(Digital Surface Temparature Model, DSTM)，顯示本研究所提方法之可行性，所生成之成果可供後續地溫研究使用。 Thermal infrared images show the temperature change of sensed scenes. Therefore, thermal infrared camera can sense some important information that optical digital cameras cannot do for the environment monitoring. In this study, the Quadcopter UAS for thermal image collection applied to geothermal study will be developed. FIIR Tau 640 and Magnity Eletric XM6 thermal infrared sensor will be used in this thermal image collection system separately two test areas, Zhinan River nearby NCCU and Xiaoyoukeng, in the Yangmingshan National Park. Additionally, Trimble BD970 GNSS OEM board will be carried on the Quadcopter UAS to collect dual-frequency GNSS observations for determining the flying trajectory by Post-processed kinematic (PPK) technique to support the positioning and orientating of collected thermal images, and the trifocal tensor will be used to delete wrong matching tie images points. From the tests, the differences between produced DSM and existing DSM data are ± 1 m on uneasy change ground surface in two test areas. The resolution of produced DSM and thermal orthoimages are about 11 cm in Zhinan River, and 14cm in Xiaoyoukeng area. The accuracy of thermal orthoimages is 47cm in Zhinan River and 67cm in Xiaoyoukeng area. The accuracy of thermal orthoimages may not comply with a normal surveying standard, but it proves the possibility of DSM and orthorectifed thermal images generated from thermal images directly. Digital Surface Temparature Model (DSTM) produced in both tests can be used for volcanic geothermal monitoring in the future.
Reference:	王冠中，2012，「都市土地利用型與地表溫度關係之探究──以台北市為例」，國立台灣大學森林環境暨資源學研究所碩士論文：台北。方啟任，2006，「熱影像技術與類神經網路應用於海堤淘空之研究」，立德管理學院資源環境研究所碩士論文：新竹。李良輝，2014，「最小二乘法平差理論與實務」，新北市：旭營文化。李德仁、單杰，1989，「利用導航資料的光線束法區域網平差的品質分析」，『測繪學報』，18(1): 129-136。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。李璟芳，張守陽，林志平，2004，「紅外線熱影像應用於土石流監測之可行性研究」，中華水土保持學報35卷3期，頁261-274。吳秉晃，2002，「集集地震後阿里山地區公路邊坡之崩壞行為與熱影像特性研究」，國立成功大學土木工程學研究所碩士論文：台南。那至中，2010，「面陣列熱影像特性之研究」，國立政治大學地政學系研究所碩士論文：台北。范成楝，2001，「遙控飛機空載視訊影像自動化鑲嵌方法之研究」，國立中央大學土木工程研究所碩士論文：中壢。袁修孝，2001，「GPS 輔助空中三角測量原理及應用」，北京：測繪出版社。張祖勛、張劍清，2009，「數字攝影測量學」，武漢：武漢大學出版社。張詒祥，2013，「電子化全球衛星即時動態定位系統應用於車載移動製圖平台定位表現之研究」，國土測繪與空間資訊期刊。許翎㳖，2014，「VBS-RTK GPS輔助單旋翼UAS熱影像定位定向之研究」，國立政治大學地政學系研究所碩士論文：台北。莊弘豪、曾若玄、薛憲文，1996，「電廠溫排水海表溫度分布之衛星遙測初步研究」，台灣海洋工程學會，新竹。郭南榮、許明光，2012，「黑潮通量及其變化之觀測-子計畫：多衛星觀測分析台灣鄰近海域黑潮運動特性及利用SAR及CODAR資料研究黑潮海域的表面流」，國立臺灣海洋大學海洋環境資訊系。趙弘文，2009，「無人旋翼機自動駕駛系統之研發」，國立成功大學航空太空工程研究所碩士論文：台南。鄭傑文，2007，「攝影幾何於攝影測量之應用」，國立臺灣大學工學院土木工程學研究所碩士論文：台北。謝啟文，2011，「利用Landsae ETM+熱波段影像於災害後復健狀況評估」，朝陽科技大學營建工程系研究所碩士論文：台中。顏怡和、邱式鴻、徐百輝、蔡季欣、林世賢、施錦揮，2012，「定翼型 UAS影像立體測圖之精度探討」，論文發表於〈第三十一屆測量及空間資訊研討會〉，國立台北大學：台北，民國101年9月27日至101 年9月28日。 Ackermann, F.E. 1992, “Operational Rules and Accuracy Models for GPS Aerial Triangulation”, International Archives of Photogrammetry and Remote Sensing, 29(B3): 691-700. Ackermann, F. and Schade, H., 1993,“Application of GPS for Aerial Triangulation”, Photogrammetric Engineering & Remote Sensing, 59(1):1625-1632. Ackermann, F.E. 1994, “On the status and accuracy performance of GPS photogrammetry”, Ackermann, F., 1997, “GPS for Photogrammetry”, International Society for Photogrammetry and Remote Sensing, 56(4): 387-406. Ambrosia1, V.G., S.S. Wegener, J.A. Brass, E. Hinkley, 2005, “Use of Unmanned Aerial Vehicles for Fire Detection”, Proceedings of the 5th International Workshop on Remote Sensing and GIS Applications to Forest Fire Management: Fire Effects Assessment: 9-17 Universidad de Zaragoza. ISBN: 84-96214-52-4. Amici, S., Turci, M., Giammanco, S., Spampinato, L., & Giulietti, F, 2013, “UAV Thermal Infrared Remote Sensing of an Italian Mud Volcano ” ,Advances in Remote Sensing, 02(04), 358-364. doi:10.4236/ars.2013.24038. BD970 GNSS receiver module user guide”, version 4.1, Trimble com., 2010. Beyer, H. A., Korref. H. Tiziani 1992, Geometric and radiometric analysis of a CCD-camera basedphotogrammetric close-range system, Doctoral dissertation”, Diss. Techn.Wiss.ETH Zürich, Nr. 9701, 1992. Ref.: A. Grün；. Barazzetti L, Scaioni M, Remondino F, 2010, Orientation and 3D modelling from markerless terrestrial images: combining accuracy with automation ” Photogramm Record 25(132):356–381 Bilker, M., Honkavaara, E. and Jaakkola, J., 1998, “GPS supported aerial triangulation using untargeted ground control”, International Archives of Photogrammetry and Remote Sensing, 32(3): pp. 2-9.Blankenberg, L. E., 1992, “GPS supported aerial triangulation - state of the art”,Photogrammetry Journal of Finland, 13(1): 4-16. Brown, D.C. ,1976,“ The Bundle Adjustment: Progress and Prospects”,International Archive of Photogrammetry, Helsinki, Finland.Brumana et al. (2013) Colwell, R.N., 1983, Manual of Remote Sensing, 2nd ed .Am.SOC. of photogrammetry and Remote Sensing.Ebadi, H., 1997, A Comprehensive study on GPS Assisted Aerial Triangulation, PhD Dissertation, Dept. of Geometrics’ Engineering. ,The University of CALGARY,Alberta, Canada. Eisenbeiss, H., 2004, “A mini Unmanned Aerial Vehicle (UAS): System overview and image acquisition”, Proceeding of the International Archives of Photogrammetry and Remote Sensing, Pitsanulok, Thailand, November 18-20.Friess, P., 1990, “Kinematic GPS Positioning for Aerial Photogrammetry Empirical Results”, International Symposium on Precise Positioning with the Global Positioning System, 3(7):1169-1184. Erdas Inc., 2008, “LPS Project Manager Use’s Guide”, Norcross, Georgia. Erdas Inc. Faux, R. N., Maus P. and Lachowski H., Christian E. T., Matthew S. B., 2001, New approaches for monitoring stream temperature:Airborne thermal infrared remote sensing. Report Prepared for: Inventory & Monitoring Steering Committee Bob Simonson San Dimas Technology & Development Center 444 East Bonita Avenue, San Dimas, CA. Friess, P., 1990, “Kinematic GPS Positioning for Aerial Photogrammetry Empirical Results”, International Symposium on Precise Positioning with theGlobal Positioning System, 3(7):1169-1184. Friess, P., 1988, “Empirical accuracy of positions computed from airborne GPS data”, International Archives of Photogrammetry and Remote Sensing, 27(B3):215-234. Hartley, R., Zisserman, A., 2004,“Multiple View Geometry in Computer Vision”, 2nd edition, the United States of America by Cambridge University Press, New York. Hartmann, W., Tilch, S., Eisenbeiss, H., Schindler, K., 2012,“Determination of the UAS position by automatic processing of thermal images”, Switzerland. Ham Y. and Fard .M.G. , 2012,“An automated vision-based method for rapid 3D energy performance modeling of existing buildings using thermal and digital imagery”, Advanced Engineering Informatics, 27(3)：395–409. Hinsken, L. U. D. G. E. R., Miller, S., Tempelmann, U., Uebbing, R. and Walker, A. S. 2002, “Triangulation of the LH Systems’ ADS40 using ORIMA GPS/IMU”, International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, 34(3A): 156-162. Hinsken, L., 2008, “CAP-A – Combined Adjustment Program Aerial Version”, Norcross, Georgia. Erdas Inc. Hsu, L.Y., Chen C. Y., Chio, S.H., 2013,“The study on position and orientationof close-range thermal infrared images”, Proceedings of International Symposium on Remote Sensing, Tokyo, Japan, May 15-17. James, M. R., Robson, S., Pinkerton, H., Ball, M., 2006,“Obliquephotogrammetry with visibleand thermal images of active lava flows”, Bulletin of volcanology, 69(1)：105-108. Jose A. J. Berni, Student Member, IEEE, Pablo J. Zarco-Tejada, Lola Suárez, and Elias Fereres, 2009,“IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING”. Kremer, J., 2009,“Optimized data acquisition with the IGIDigiTHERM Thermal Camera System”, Photogrammetric week, Stuttgart Germany. Lagüela, S., González-Jorge, H., Armesto, J., Arias, P., 2011, Calibration and verification ofthermographic cameras for geometric measurements. Infrared Phys. Technol. 2011(54)：92-99. Liao, C. L., and Huang, H. H., 2013, “Study on Using Thermal Image to Produce Digital Surface Temperature Model”, Proceedings of International Symposium on Remote Sensing, Tokyo, Japan, May 15-17. Luhmann, T., Ohm, J., Piechel, J., Roelfs, T.,“Geometric Calibration of Thermographic Cameras”, In : Proceedings of the ISPRS Commission V Mid-Term Symposium on Close Range Image Measurement Techniques, Newcastle upon Tyne, UK, 21–24 June 2010； Volume 38, Part 5, pp. 411-416. Lucas, J. R., 1987, “Aerotriangulation Without Ground Control”, Photogrammetric Engineering and Remote Sensing, 53(3): 311-314. Lin J.Y. and Chio, S.H., 2012,“The Accuracy Influence of Different Camera Calibration Conditions to Bundle Adjustment of Close Range Images”, Proceedings of The 33nd Asian Conference on Remote Sensing , Pattaya, Thailand, November 26-30. Mikhail, E. M., Bethel, J.S., McGlone, C.J., 2001, Introduction to Modern Photogrammetry, USA:John Wiley & Sons Inc. Miraliakbari, A., Hahn, M., Arefi, H., Engels, J., 2010,“Development of a low–cost sensor system for use on gyrocopters”, International Society of Photogrammetry and Remote Sensing, Commission I, Calgay- Canada 2010. Nishar, A., Richards, S., Breen, D., Robertson, J., & Breen, B. (2016). Thermal infrared imaging of geothermal environments and by an unmanned aerial vehicle (UAV): A case study of the Wairakei – Tauhara geothermal field, Taupo, New Zealand. Renewable Energy, 86, 1256-1264. doi:10.1016/j.renene.2015.09.042 Ollero, A., Martínez-de-Dios, J. R., L Merino., 2006, “Unmanned Aerial Vehicles as tools for forest-fire fighting”, V International Conference on Forest Fire Research, D. X. Viegas (Ed.). Pozzoli, A., Mussio, L., Scaioni, M., 2004, “A Solution for the General Case of the Three-Image Orientation”, XXth ISPRS Congress, Istanbul, Turkey. Remondino, F., and Fraser, C., 2006, “Digital Camera Calibration Methods: Considerations and Comparisons”, ISPRS Commission V Symposium, Dresden, Germany, September 25-27. Roncella R, Re C, Forlani G, (2011), “Comparison of two structure and motion strategies” Int Arch Photogramm Remote Sens Spatial Inf Sci 38(5/W16):1–8 (CD-ROM) Ruzgiene, B. and Vainauskas, V., 2000,“Investigation of aerial triangulation applying surface deformation theory”, International Society of Photogrammetry and Remote Sensing, 33(B4)：879-882. Skarlatos, D., Procopiou, E., Stavrou, G., Gregoriou, M., 2013,“ Accuracy assessment of minimum control points for UAS photography and georeferencing” , Proceedings of International Conference on Remote Sensing and Geoinformation of Environment, Paphos, Italy, April 8-10. Tilling, R.I., 1989, “Volcanic hazards: Short course in geology”, volume 1.28th International Geoloical Congress, Washungton, D.C., 123P. Tronin, A.A., 2000,“Thermal IR satellite sensor data application for earthquake research in China”, International Journal of Remote Sensing, 21(16): 3169-3177. Wolf, P. R., Dewitt B. A. and Wilkinson B.E., 2014: Elements of Photogrammetry with Applications in GIS, Fourth edition, Taipei: The McGraw-Hill. 國土測繪中心，2014，e-GPS即時動態系統入口網站，取用日期：2010年5月7日，http://www.egps.nlsc.gov.tw Pix4Dmapper ，2015， https://pix4d.com/ 達雲科技有限公司，2014， http://www.lidar.com.tw/?m=140&newsid=142&n=1&d=75 Adobe, Photoshop CS5 說明書， https://helpx.adobe.com/tw/photoshop/topics.html FLIR Systems (2013, February 19).Infrared Imaging Systems, Retrieved February 19, 2013 from FLIR Systems on the World Wide Web: http://www.FLIR.com Trimble BD-970 ( 2014, Jane 10). Trimble BD-970 datasheet, Retrieved Jane 10，2014 from triBD-970 datasheet on the World Wide Web: http://x9gps.com/bin/TrimbleBD970DataSheet.pdf
Description:	碩士國立政治大學地政學系 103257032
Source URI:	http://thesis.lib.nccu.edu.tw/record/#G0103257032
Data Type:	thesis
Appears in Collections:	[Department of Land Economics] Theses

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