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研究生: 蘇敬怡
Jing-Yi Su
論文名稱: 利用S波與尾波探求蘭陽平原局部場址效應
A Study of Local Site Effect on the Lan-Yang Plain by using S Waves and Coda Waves
指導教授: 蔡義本
Yi-Ben Tsai
口試委員:
學位類別: 碩士
Master
系所名稱: 地球科學學院 - 地球物理研究所
Graduate Institue of Geophysics
畢業學年度: 88
語文別: 中文
論文頁數: 81
中文關鍵詞: 場址效應剪力波尾波蘭陽平原
外文關鍵詞: site effect, S wave, coda wave, Lan-Yang Plain
相關次數: 點閱:5下載:0
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    • 本研究以中央氣象局強地動觀測網的近場及遠場地震資料為依據,從S波與尾波的富利葉譜中,利用地震學頻譜比值的方法,計算宜蘭地區各強地動觀測站的場址放大效應係數,並分區探討S波與尾波場址效應係數的相關性,以及局部場址效應係數與地表地質的關係。
    本研究共選取了中央氣象局強地動觀測網宜蘭地區的29個地震、25個測站的地震記錄作為研究資料,為了系統地探討蘭陽地區局部場址效應,依測站所在的地表地質及地形,將研究區域劃分成三區:Ⅰ.位於廬山層的測站、Ⅱ.蘭陽平原中心至平原邊緣連線上的測站群、以及Ⅲ.南澳附近的沖積層測站,並討論各區的局部場址效應。各記錄分別取出S波與尾波的頻譜值後,依據地表地質的條件,選取位於廬山層地層上的測站ILA052作為參考站,將其他各測站的S波與尾波頻譜值與參考站的頻譜值相比對,得到S波及尾波的場址效應係數。分析並討論這些頻譜比值資料之後,得到下面結論:
    1.S波頻譜比與尾波頻譜比在各頻率段均可看到相同的起伏變化情形。
    2.位在平原中心的測站有低頻場址放大的現象,此低頻放大現象應與盆地構造有關。
    3.測站的場址效應除了與地表地質有一定的相關性之外,還會受到其他因素(如地表地形、沖積層覆蓋、不同地層的震波傳遞速度以及地下構造形貌等)的影響,所以場址效應的相關因素應該說是多重而複雜的。
    4.S波與尾波頻譜比的計算結果,得到相當一致的場址效應係數。
    5.強地動觀測資料的尾波部份進行分析研究,其優點在於各測站之加速度記錄均有絕對的地動值,不需要作繁雜的儀器放大倍率的修正,對於尾波振幅資料的研究方面甚為方便。

    This study used the near and far field data recorded by the Taiwan Strong Motion Instruments Program (TSMIP) of CWB (Central Weather Bureau). We used the Spectrum Ratio to calculate each site amplification coefficient between a reference rock site and each soil site of the Lan-Yang Plain from Fourier spectrum of S waves and Coda waves. The relationship between the site effect factor of S and Coda waves and surface geology in different areas was analyzed in this study.
    The data used were recorded by the TSMIP accelerographs of CWB from 29 earthquakes and at 25 stations on the Lan-Yang Plain. According to the surface geology, the sites of Lan-Yang Plain was divided into 3 areas:Ⅰ. sites on Lushan Formarion; Ⅱ. sites from the basin center to basin edge; Ⅲ. sites near by Nanao alluvium. Based on surface geology, I chose ILA052 to be the reference site. The results from the spectrum ratio of each soil site and the reference site in this study are summarize below:
    1.The S wave and Coda wave Spectral Ratios are similar on different frequency bands.
    2.There is site amplification in low frequencies on the central part of the plain. This site effect is probably related to basin structure.
    3.The site effect was not only related to surface geology but also other causes (e.g. surface topography). The causes of site amplification effect are many and complex.
    4.There are the same site amplification factors which were obtained by the spectral ratios of S waves and Coda waves.
    5.The advantage of using Coda waves of strong motion records to analyze site effect is that each acceleration record at different sites has absolute ground motion value. It is not necessary to correct the instruments response. It is convenient to study the Coda wave amplitudes.

    第一章 緒論................................1 1.1 研究動機與目的.......................1 1.2 文獻回顧.............................2 1.3 本文內容.............................4 第二章 研究區域及背景資料..................6 2.1 地形及地質概況.......................6 2.2 強震資料的蒐集......................15 第三章 資料處理過程及研究方法.............19 3.1 資料處理過程........................19 3.1.1 參考站的選取..................19 3.1.2 尾波時窗的選取................20 3.1.3 檢視S波及尾波記錄的訊噪比....22 3.2 研究方法............................27 3.2.1 S波的頻譜比..................27 3.2.2 尾波的頻譜比..................32 第四章 研究結果與分析討論.................35 4.1 Ⅰ區:位於廬山層的測站..............35 4.2 Ⅱ區:平原中心到平原邊緣連線的測站..40 4.3 Ⅲ區:南澳附近的沖積層測站..........43 4.4 S波與尾波頻譜比標準差的比較........46 4.5 S波與尾波放大係數的相關性..........48 4.6 與前人研究成果比較..................48 第五章 結論...............................51 參考文獻..................................53 附 錄..................................56 英文摘要..................................81

    Aki, K. 1969. Analysis of the seismic coda of local earthquake
    as scattered waves, J. Geophys. Res., 74, 615-631.
    Aki K. and B. Chouet, 1975. Origin of coda waves: Source,
    attenuation, and scattering effects, J. Geophys. Res., 80,
    3322-3342.
    Andrews, D. J., 1986. Objective Determination of source
    parameters and similarity of earthquakes of different size,
    Earthquake Source Mechanics, American Geophysical Union,
    Washington, DC, 259-267.
    Boore, D. M., W. B. Joyner, and T. E. Funal, 1993. Estimation
    of response spectral and peak acceleration from western
    North American earthquake : an interim report, U.S. Geo.
    Surv. Open File Report. 93-509, 72pp.
    Borchert, R. D. 1970. Effect of local geology on ground motion
    near San Francisco Bay, Bull. Seism. Soc. Am., 60, 29-61.
    Hanks, T. C. and A. G. Brady, 1991. The Loma Prieta earthquake,
    ground motion, and damage in Oakland, Treasure Island, and
    San Francisco, Bull. Seism. Soc. Am., 81, 2019-2047.
    Hartzell , S. H. 1992. Site response estimation from earthquake
    data, Bull. Seism. Soc. Am., 82, 2308-2327.
    Hartzell, S. H., A. Leeds, A. Frankel, and John Michael, 1996.
    Site response for Los Angeles using aftershocks of the
    Northridge earthquake. Bull. Seism. Soc. Am., 86, s168-
    s192.
    Joyner, W. B., R. E. Warrick, and T. E. Fumal, 1981. The effect
    of Quaternary alluvium on strong ground motion in the Coyto
    Lake, California earthquake of 1979, Bull. Seism. Soc. Am.,
    71, 1333-1349.
    Kato, K., K. Aki, and Masayuki Takemura, 1995. Site
    amplification from coda waves: Validation and application
    to S-wave site response, Bull. Seism. Soc. Am., 85,467-477.
    Koyanagi, S., K. Mayeda, and K. Aki, 1992. Frequency-dependent
    site amplification factors using the S-wave coda for the
    Island of Hawaii, Bull. Seism. Soc. Am., 82,1151-1185.
    Krawinkler H., A. Nassar, and M. Rahnama, 1991. Damage
    potential of Loma Prieta ground motins, Bull. Seism. Soc.
    Am., 81, 2048-2069.
    Margheriti, L., L. Wennerberg, and J. Boatwright, 1994. A
    comparison of coda and S-wave spectral ratios as estimates
    of site response in the Southern San Francisco Bay Area,
    Bull. Seism. Soc. Am., 84, 1815-1830.
    Phillips, W. S. and K. Aki, 1986. Site amplification of coda
    waves from local earthquakes in Centrral California, Bull.
    Seism. Soc. Am., 76, 627-648.
    Seed , H. B., C. Ugas, J. Lysmer, 1976. Site dependent spectra
    for earthquake resistant design, Bull. Seism. Soc. Am., 66,
    221-243.
    Somerville, P. and J. Yoshimura, 1990. The influence of
    critical Moho reflections on strong ground motions recorded
    in San Francisco and Oakland during the 1989 Loma Prieta
    earthquake, Geophys, Res. Lett., 17, 1203-1206.
    Su, F., K. Aki, T. L. Teng, Y. Zeng, S. Koyanagi, and Mayeda,
    1992. The realation between site amplification factor and
    surficial geology in Central California, Bull. Seism. Soc.
    Am., 82, 580-602.
    Su, F. and K. Aki, 1995. Site amplification factors in Central
    and Southern California determined from coda waves, Bull.
    Seism. Soc. Am., 85, 452-466.
    Su, F., J. G. Anderson, J., N. Brune, and Y. Zeng, 1996. A
    comparison of direct S-wave and coda-wave site
    amplification determined from aftershocks of the Little
    Mountain earthquake, Bull. Seism. Soc. Am., 86, 1006-1018.
    Tsujiura, M., 1978. Spectral analysis of the coda waves from
    ocal earthquakes, Bull. Earthquake Res. Inst., 53,1-48.
    王乾盈、陳桂寶,1993。蘭陽平原之區域場址效應,台灣地區強地動觀測
    計畫研討會論文摘要,第74-80頁。
    王聖育,1993。蘭陽平原地震波放大作用之研究,國立中央大學碩士論
    文。
    江新春,1976。宜蘭平原之震測,礦業技術,第14卷,第六期,215-
    221。
    何春蓀,1994。台灣地質概論,經濟部中央地調所。
    宜蘭縣政府,1994。宜蘭縣地理圖集,第5頁。
    宜蘭縣政府,1995。宜蘭縣水資源整體規劃(水政部份)基本水文資料。
    林金泉,1999。台灣北部震波耗散及場址效應之分離,國立中央大學碩士
    論文。
    莊文福,1992。蘭陽平原場址效應調查研究,國立中央大學碩士論文。
    陳坤杰,1997。以反應譜研究宜蘭平原之強地動場址效應,國立中央大學
    碩士論文。
    楊女英 女英,1997。台北盆地、宜蘭平原及台灣西北部之強震頻譜分
    析,國立中央大學碩士論文。
    溫國樑,1988。羅東地區之強震動特性,國立中央大學博士論文。
    劉坤松、辛在勤、李汯鑑、蔡義本,1993。中央氣象局強地動觀測計畫-
    基本自由場強震儀之比較,中央氣象局氣象學報,第39卷,第三期。

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