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題名 多元衛星雷達影像於臺灣北部 執行PS-InSAR之研究
Implementation of PS-InSAR using multiple spaceborne radar images and its application in Northern Taiwan
作者 楊豐毓
貢獻者 林士淵
楊豐毓
關鍵詞 PS-InSAR
ERS-2
ENVISAT
ALOS
臺灣北部
日期 2012
上傳時間 2-Jan-2014 14:36:39 (UTC+8)
摘要 許多研究已證實PS-InSAR技術可藉由長時間序列中的永久散射點之變化量,準確獲取地表變動速度。然各衛載雷達系統所選用的雷達波長不盡相同,其對於地表各擁有不同的散射特性,而此特性使得各類衛星雷達影像所得到的PS-InSAR成果不盡相同。
本研究為探求不同雷達影像類型所得到的PS-InSAR成果的差異,以臺灣北部為實驗區,利用ERS-2、ENVISAT ASAR與ALOS PALSAR三類型衛星雷達影像,以StaMPS V3.2軟體執行PS-InSAR技術。結果成功於臺灣西北部及宜蘭平原等地區獲取大量的PS點,同時獲得該PS點位之地形變化量。而後並以經濟部水利署所建置之地層下陷資料檢核地表變動成果,得到與水準資料相似的變化趨勢,顯示出PS-InSAR於各雷達影像獲取之時間點,解算大面積地表變化量的優勢。
參考文獻 中文部分:
工業技術研究院能源與資源研究所,2003,『台灣地區地層下陷之監測、調查及分析』台北:經濟部水利署。
王志添,2010,「多組態星載干涉雷達於地變形觀測研究」,國立中央大學太空科學研究所博士論文:中壢市。
王志添, 陳錕山 與 張佩雯,2005,「多偏極雷達於林區監測研究」,論文發表於〈台灣地理資訊學會年會暨學術研討會〉,台灣地理資訊學會:台北市。
周峰泯,2009,「應用永久散射體差分干涉法觀測台灣北部地區之地表變形」,中央大學地球物理研究所碩士論文:中壢市。
林紀綱,2003,「NASA/JPL空載INSAR測定台灣地區的DEM成果分析」,成功大學測量工程學系碩士論文:台南市。
財團法人臺灣水利環境科技研究發展教育基金會,2008,『石門水庫集水區產砂量推估與數位式集水區綜合管理研究計畫』臺北市:經濟部水利署北區水資源局。
國立中央大學通訊系統研究中心,2000,『應用空載雷達影像資料於災害防救之研究』臺北市:經濟部水資源局。
國立交通大學防災工程研究中心,2008,『石門水庫集水區崩塌與庫區淤積風險評估研究』臺北市:經濟部水利署。
張中白, 王志添, 王皓正 與 陳錕山,2004,「應用雷達差分干涉法監測都會型地表變形:以中壢工業區為例」,9(3):9~14。
張奇,1995,「空載合成孔徑雷達影像於外方位參數與地表重建之研究」,中央大學土木工程研究所碩士論文:中壢市。
陳錕山,2006,『衛星災害監測及預警機制建立』1,台北市:經濟部水利署。
臺灣經濟研究院,2009,『石門水庫及其集水區整治計畫之經濟效益評估』臺北市:經濟部水利署。
潘國樑,2009,『遙測學大綱』第二版,台北市:科技圖書股份有限公司。
盧玉芳,2007,「以雷達干涉技術監測雲林地層下陷」,國立交通大學土木工程系所碩士論文:新竹市。
蕭逸凡,2010,「永久散射雷達干涉技術應用於地表變遷偵測」,中央大學土木工程學系碩士論文:中壢市。
謝嘉聲,2006,「以雷達干涉技術偵測地表變形之研究」,國立交通大學土木工程研究所Doctor:新竹市。
謝嘉聲 與 史天元,1999,「以雷達干涉量測技術產生數值高程模型資料實作探討」,10):69~82。
謝嘉聲 與 史天元,2001,「以Doris進行雷達差分干涉技術產生數值地形模型之研究」,論文發表於〈第二十屆測量學術及應用研討會〉,國立中央大學太空及遙測研究中心:中壢市。


外文部分:
Adams, B.J., 2004, “Iimproved disaster management through post-earthquake building damage assessment using multitemporal satellite imagery”, Paper presented at ISPRS, Istanbul, Turkey, 12~23 July.
Bayuaji, L. and Sumantyo, J.T.S., 2011, “ALOS Palsar for temporal analysis of surface deformation on mud volcano eruption in Sidoarjo using D-InSAR technique”, Paper presented at ACRS, Chinese Taipei Society of Photogrammetry and Remote Sensing; Center for Space and Remote Sensing Research, National Central University; Asian Association on Remote Sensing; International Society for Photogrammetry and Remote Sensing, Taipei, Taiwan, October 3 - 7, 2011.
Campbell, B.A., 2002, Radar Remote Sensing of Planetary Surfaces. Cambridge: University Press.
Crosetto, M., Arnaud, A., Duro, J., Biescas, E. and Agudo, M., 2003, “Deformation monitoring using remotely sensed radar interferometric data”, Paper presented at 11th FIG Symposium on Deformation Measurements, The International Federation of Surveyors is an international, Santorini, Greece, May 25-28.
Fan, K.-T., Chung-Paib, C., Yenc, H.-Y., Yend, J.-Y. and Chene, C.-H., 2011, “Monitoring of surface deformation in northern Taiwan using PS-InSAR techniques”, Paper presented at ACRS, Chinese Taipei Society of Photogrammetry and Remote Sensing; Center for Space and Remote Sensing Research, National Central University;sian Association on Remote Sensing; International Society for Photogrammetry and Remote Sensing, Taipei, Taiwan, October 3 - 7, 2011.
Ferretti, A., Monti-Guarnieri, A., Prati, C., Rocca, F., Milano, P.d. and Massonnet, D., 2007, InSAR Principles: Guidelines for SAR Interferometry Processing and Interpretation. Netherlands: ESA.
Fornaroa, G., Pauciulloa, A. and Serafinoa, F., 2009, “Deformation monitoring over large areas with multipass differential SAR interferometry: a new approach based on the use of spatial differences”, REMOTE SENSING. 30(6): 1455~1478.
Gabriel, A.K. and Goldstein, R.M., 1988, “Crossed orbit interferometry: theory and experimental results from SIR-B”, REMOTE SENSING. 9(5): 857~872.
Gens, R. and Genderen, J.L.V., 1996, “SAR interferometry-issues, techniques, applications”, REMOTE SENSING. 17(10): 1803~1835.
Graham, L.c., 1974, “Synthetic Interferometer Radar for Topographic Mapping”, IEEE. 62(6): 763~768.
Hall, R.W. and Branson, N.J.B.A., 1971, “High resolution radio observations of the planet Venus at a wavelength of 6 CM”, Monthly Notices of the Royal Astronomical Society. 151(1971): 185~196.
Hooper, A.J., 2006, Persistent scatterer radar interferometry for crustal deformation studies and modeling of volcanic deformation, published doctoral dissertation, stanford university, Julianalaan 134, Delft, the Netherlands
Hooper, A., Segall, P. and Zebker, H., 2007, “Persistent scatterer interferometric synthetic aperture radar for crustal deformation analysis, with application to Volca´n Alcedo, Gala´pagos”, GeoPHYSICAL RESEARCH. 112(B07407): B07407(07401-07421).
Hooper, A., 2008, “A multi-temporal InSAR method incorporating both persistent scatterer and small baseline approaches”, GeoPHYSICAL RESEARCH. 35(L16302): L16302(16301-16305).
Hooper, A., 2008, “A combined multi-temporal insar method incorporating persistent scatterer and small baseline approaches”, Paper presented at FRINGE Workshop, Frascati, 2007.
Hu, J.-C., Champenoisb, J., Lina, K.-C., Fruneau, B. and Pathierc, E., 2011, “Monitoring of active deformation in collision zone of eastern Taiwan from PS-InSAR and continuous GPS observation”, Paper presented at ACRS, Chinese Taipei Society of Photogrammetry and Remote Sensing; Center for Space and Remote Sensing Research, National Central University; Asian Association on Remote Sensing; International Society for Photogrammetry and Remote Sensing, Taipei, Taiwan, October 3-7, 2011.
Jensen, J.R., 2007, Remote Sensing of the Enviroment. USA: Pearson.P. 293-320
Kampes, B.M., 2005, Displacement parameter estimation using permanent scatterer interferomertry, published doctoral dissertation, Delft University, Delft, Netherlandss.
Lundgren, P., Usai, S., Sansosti, E., Lanari, R., Tesauro, M., Fornaro, G. and Berardino, P., 2001, “Modeling surface deformation observed with synthetic aperture radar interferometry at Campi Flegrei caldera”, GeoPHYSICAL RESEARCH. 106(B9): 19355~19366.
Lyons, S. and Sandwell, D., 2003, “Fault creep along the southern San Andreas from interferometric synthetic aperture radar, permanent scatterers, and stacking”, GeoPHYSICAL RESEARCH. 108(B1): 2047-2057.
Massonnet, D., Carmona, M.R.C., Adragna, F., Peltzer, G., Feigl, K. and Rabaute, T.,1993,“The displacement field of the Landers earthquake mapped by radar interferometry”,364(8):138~142.
Massonnet, D. and Feigl, K.L., 1998, “Radar interferometry and its application to changes in the earth`s surface”, Reviews of Geophysics. 36(4): 441~500.
Mora, O., Mallorqui, J.J. and Broquetas, A., 2003, “Linear and Nolinear Terrain Deformation Maps from Reduced set of interferogrametric SAR Images”, IEEE Transactions on Geosicence and Remote Sensing. 41(10): 2243-2253.
Ng, S.M., Hu, J.-C., Chang, C.-P., Wu, Y.-M. and Yu, S.-B., 2011, “Seismic hazard assessment in Taoyuan-Hsinchu area:Insights from InSAR Persistent Scatterers”, Paper presented at ACRS, Chinese Taipei Society of Photogrammetry and Remote Sensing; Center for Space and Remote Sensing Research, National Central University; Asian Association on Remote Sensing; International Society for Photogrammetry and Remote Sensing, Taipei, Taiwan, October 3 - 7, 2011.


Rodgers A.E.E. and R.P. Ingalls , 1969, “Venus Mapping: The Surface Reflectivity by Radar Interferometry” ,SCIENCES, Vol. 165, pp. 797-799.
Rosen, P.A., Hensley, S., Joughin, L.R., Li, F.K., Madsen, S.N., Rodríguez, E. and Goldstein, R.M., 2000, “Synthetic Aperture Radar Interferometry”, IEEE. 88(3): 333-382.
Shimada, M., Tadono, T., Takahashi, M., Ohki, M., Miyagi, Y., Watanabe, M., Motooka, T., Shiraishi, T., Kawano, N. and Tapa, R., 2011, “ALOS Achievement Summary And ALOS-2/3”, Paper presented at ACRS, Chinese Taipei Society of Photogrammetry and Remote Sensing; Center for Space and Remote Sensing Research, National Central University; Asian Association on Remote Sensing; International Society for Photogrammetry and Remote Sensing, Taipei, Taiwan, October 3 - 7, 2011.
Stabel, E. and Fischer, P., 2001, “Satellite radar interferometric products for the urban application domain”, Advances in Environmental Research. 5(15): 425~438.
Suga, Y., Takeuchi, S., Oguro, Y., Chen, A.J., Ogawa, M., Konishi, T. and Yonezawa, C., 2001, “Application of ERS-2/SAR data for The 1999 Taiwan earthquake”, Adv. Space Res. 28(1): 155-163.
Verhoest, N.E.C., Lievens, H., Wagner, W., Álvarez-Mozos, J., Moran, M.S. and Mattia, F., 2008, “On the Soil Roughness Parameterization Problem in Soil Moisture Retrieval of Bare Surfaces from Synthetic Aperture Radar”, Sensors. 2008(8): 4213-4248.
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Xia, Y., 2010, Synthetic Aperture Radar Interferometry. New York: Guochang Xu.


Yu, J.H. and GE., L., 2010, “Digital Elevation Model generation using ascending and descending multi-baseline ALOS/PALSAR radar images”, Paper presented at FIG Congress 2010, FIG, Sydney, Australia, 11-16 April.
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描述 碩士
國立政治大學
地政研究所
98257023
101
資料來源 http://thesis.lib.nccu.edu.tw/record/#G0098257023
資料類型 thesis
dc.contributor.advisor 林士淵zh_TW
dc.contributor.author (Authors) 楊豐毓zh_TW
dc.creator (作者) 楊豐毓zh_TW
dc.date (日期) 2012en_US
dc.date.accessioned 2-Jan-2014 14:36:39 (UTC+8)-
dc.date.available 2-Jan-2014 14:36:39 (UTC+8)-
dc.date.issued (上傳時間) 2-Jan-2014 14:36:39 (UTC+8)-
dc.identifier (Other Identifiers) G0098257023en_US
dc.identifier.uri (URI) http://nccur.lib.nccu.edu.tw/handle/140.119/63230-
dc.description (描述) 碩士zh_TW
dc.description (描述) 國立政治大學zh_TW
dc.description (描述) 地政研究所zh_TW
dc.description (描述) 98257023zh_TW
dc.description (描述) 101zh_TW
dc.description.abstract (摘要) 許多研究已證實PS-InSAR技術可藉由長時間序列中的永久散射點之變化量,準確獲取地表變動速度。然各衛載雷達系統所選用的雷達波長不盡相同,其對於地表各擁有不同的散射特性,而此特性使得各類衛星雷達影像所得到的PS-InSAR成果不盡相同。
本研究為探求不同雷達影像類型所得到的PS-InSAR成果的差異,以臺灣北部為實驗區,利用ERS-2、ENVISAT ASAR與ALOS PALSAR三類型衛星雷達影像,以StaMPS V3.2軟體執行PS-InSAR技術。結果成功於臺灣西北部及宜蘭平原等地區獲取大量的PS點,同時獲得該PS點位之地形變化量。而後並以經濟部水利署所建置之地層下陷資料檢核地表變動成果,得到與水準資料相似的變化趨勢,顯示出PS-InSAR於各雷達影像獲取之時間點,解算大面積地表變化量的優勢。
zh_TW
dc.description.tableofcontents 摘要 I
目錄 III
圖目錄 IV
表目錄 VI
第一章 緒論 1
第一節 研究背景與動機 1
第二節 研究目的 3
第三節 研究方法及流程 4
第四節 章節架構 5
第二章 理論基礎與文獻回顧 7
第一節 合成孔徑雷達 7
第二節 合成孔徑雷達干涉 11
第三節 合成孔徑雷達差分干涉 20
第四節 永久散射點雷達差分干涉 28
第五節 小結 37
第三章 研究方法 39
第一節 資料選取 39
第二節 研究工具 45
第三節 PS-INSAR處理流程 46
第四章 研究成果及分析 49
第一節 實驗成果 49
第二節 PS-INSAR成果檢核 59
第五章 結論與建議 67
參考文獻 69
附錄1 臺北市主幹線31個水準點位歷年高程變動量
zh_TW
dc.format.extent 9242638 bytes-
dc.format.mimetype application/pdf-
dc.language.iso en_US-
dc.source.uri (資料來源) http://thesis.lib.nccu.edu.tw/record/#G0098257023en_US
dc.subject (關鍵詞) PS-InSARzh_TW
dc.subject (關鍵詞) ERS-2zh_TW
dc.subject (關鍵詞) ENVISATzh_TW
dc.subject (關鍵詞) ALOSzh_TW
dc.subject (關鍵詞) 臺灣北部zh_TW
dc.title (題名) 多元衛星雷達影像於臺灣北部 執行PS-InSAR之研究zh_TW
dc.title (題名) Implementation of PS-InSAR using multiple spaceborne radar images and its application in Northern Taiwanen_US
dc.type (資料類型) thesisen
dc.relation.reference (參考文獻) 中文部分:
工業技術研究院能源與資源研究所,2003,『台灣地區地層下陷之監測、調查及分析』台北:經濟部水利署。
王志添,2010,「多組態星載干涉雷達於地變形觀測研究」,國立中央大學太空科學研究所博士論文:中壢市。
王志添, 陳錕山 與 張佩雯,2005,「多偏極雷達於林區監測研究」,論文發表於〈台灣地理資訊學會年會暨學術研討會〉,台灣地理資訊學會:台北市。
周峰泯,2009,「應用永久散射體差分干涉法觀測台灣北部地區之地表變形」,中央大學地球物理研究所碩士論文:中壢市。
林紀綱,2003,「NASA/JPL空載INSAR測定台灣地區的DEM成果分析」,成功大學測量工程學系碩士論文:台南市。
財團法人臺灣水利環境科技研究發展教育基金會,2008,『石門水庫集水區產砂量推估與數位式集水區綜合管理研究計畫』臺北市:經濟部水利署北區水資源局。
國立中央大學通訊系統研究中心,2000,『應用空載雷達影像資料於災害防救之研究』臺北市:經濟部水資源局。
國立交通大學防災工程研究中心,2008,『石門水庫集水區崩塌與庫區淤積風險評估研究』臺北市:經濟部水利署。
張中白, 王志添, 王皓正 與 陳錕山,2004,「應用雷達差分干涉法監測都會型地表變形:以中壢工業區為例」,9(3):9~14。
張奇,1995,「空載合成孔徑雷達影像於外方位參數與地表重建之研究」,中央大學土木工程研究所碩士論文:中壢市。
陳錕山,2006,『衛星災害監測及預警機制建立』1,台北市:經濟部水利署。
臺灣經濟研究院,2009,『石門水庫及其集水區整治計畫之經濟效益評估』臺北市:經濟部水利署。
潘國樑,2009,『遙測學大綱』第二版,台北市:科技圖書股份有限公司。
盧玉芳,2007,「以雷達干涉技術監測雲林地層下陷」,國立交通大學土木工程系所碩士論文:新竹市。
蕭逸凡,2010,「永久散射雷達干涉技術應用於地表變遷偵測」,中央大學土木工程學系碩士論文:中壢市。
謝嘉聲,2006,「以雷達干涉技術偵測地表變形之研究」,國立交通大學土木工程研究所Doctor:新竹市。
謝嘉聲 與 史天元,1999,「以雷達干涉量測技術產生數值高程模型資料實作探討」,10):69~82。
謝嘉聲 與 史天元,2001,「以Doris進行雷達差分干涉技術產生數值地形模型之研究」,論文發表於〈第二十屆測量學術及應用研討會〉,國立中央大學太空及遙測研究中心:中壢市。


外文部分:
Adams, B.J., 2004, “Iimproved disaster management through post-earthquake building damage assessment using multitemporal satellite imagery”, Paper presented at ISPRS, Istanbul, Turkey, 12~23 July.
Bayuaji, L. and Sumantyo, J.T.S., 2011, “ALOS Palsar for temporal analysis of surface deformation on mud volcano eruption in Sidoarjo using D-InSAR technique”, Paper presented at ACRS, Chinese Taipei Society of Photogrammetry and Remote Sensing; Center for Space and Remote Sensing Research, National Central University; Asian Association on Remote Sensing; International Society for Photogrammetry and Remote Sensing, Taipei, Taiwan, October 3 - 7, 2011.
Campbell, B.A., 2002, Radar Remote Sensing of Planetary Surfaces. Cambridge: University Press.
Crosetto, M., Arnaud, A., Duro, J., Biescas, E. and Agudo, M., 2003, “Deformation monitoring using remotely sensed radar interferometric data”, Paper presented at 11th FIG Symposium on Deformation Measurements, The International Federation of Surveyors is an international, Santorini, Greece, May 25-28.
Fan, K.-T., Chung-Paib, C., Yenc, H.-Y., Yend, J.-Y. and Chene, C.-H., 2011, “Monitoring of surface deformation in northern Taiwan using PS-InSAR techniques”, Paper presented at ACRS, Chinese Taipei Society of Photogrammetry and Remote Sensing; Center for Space and Remote Sensing Research, National Central University;sian Association on Remote Sensing; International Society for Photogrammetry and Remote Sensing, Taipei, Taiwan, October 3 - 7, 2011.
Ferretti, A., Monti-Guarnieri, A., Prati, C., Rocca, F., Milano, P.d. and Massonnet, D., 2007, InSAR Principles: Guidelines for SAR Interferometry Processing and Interpretation. Netherlands: ESA.
Fornaroa, G., Pauciulloa, A. and Serafinoa, F., 2009, “Deformation monitoring over large areas with multipass differential SAR interferometry: a new approach based on the use of spatial differences”, REMOTE SENSING. 30(6): 1455~1478.
Gabriel, A.K. and Goldstein, R.M., 1988, “Crossed orbit interferometry: theory and experimental results from SIR-B”, REMOTE SENSING. 9(5): 857~872.
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