地殻内地震の地震動の距離減衰式に対する破壊伝播効果と震源放射特性の補正係数モデル CORRECTION-FACTOR MODEL OF RUPTURE DIRECTIVITY AND RADIATION PATTERN FOR EMPIRICAL GROUND-MOTION ATTENUATION RELATIONS OF CRUSTAL EARTHQUAKES

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Author(s)

    • 佐藤 智美 SATOH Toshimi
    • 清水建設(株) 主任研究員・博士(工学) Senior Researcher, Institute of Technology, Shimizu Corporation, Dr. Eng.

Abstract

We present the concept of correction-factor model of rupture directivity and radiation pattern for empirical attenuation relations of peak ground velocity and acceleration response spectra. Approximate radiation pattern coefficients derived from accurate coefficients is used in this model. In addition, directivity function of bilateral line source by Boatwright (2007) based on directivity function of unilateral line source by Ben-Menahem (1961) is used in this model. The proposed correction-factor model for fault-normal and fault-parallel components has physically-based predictor variables and applicable to broadband distance from near-source to regional distance less than 200 km. We estimate regression coefficients of the model for strike-slip and dip-slip faultings using strong motion records of six crustal earthquakes with Mw>6.0 and verify the model by simulating the observed records.

Journal

  • Journal of Structural and Construction Engineering (Transactions of AIJ)

    Journal of Structural and Construction Engineering (Transactions of AIJ) 76(661), 499-508, 2011

    Architectural Institute of Japan

Codes

  • NII Article ID (NAID)
    130004508006
  • Text Lang
    UNK
  • ISSN
    1340-4202
  • Data Source
    J-STAGE 
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