Statistical kinematic source models for seismic hazard estimations

被引:0
|
作者
Dhanya, J. [1 ]
Raghukanth, S. T. G. [2 ]
机构
[1] IIT Mandi, Sch Civil & Environm Engn, Mandi 175075, Himachal Prades, India
[2] IIT Madras, Dept Civil Engn, Chennai 600036, Tamil Nadu, India
来源
INTERNATIONAL JOURNAL OF ADVANCES IN ENGINEERING SCIENCES AND APPLIED MATHEMATICS | 2023年 / 15卷 / 01期
关键词
Slip field; Kinematic; Statistical analysis; Seismic hazard; STRONG GROUND-MOTION; SOURCE TIME FUNCTIONS; SCALING RELATIONS; SUPERSHEAR RUPTURE; EMPIRICAL RELATIONSHIPS; SLIP DISTRIBUTION; LARGE EARTHQUAKES; FOCAL MECHANISM; BODY-WAVE; FAULT;
D O I
10.1007/s12572-023-00328-5
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
We present detailed state of the art of statistical kinematic source models. The literature constitutes detailed first- and second-order characterization and the corresponding implementation in random field generations. The notable details include scaling relations, non-Gaussianity, and non-stationarity. The simplicity in the representation of kinematic slip fields has also paved the way to easy numerical implementation. Further, computational facility advancements have aided in realistic real-time simulation. Hence, these models can be suitably utilized to obtain more reliable synthetic ground motions and resultant hazards. This work also demonstrates the implementation of a non-Gaussian slip field in physics-based simulation for the Indo-Gangetic basin and studies the corresponding basin amplification.
引用
收藏
页码:37 / 54
页数:18
相关论文
共 50 条
  • [21] Objective assessment of source models for seismic hazard studies: with a worked example from UK data
    R. M. W. Musson
    P. W. Winter
    Bulletin of Earthquake Engineering, 2012, 10 : 367 - 378
  • [22] Objective assessment of source models for seismic hazard studies: with a worked example from UK data
    Musson, R. M. W.
    Winter, P. W.
    BULLETIN OF EARTHQUAKE ENGINEERING, 2012, 10 (02) : 367 - 378
  • [23] A seismic source zone model for the seismic hazard assessment of the Italian territory
    Meletti, Carlo
    Galadini, Fabrizio
    Valensise, Gianluca
    Stucchi, Massimiliano
    Basili, Roberto
    Barba, Salvatore
    Vannucci, Gianfranco
    Boschi, Enzo
    TECTONOPHYSICS, 2008, 450 (1-4) : 85 - 108
  • [24] Assessing Markovian Models for Seismic Hazard and Forecasting
    Gutierrez Pena, Q. J.
    Nava Pichardo, F. A.
    Glowacka, E.
    Castro Escamilla, R. R.
    Marquez Ramirez, V. H.
    PURE AND APPLIED GEOPHYSICS, 2021, 178 (03) : 847 - 863
  • [25] Assessing Markovian Models for Seismic Hazard and Forecasting
    Q. J. Gutierrez Peña
    F. A. Nava Pichardo
    E. Glowacka
    R. R. Castro Escamilla
    V. H. Márquez Ramírez
    Pure and Applied Geophysics, 2021, 178 : 847 - 863
  • [26] Simulating strong ground motion with the 'k-2' kinematic source model:: An application to the seismic hazard in the Erzincan basin, Turkey
    Berge-Thierry, C
    Bernard, P
    Herrero, A
    JOURNAL OF SEISMOLOGY, 2001, 5 (01) : 85 - 101
  • [27] Simulating strong ground motion with the `k-2' kinematic source model: An application to the seismic hazard in the Erzincan basin, Turkey
    Catherine Berge-Thierry
    P. Bernard
    A. Herrero
    Journal of Seismology, 2001, 5 : 85 - 101
  • [28] Investigation of the effect of source parameters in seismic hazard analysis
    Mohammadi, J.
    Suen, S.-J.
    Proceedings of the US National Conference on Earthquake Engineering, 1990,
  • [29] Near-source seismic hazard and design scenarios
    Chioccarelli, Eugenio
    Iervolino, Iunio
    EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS, 2013, 42 (04): : 603 - 622
  • [30] An updated source model for seismic hazard calculations in Israel
    Maiti, S. K.
    Kamai, R.
    EARTHQUAKE GEOTECHNICAL ENGINEERING FOR PROTECTION AND DEVELOPMENT OF ENVIRONMENT AND CONSTRUCTIONS, 2019, 4 : 3732 - 3739
12345