%0 Journal Article %T Preliminary Estimation of Ground Motion of September 24, 2013, Pakistan Earthquake Using Modified Semi-Empirical Approach %J Journal of Seismology and Earthquake Engineering %I International Institute of Earthquake Engineering and Seismology %Z 1735-1669 %A Rajaram, Chenna %A Pradeep Kumar, Ramancharla %D 2020 %\ 01/01/2020 %V 22 %N 1 %P 31-42 %! Preliminary Estimation of Ground Motion of September 24, 2013, Pakistan Earthquake Using Modified Semi-Empirical Approach %K Synthetic accelerogram %K Envelope function %K Attenuation relationship %K Pakistan earthquake %R 10.48303/jsee.2020.243385 %X Hazard plays a vital role in assessing the risk of any area. For earthquake hazard estimation, it is essential to obtain ground motion records from various seismic stations. However, it is not always easy to get ground motion data. The present study is an attempt to generate ground motions of the recent September 24, 2013, Pakistan earthquake using modified semi-empirical approach, which is based on ω2 model. The first part of the method considers a time series having the basic spectral shape of acceleration. The deterministic model of rupture source has been used in the second part of the method to simulate the envelope of accelerogram. For the study, a MATLAB code is written to generate synthetic accelerograms at stations Awaran, Panjgur, Tagas, Korak, and Gajar. The results are compared with GroundMotion Prediction Equation (GMPE) proposed by Ramkrishnan et al., in 2019 [1]. The PGA values obtained from modified semi-empirical method gives satisfactorily good results in comparison with the PGA values from GMPE. However, slight variation is observed between synthetic accelerogram PGA values and GMPE values at Gajar, Korak, Tagas, Panjgur stations. %U http://www.jsee.ir/article_243385_4bb59e26018ba2a9ae397d6e97ff159b.pdf