Skip navigation

Browsing by Author Sandeep

Jump to: 0-9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
or enter first few letters:  
Showing results 1 to 20 of 23  next >
Issue DateTitleAuthor(s)
1995A semi-empirical method for the design of support systems in underground openingsSingh B.; Viladkar M.N.; Samadhiya, Narendra Kumar; Sandeep
2014Analysis of powder metallurgy process parameters for relative density of low carbon alloy steel using design of experiments toolSandeep; Prakash, Ujjwal; Tewari P.C.; Khanduja D.
2015Coda wave attenuation characteristics for Kumaon and Garhwal Himalaya, IndiaKumar A.; Sinvhal A.; Joshi A.; Kumar D.; Sandeep; Kumar P.
2015Detailed attenuation study of shear waves in the Kumaon Himalaya, India, using the inversion of strong-motion dataKumar P.; Joshi A.; Sandeep; Kumar A.; Chadha R.K.
2018Determination of site effect and anelastic attenuation at Kathmandu, Nepal Himalaya region and its use in estimation of source parameters of 25 April 2015 Nepal earthquake M w = 7.8 and its aftershocks including the 12 May 2015 M w = 7.3 eventKumar P.; Joshi A.; Kumar S.; Sandeep; Lal S.
2014Effect of frequency-dependent radiation pattern in the strong motion simulation of the 2011 Tohoku earthquake, Japan, using modified semi-empirical methodSandeep; Joshi A.; Kamal,; Kumar P.; Kumar A.
2017Effect of quenching medium on microstructure and hardness of as sintered Fe-Cr-Mo-0.6C and Fe-Mo-0.6C alloy steelSandeep; Verma V.; Prakash, Ujjwal; Tewari P.C.; Khanduja D.
2017Emergence of the semi-empirical technique of strong ground motion simulation: A reviewSandeep; Joshi A.; Kumari P.; Lal S.; Vandana; Kumar P.; Kamal,
2016Estimation of the source parameters of the Nepal earthquake from strong motion dataJoshi A.; Tomer M.; Lal S.; Chopra S.; Singh, Sandeep; Prajapati S.; Sharma, Mukat Lal; Sandeep
2019Modeling of 2011 IndoNepal Earthquake and Scenario Earthquakes in the Kumaon Region and Comparative Attenuation Study Using PGA Distribution with the Garhwal RegionSandeep; Joshi A.; Sah S.K.; Kumar P.; Lal S.; Devi S.; Monika
2014Modeling of strong motion generation area of the Uttarkashi earthquake using modified semiempirical approachSandeep; Joshi A.; Kamal,; Kumar P.; Kumari P.
2014Modeling of strong motion generation areas of the 2011 Tohoku, Japan earthquake using modified semi-empirical techniqueJoshi A.; Sandeep; Kamal,
2015Modeling of strong motion generation areas of the Niigata, Japan, earthquake of 2007 using modified semi-empirical techniqueSandeep; Joshi A.; Kamal,; Kumar P.; Kumar A.; Dhibar P.
2018Modeling of the strong ground motion of 25th April 2015 Nepal earthquake using modified semi-empirical techniqueLal S.; Joshi A.; Sandeep; Tomer M.; Kumar P.; Kuo C.-H.; Lin C.-M.; Wen K.-L.; Sharma, Mukat Lal
2019Modelling of strong motion generation areas for a great earthquake in central seismic gap region of Himalayas using the modified semi-empirical approachSandeep; Joshi A.; Sah S.K.; Kumar P.; Lal S.; Kamal,
2015Ranking of Sintered Material for High Loaded Automobile Application by Applying Entropy-TOPSIS MethodTewari P.C.; Prakash, Ujjwal; Khanduja D.; Sandeep
2017Simulation of Strong Ground Motion of the 2009 Bhutan Earthquake Using Modified Semi-Empirical TechniqueSandeep; Joshi A.; Lal S.; Kumar P.; Sah S.K.; Vandana; Kamal,
2015Simulation of the records of the 27 March 2013 Nantou Taiwan earthquake using modified semi-empirical approachJoshi A.; Kuo C.-H.; Dhibar P.; Sandeep; Sharma, Mukat Lal; Wen K.-L.; Lin C.-M.
2017Source model estimation of the 2005 Kyushu Earthquake, Japan using Modified Semi Empirical TechniqueSandeep; Joshi A.; Sah S.K.; Kumar P.; Lal S.; Vandana; Kamal,; Singh R.S.
2017Source Parameters and High Frequency Characteristics of Local Events (0.5 ≤ M L ≤ 2.9) Around Bilaspur Region of the Himachal HimalayaVandana; Kumar A.; Gupta, Subhash Chander; Mishra O.P.; Kumar A.; Sandeep