| Journals |
| Click on plus symbols ( ) |
| Scopus Indexed Journals |
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ScJ74. |
Sreejaya KP, Basu J, Raghukanth STG, and Srinagesh D (2021). “Prediction of Ground Motion Intensity Measures Using an Artificial Neural Network.“ Pure and Applied Geophysics, 178 |
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ScJ73. |
Sreejaya KP, and Raghukanth STG (2024). “A 3D computational model for ground motion simulation in Peninsular India.“ Physics of the Earth and Planetary Interiors, 353, 107208 |
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ScJ72. |
Dhanya J., and Raghukanth S.T.G. (2020). “Neural network-based hybrid ground motion prediction equations for Western Himalayas and North-Eastern India.“ Acta Geophysica, 68 |
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ScJ71. |
Dhanya J., and Raghukanth S.T.G. (2020). “A non-stationary random field model for earthquake slip.“ Journal of Seismology, 24 |
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ScJ70. |
Jayalakshmi S., Dhanya J., Raghukanth S.T.G., and Martin Mai P. (2020). “3D seismic wave amplification in the Indo-Gangetic basin from spectral element simulations.“ Soil Dynamics and Earthquake Engineering, 129 |
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ScJ69. |
Dhanya J., and Raghukanth S.T.G. (2020). “Implication of source models on tsunami wave simulations for 2004 (Mw 9.2) Sumatra earthquake.“ Natural Hazards |
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ScJ68. |
J D., and Raghukanth S.T.G. (2020). “Non-linear Principal Component Analysis of Response Spectra.“ Journal of Earthquake Engineering |
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ScJ67. |
Dhabu A.C., and Raghukanth S.T.G. (2019). “Fundamental Solutions to Static and Dynamic Loads for Homogeneous Reduced Micropolar Half-Space.“ Pure and Applied Geophysics, 176 |
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ScJ66. |
Dhabu A.C., Sugumar S., and Raghukanth S.T.G. (2019). “Characterization of Strong Motion Generation Regions of Earthquake Slip Using Extreme Value Theory.“ Pure and Applied Geophysics, 176 |
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ScJ65. |
Dhanya J., and Raghukanth S.T.G. (2019). “A non-Gaussian random field model for earthquake slip.“ Journal of Seismology, 23 |
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ScJ64. |
Podili B., and Raghukanth S.T.G. (2019). “Ground Motion Parameters for the 2011 Great Japan Tohoku Earthquake.“ Journal of Earthquake Engineering, 23 |
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ScJ63. |
Bhargavi P., and Raghukanth S.T.G. (2019). “Rating damage potential of ground motion records.“ Earthquake Engineering and Engineering Vibration, 18 |
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ScJ62. |
Podili B., and Raghukanth S.T.G. (2019). “Rating of Indian ground motion records.“ Natural Hazards, 96 |
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ScJ61. |
Podili B., and Raghukanth S.T.G. (2019). “Ground motion prediction equations for higher order parameters.“ Soil Dynamics and Earthquake Engineering, 118 |
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ScJ60. |
Bagchi S., and Raghukanth S.T.G. (2019). “Seismic Response of the Central Part of Indo-Gangetic Plain.“ Journal of Earthquake Engineering, 23 |
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ScJ59. |
Lekshmy P.R., and Raghukanth S.T.G. (2019). “Stochastic earthquake source model for ground motion simulation.“ Earthquake Engineering and Engineering Vibration, 18 |
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ScJ58. |
Senthil Kumar P., Krishna N., Prasanna Lakshmi K.J., Raghukanth S.T.G., Dhabu A., and Platz T. (2019). “Recent seismicity in Valles Marineris, Mars: Insights from young faults, landslides, boulder falls and possible mud volcanoes.“ Earth and Planetary Science Letters, 505 |
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ScJ57. |
Kumar P.S., Mohanty R., Lakshmi K.J.P., Raghukanth S.T.G., Dabhu A.C., Rajasekhar R.P., and Menon R. (2019). “The Seismically Active Lobate Scarps and Coseismic Lunar Boulder Avalanches Triggered by 3 January 1975 (MW 4.1) Shallow Moonquake.“ Geophysical Research Letters, 46 |
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ScJ56. |
Sangeetha S., and Raghukanth S.T.G. (2018). “Stochastic source model for strong motion prediction.“ International Journal of Geotechnical Earthquake Engineering, 9 |
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ScJ55. |
Jayalakshmi S., Raghukanth S.T.G., and Rao B.N. (2018). “An XFEM Model for Seismic Activity in Indian Plate.“ Journal of Earthquake Engineering, 22 |
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ScJ54. |
Dhanya J., and Raghukanth S.T.G. (2018). “Ground motion simulation for earthquakes in Sumatran region.“ Current Science, 114 |
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ScJ53. |
Gade M., and Raghukanth S.T.G. (2018). “Spatial variation of ground rotational motions in elastic half-space.“ Soil Dynamics and Earthquake Engineering, 107 |
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ScJ52. |
Dhanya J., and Raghukanth S.T.G. (2018). “Ground Motion Prediction Model Using Artificial Neural Network.“ Pure and Applied Geophysics, 175 |
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ScJ51. |
Sangeetha S., Dhanya J., and Raghukanth S.T.G. (2018). “3D Crustal Velocity Model for Ground Motion Simulations in North-East India.“ Journal of Earthquake Engineering |
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ScJ50. |
Gade M., and Raghukanth S.T.G. (2017). “Simulation of strong ground motion for a MW 8.5 hypothetical earthquake in central seismic gap region, Himalaya.“ Bulletin of Earthquake Engineering, 15 |
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ScJ49. |
Sivaram K., Gade M., Raghukanth S.T.G., Saikia U., and Kanna N. (2017). “Estimation of strong ground motion in Southern Peninsular India by empirical Green's function method.“ Current Science, 112 |
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ScJ48. |
Dhanya J., Gade M., and Raghukanth S.T.G. (2017). “Ground motion estimation during 25th April 2015 Nepal earthquake.“ Acta Geodaetica et Geophysica, 52 |
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ScJ47. |
Jayalakshmi S., and Raghukanth S.T.G. (2017). “Finite element models to represent seismic activity of the Indian plate.“ Geoscience Frontiers, 8 |
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ScJ46. |
Raghukanth S.T.G. (2016). “Reply to Wu “Comment on Regional level Forecasting of Seismic energy release by Kavitha and Raghukanthâ€.“ Acta Geodaetica et Geophysica, 51 |
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ScJ45. |
Jayalakshmi S., and Raghukanth S.T.G. (2016). “Intra Plate Stresses Using Finite Element Modelling.“ Acta Geophysica, 64 |
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ScJ44. |
Kavitha B., and Raghukanth S.T.G. (2016). “Regional level forecasting of seismic energy release.“ Acta Geodaetica et Geophysica, 51 |
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ScJ43. |
Muthuganeisan P., and Raghukanth S.T.G. (2016). “Site-specific Probabilistic Seismic Hazard Map of Himachal Pradesh, India. Part II. Hazard Estimation.“ Acta Geophysica, 64 |
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ScJ42. |
Jayalakshmi S., and Raghukanth S.T.G. (2016). “Regional ground motion simulation around Delhi due to future large earthquake.“ Natural Hazards, 82 |
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ScJ41. |
Gade M., and Raghukanth S.T.G. (2016). “Seismic response of reduced micropolar elastic half-space.“ Journal of Seismology, 20 |
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ScJ40. |
Muthuganeisan P., and Raghukanth S.T.G. (2016). “Site-specific Probabilistic Seismic Hazard Map of Himachal Pradesh, India. Part I. Site-specific Ground Motion Relations.“ Acta Geophysica, 64 |
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ScJ39. |
Raghukanth S.T.G., and Sangeetha S. (2016). “A stochastic model for earthquake slip distribution of large events.“ Geomatics, Natural Hazards and Risk, 7 |
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ScJ38. |
Pallav K., Raghukanth S.T.G., and Singh K.D. (2015). “Estimation of Seismic Site Coefficient and Seismic Microzonation of Imphal City, India, Using the Probabilistic Approach.“ Acta Geophysica, 63 |
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ScJ37. |
Lekshmy P.R., and Raghukanth S.T.G. (2015). “Maximum possible ground motion for linear structures.“ Journal of Earthquake Engineering, 19 |
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ScJ36. |
Jayalakshmi S., and Raghukanth S.T.G. (2015). “An engineering model for seismicity of India.“ Geomatics, Natural Hazards and Risk, 6 |
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ScJ35. |
Raghukanth S.T.G., and Kavitha B. (2014). “Ground Motion Relations for Active Regions in India.“ Pure and Applied Geophysics, 171 |
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ScJ34. |
Jaya V., Raghukanth S.T.G., and Sonika Mohan S. (2014). “Estimating fractal dimension of lineaments using box counting method for the Indian landmass.“ Geocarto International, 29 |
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ScJ33. |
Raghu Kanth S.T.G., and Kavitha B. (2013). “Stochastic Finite Fault Modeling of Subduction Zone Earthquakes in Northeastern India.“ Pure and Applied Geophysics, 170 |
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ScJ32. |
Gade M., and Raghukanth S.T.G. (2013). “Seismic ground motion in micropolar elastic half-space.“ Applied Mathematical Modelling, 39 |
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ScJ31. |
Raghukanth S.T.G., Kumari K.L., and Somala S.N. (2013). “Regional level ground motion simulation for a hypothetical great earthquake in the Garwhal Himalaya.“ Geomatics, Natural Hazards and Risk, 4 |
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ScJ30. |
Pallav K., Raghukanth S.T.G., and Singh K.D. (2012). “Probabilistic seismic hazard estimation of Manipur, India.“ Journal of Geophysics and Engineering, 9 |
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ScJ29. |
Ayothiraman R., Raghu Kanth S.T.G., and Sreelatha S. (2012). “Evaluation of liquefaction potential of Guwahati: Gateway city to Northeastern India.“ Natural Hazards, 63 |
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ScJ28. |
Raghukanth S.T.G., and Bhanu Teja B. (2012). “Ground motion simulation for January 26, 2001 Gujarat earthquake by spectral finite element method.“ Journal of Earthquake Engineering, 16 |
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ScJ27. |
Raghukanth S.T.G., Lakshmi Kumari K., and Kavitha B. (2012). “Estimation of ground motion during the 18th September 2011 Sikkim Earthquake.“ Geomatics, Natural Hazards and Risk, 3 |
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ScJ26. |
Pallav K., Raghukanth S.T.G., and Singh K.D. (2012). “Liquefaction hazard scenario of Imphal city for 1869 cachar and a hypothetical earthquake.“ International Journal of Geotechnical Earthquake Engineering, 3 |
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ScJ25. |
Raghukanth S., Dixit J., and Dash S. (2011). “Ground motion for scenario earthquakes at Guwahati city.“ Acta Geodaetica et Geophysica Hungarica, 46 |
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ScJ24. |
Raghukanth S.T.G. (2011). “Seismicity parameters for important urban agglomerations in India.“ Bulletin of Earthquake Engineering, 9 |
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ScJ23. |
Raghu Kanth S.T.G., and Dash S.K. (2010). “Evaluation of seismic soil-liquefaction at Guwahati city.“ Environmental Earth Sciences, 61 |
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ScJ22. |
Raghu Kanth S.T.G. (2010). “Intrinsic mode functions of earthquake slip distribution.“ Advances in Adaptive Data Analysis, 2 |
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ScJ21. |
Raghu Kanth S.T.G., and Dash S.K. (2010). “Deterministic seismic scenarios for North East India.“ Journal of Seismology, 14 |
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ScJ20. |
Raghukanth S.T.G. (2010). “Estimation of seismicity parameters for India.“ Seismological Research Letters, 81 |
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ScJ19. |
Mallikarjuna C., and Raghu Kanth S.T.G. (2010). “Forecasting the air traffic for North-East Indian cities.“ Advances in Adaptive Data Analysis, 2 |
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ScJ18. |
Raghukanth S.T.G., and Somala S.N. (2009). “Modeling of strong-motion data in Northeastern India: Q, stress drop, and site amplification.“ Bulletin of the Seismological Society of America, 99 |
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ScJ17. |
Raghu Kanth S.T.G., Singh K.D., and Pallav K. (2009). “Deterministic seismic scenarios for Imphal City.“ Pure and Applied Geophysics, 166 |
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ScJ16. |
Raghu Kanth S.T.G., and Iyengar R.N. (2009). “Engineering source model for strong ground motion.“ Soil Dynamics and Earthquake Engineering, 29 |
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ScJ15. |
Raghu Kanth S.T.G. (2008). “Modeling and synthesis of strong ground motion.“ Journal of Earth System Science, 117 |
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ScJ14. |
Raghu Kanth S.T.G., and Dash S.K. (2008). “Stochastic modeling of SPT N-value and evaluation of probability of liquefaction at Guwahati City.“ Journal of Earthquake and Tsunami, 2 |
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ScJ13. |
Raghukanth S.T.G. (2008). “Simulation of strong ground motion during the 1950 great assam earthquake.“ Pure and Applied Geophysics, 165 |
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ScJ12. |
Raghukanth S.T.G. (2008). “Ground motion estimation during the Kashmir earthquake of 8th October 2005.“ Natural Hazards, 46 |
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ScJ11. |
Dash S.K., Reddy P.D.T., and Raghukanth S.T.G. (2008). “Subgrade modulus of geocell-reinforced sand foundations.“ Proceedings of the Institution of Civil Engineers: Ground Improvement, 161 |
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ScJ10. |
Raghu Kanth S.T.G., and Iyengar R.N. (2008). “Strong motion compatible source geometry.“ Journal of Geophysical Research: Solid Earth, 113 |
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ScJ9. |
Raghu Kanth S.T.G., Sreelatha S., and Dash S.K. (2008). “Ground motion estimation at Guwahati city for an Mw 8.1 earthquake in the Shillong plateau.“ Tectonophysics, 448 |
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ScJ8. |
Raghu Kanth S.T.G., and Iyengar R.N. (2007). “Estimation of seismic spectral acceleration in Peninsular India.“ Journal of Earth System Science, 116 |
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ScJ7. |
Raghu Kanth S.T.G., and Iyengar R.N. (2006). “Seismic hazard estimation for Mumbai city.“ Current Science, 91 |
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ScJ6. |
Iyengar R.N., and Raghu Kanth S.T.G. (2006). “Forecasting of seasonal monsoon rainfall at subdivision level.“ Current Science, 91 |
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ScJ5. |
Iyengar R.N., and Raghu Kanth S.T.G. (2006). “Strong ground motion estimation during the Kutch, India earthquake.“ Pure and Applied Geophysics, 163 |
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ScJ4. |
Iyengar R.N., and Raghu Kanth S.T.G. (2005). “Intrinsic mode functions and a strategy for forecasting Indian monsoon rainfall.“ Meteorology and Atmospheric Physics, 90 |
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ScJ3. |
Iyengar R.N., and Raghu Kanth S.T.G. (2004). “Attenuation of strong ground motion in peninsular India.“ Seismological Research Letters, 75 |
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ScJ2. |
Iyengar R.N., and Raghu Kanth S.T.G. (2003). “Empirical modelling and forecasting of Indian monsoon rainfall.“ Current Science, 85 |
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ScJ1. |
Iyengar R.N., and Raghu Kanth S.T.G. (2002). “Strong ground motion at Bhuj city during the Kutch earthquake.“ Current Science, 82 |
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ScJ. |
Bhargavi Podili, Jahnabi Basu, and STG Raghukanth (2024). “Spectral Ground Motion Models for Himalayas Using Transfer Learning Technique.“ Journal of earthquake engineering |
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ScJ. |
Jahnabi Basu, and STG Raghukanth (2024). “Simulation of Broadband Ground Motions for the 2016 Mw 6.8 Chauk Earthquake.“ Pure and Applied Geophysics |
| Conferences |
| Click on plus symbols ( ) |
| Scopus Indexed Conferences |
|
ScC2. |
Sangeetha S., and Raghukanth S.T.G. (2018). “A Stochastic source model for the 2015 Mw 7.9 Gorkha, Nepal, Earthquake using Multi-Dimensional Ensemble Empirical Mode Decomposition technique.“ MATEC Web of Conferences |
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ScC1. |
Dixit J., Raghukanth S.T.G., and Dash S.K. (2014). “Spatial distribution of seismic site coefficients for Guwahati city.“ Proceedings of the 16th International Association for Mathematical Geosciences - Geostatistical and Geospatial Approaches for the Characterization of Natural Resources in the Environment: Challenges, Processes and Strategies, IAMG 2014 |