利用周遭雜訊逆推沖繩海槽地下構造

Hui-Yuan Fang; 方慧圓

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/44063

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	喬凌雲(Ling-Yun Chiao)
dc.contributor.author	Hui-Yuan Fang	en
dc.contributor.author	方慧圓	zh_TW
dc.date.accessioned	2021-06-15T02:38:20Z	-
dc.date.available	2009-08-14
dc.date.copyright	2009-08-14
dc.date.issued	2009
dc.date.submitted	2009-08-12
dc.identifier.citation	參考文獻 Aki, K. & Lee, W.H.K., 1976. Determination of three anomalies under a seismic array   using first P arrival times from local earthquakes. 1. A homogeneous initial model,   J. Geophys. Res., 81, 4381-4399 Backus, G.,1970. Preface. Geodynamics of the Eurasia-Philipping Sea palte boundary. Tectonophysics, 125:IX-X, 1986 Bensen, G.D., Barmin, M.P., Levshin, A.L., Lin, F., Moschetti, M.P., Shapiro, N.M.,   Yang, Y. & Ritzwoller, M.H., 2007. Processing ambient noise seismic data to   obtain reliable broadband surface wave dispersion measurements, doi:   10.1111/j.1365-246X.2007.03374.x, Geophys. J. Int., submitted. Campillo, M. & Paul, A., 2003. Long-range correlations in the diffuse seismic coda,   Science, 299, 547–549. Chiao, L. & Kuo, B., 2001. Multiscale Seismic Tomography, Geophys. J. Int.,145,   517-527. Chou, H., Kuo, B., Hung, S., Chiao, L., Zhao, D. & Wu, Y., 2006. The   Taiwan-Ryukyu subduction-collision complex: folding of a viscoelastic slab and   the double seismic zone, J. Geophys. Res., 111, B04410,   doi:10.1029/2005JB003822. Liang, W., Liu, C.,Chen, R., Huang, B.,Wu, F.T., & Wang, C.,2008. American   Geophysical Union, Fall Meeting 2008, abstract #T31C-2024 Lin, J., Hsu, S. & Sibuet, J., 2004. Melting features along the western Ryukyu slab edge (northeast Taiwan): Tomographic evidence. J. Geophys. Res., 109, B12402, doi: 10.1029/2004JB003260. Lin, F., Ritzwoller, M.H. & Shapiro, N.M., 2006. Is ambient noise tomography across   ocean basins possible? Geophys. Res. Lett., 33, L14304, doi:   10.1029/2006GL026610. Lin, F., Ritzwoller, M.H., Townend, J., Bannister, S. & Savage, M.K., 2007. Ambient   noise Rayleigh wave tomography of New Zealand. Geophys. J. Int., 170,649-666 Meyerholtz, K.A., Pavlis, G.L., & Szpakowski, S.A., 1989. Convolutional quelling in   seismic tomography. Geophysics, 54, 570-580 Sibuet, J., Deffontaines, B., Hsu, S., Thareau, N., Le Formal, J., Liu, C. & ACT party,   1998. The southwestern Okinawa Trough back-arc basin: Tectonics and volcanism.   J. Geophys. Res., 103, 30, 245-30,267 Snieder, R., 2004. Extracting the Green’s function from the correlation of coda waves: a   derivation based on stationary phase, Phys. rev. E, 69, 046610. Weaver, R.L. & Lobkis, O.I., 2001a. Ultrasonics without a source: Thermal fluctuation   correlation at MHZ frequencies, Phys. Rev. Lett., 87, 134 301. Weaver, R.L. & Lobkis, O.I., 2001b. On the emergence of the Green’s function in the   correlations of a diffuse field, J. Acoust. Soc. Am., 110, 3011–3017. 林佩瑩， 2003。台灣附近上地幔P波的層析成像。國立台灣大學海洋研究所碩士  論文，共51頁。尤水輝，2008。利用周遭地震噪訊雷利波層析成像法研究台灣北部地區淺層速度  構造。國立台灣大學地質研究所碩士論文，共59頁
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/44063	-
dc.description.abstract	摘要我們利用周遭雜訊法研究沖繩海槽淺部岩圈，因為此法不受地震與測站之間時空幾何分布的限制，只在乎測站之間分布的位置。我們計算由BATS、F-net和IES-OBS提供之共19個寬頻地震記錄站所記錄垂直方向上之長時間連續記錄的交互相關函數，得到測站間表面波傳遞的格林函數。把所有天數資料的疊加訊號與每20天疊加一次的訊號做相關係數的計算，挑選出較好品質的格林函數重新疊加，以不同的頻段(10~50秒之間)對其做窄頻濾波並計算其群速度值。利用得到的頻散曲線以三種不同的逆推的方法得到此區的層析成像、模型解析矩陣與模型變異數，並且比較其不同。最後我們佈放虛擬的海底地震儀，觀察其解析函數以及模型變異的空間變化，來探討如何佈放可使我們最能有效的描繪波速構造。	zh_TW
dc.description.abstract	Abstract We use ambient noise technique(ANT) to study the shallow lithosphere of Okinawa Trough, because ANT would not be limited by the distribution of earthquakes and stations. It depends only critically on the geometrical spread of stations. Vertical-component time-series recorded from 19 broad-band stations have been correlated with one another to yield estimated Green’s functions. We sort out data if the coefficient correlation between all-stacked and per 20 days-stacked record that are over an a prior assigned threshold. We then stack again to get higher quality Green’s function. We filter them by a narrow band that is concentrated within 10 to 50 s period to compute the group velocity maps in order to execute the tomography, and obtain the inverse model, the model resolution, and the model covariance matrix by three ways of inversion. In the end, we discuss the ideal pattern of OBSs deployment enhance our understanding of the Okinawa Trough.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T02:38:20Z (GMT). No. of bitstreams: 1 ntu-98-R96241305-1.pdf: 7105454 bytes, checksum: 891e25a044b5718eb103561807858d07 (MD5) Previous issue date: 2009	en
dc.description.tableofcontents	目錄頁次口試委員會審定書..................................................................................................................................I 中文摘要.....................................................................................................................................................II 英文摘要....................................................................................................................................................III 目錄.............................................................................................................................................................IV 圖目錄........................................................................................................................................................VI 表目錄......................................................................................................................................................VIII 第一章序論............................................................................................................................................1 1.1 簡介周遭雜訊法以及其與傳統地震學方法的優劣..................................................1 1.2 研究區域、目的與動機.......................................................................................................1 第二章基本原理、資料與資料處理............................................................................................3 2.1 研究方法基本原理...............................................................................................................3 2.2 資料來源..................................................................................................................................5 2.3 資料處理..................................................................................................................................5 2.3.1 降低取樣率及移除儀器響應...........................................................................9 2.3.2 濾波、資料連接及切齊.....................................................................................9 2.3.3 正規化.......................................................................................................................9 第三章資料篩選與逆推方法........................................................................................................13 3.1 資料篩選.................................................................................................................................13 3.1.1 三個波長的限制.................................................................................................13 3.1.2 利用相關係數挑選資料...................................................................................13 3.2 頻散分析.................................................................................................................................15 3.3 逆推方法.................................................................................................................................15 3.3.1 區域格點有限參數化.......................................................................................18 3.3.2 奇異值分解與設定門檻值.............................................................................18 3.3.3 傳統正則化..........................................................................................................21 3.3.4 捲積消制法..........................................................................................................23 3.3.5 多重尺度有限參數法........................................................................................24 第四章逆推結果與虛擬海底地震儀佈放試驗........................................................................25 4.1 逆推結果..................................................................................................................................25 4.1.1 最適模型解...........................................................................................................25 4.1.2 層析成像、模型解析矩陣與模型變異數.................................................26 4.2 時空監控.................................................................................................................................37 4.3 虛擬海底地震儀佈放試驗...............................................................................................37 4.3.1 全面佈放...............................................................................................................37 4.3.2 部份佈放...............................................................................................................40 第五章結論..........................................................................................................................................45 參考文獻..................................................................................................................................................46
dc.language.iso	zh-TW
dc.subject	表面波層析成像	zh_TW
dc.subject	周遭雜訊法	zh_TW
dc.subject	交互相關函數	zh_TW
dc.subject	沖繩海槽	zh_TW
dc.subject	cross-correlation	en
dc.subject	ambient noise technique	en
dc.subject	Okinawa Trough	en
dc.subject	tomography	en
dc.title	利用周遭雜訊逆推沖繩海槽地下構造	zh_TW
dc.title	Using Ambient Noise to Invert for Structure beneath Okinawa Trough	en
dc.type	Thesis
dc.date.schoolyear	97-2
dc.description.degree	碩士
dc.contributor.coadvisor	龔源成
dc.contributor.oralexamcommittee	洪淑蕙,梁文宗,郭本垣
dc.subject.keyword	表面波層析成像,沖繩海槽,周遭雜訊法,交互相關函數,	zh_TW
dc.subject.keyword	tomography,Okinawa Trough,ambient noise technique,cross-correlation,	en
dc.relation.page	47
dc.rights.note	有償授權
dc.date.accepted	2009-08-12
dc.contributor.author-college	理學院	zh_TW
dc.contributor.author-dept	海洋研究所	zh_TW
顯示於系所單位：	海洋研究所

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