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S. T. G. Raghukanth ORCID

The following bibliography contains all publications indexed in this database that are linked with this name as either author, editor or any other kind of contributor.

  1. NagaTejasri, M. / Raghukanth, S. T. G. / Mittal, Himanshu: Simulations of Ground Motions for M w 7.9 Nepal Earthquake. In: Journal of Earthquake Engineering.

    https://doi.org/10.1080/13632469.2024.2406529

  2. Sriwastav, Ravi Kanth / Yedulla, Jyothi / Raghukanth, S. T. G. (2024): A non-parametric model of ground motion parameters for shallow crustal earthquakes in Europe. In: Soil Dynamics and Earthquake Engineering, v. 186 (November 2024).

    https://doi.org/10.1016/j.soildyn.2024.108923

  3. Basu, Jahnabi / Raghukanth, S. T. G. (2024): A prolegomenon to Design Input Energy Spectra for the Himalayan region. In: Soil Dynamics and Earthquake Engineering, v. 181 (June 2024).

    https://doi.org/10.1016/j.soildyn.2024.108681

  4. Sreenath, Vemula / Basu, Jahnabi / Raghukanth, S. T. G. (2023): Ground motion models for regions with limited data: Data‐driven approach. In: Earthquake Engineering and Structural Dynamics, v. 53, n. 3 (December 2023).

    https://doi.org/10.1002/eqe.4075

  5. Meenakshi, Yellapragada / Sreenath, Vemula / Raghukanth, S. T. G. (2023): Ground motion models for Fourier amplitude spectra and response spectra using Machine learning techniques. In: Earthquake Engineering and Structural Dynamics, v. 53, n. 2 (November 2023).

    https://doi.org/10.1002/eqe.4036

  6. Meenakshi, Yellapragada / Podili, Bhargavi / Raghukanth, S. T. G. (2024): Design energy spectra for Peninsular India: A preliminary step towards energy-based design in India. In: Soil Dynamics and Earthquake Engineering, v. 177 (February 2024).

    https://doi.org/10.1016/j.soildyn.2023.108358

  7. Sreenath, Vemula / Podili, Bhargavi / Raghukanth, S. T. G. (2023): A hybrid non‐parametric ground motion model for shallow crustal earthquakes in Europe. In: Earthquake Engineering and Structural Dynamics, v. 52, n. 8 (March 2023).

    https://doi.org/10.1002/eqe.3845

  8. Podili, Bhargavi / Raghukanth, S. T. G. (2023): Alternative regional ground motion models for Western Himalayas. In: Soil Dynamics and Earthquake Engineering, v. 168 (May 2023).

    https://doi.org/10.1016/j.soildyn.2023.107805

  9. Vemula, Sreenath / Kp, Sreejaya / Raghukanth, S. T. G. (2022): Neural Network-Based Subduction Ground Motion Model and Its Application to New Zealand and the Andaman and Nicobar Islands. In: Journal of Earthquake Engineering, v. 27, n. 10 (September 2022).

    https://doi.org/10.1080/13632469.2022.2121333

  10. Sreejaya, K. P. / Raghukanth, S. T. G. / Gupta, I. D. / Murty, C. V. R. / Srinagesh, D. (2022): Seismic hazard map of India and neighbouring regions. In: Soil Dynamics and Earthquake Engineering, v. 163 (December 2022).

    https://doi.org/10.1016/j.soildyn.2022.107505

  11. Sreejaya, K. P. / Podili, Bhargavi / Raghukanth, S. T. G. (2022): Hazard consistent vertical design spectra for active regions of India. In: Soil Dynamics and Earthquake Engineering, v. 161 (October 2022).

    https://doi.org/10.1016/j.soildyn.2022.107395

  12. Sangeetha, S. / Raghukanth, S. T. G. (2022): Broadband ground motion simulations for Northeast India. In: Soil Dynamics and Earthquake Engineering, v. 154 (March 2022).

    https://doi.org/10.1016/j.soildyn.2021.107120

  13. Vemula, Sreenath / Yellapragada, Meenakshi / Podili, Bhargavi / Raghukanth, S. T. G. / Ponnalagu, Alagappan (2021): Ground motion intensity measures for New Zealand. In: Soil Dynamics and Earthquake Engineering, v. 150 (November 2021).

    https://doi.org/10.1016/j.soildyn.2021.106928

  14. Jayalakshmi, S. / Dhanya, J. / Raghukanth, S. T. G. / Mai, P. M. (2021): Hybrid broadband ground motion simulations in the Indo-Gangetic basin for great Himalayan earthquake scenarios. In: Bulletin of Earthquake Engineering, v. 19, n. 9 (May 2021).

    https://doi.org/10.1007/s10518-021-01094-0

  15. Lekshmy, P. R. / Raghukanth, S. T. G. (2021): A hybrid genetic algorithm-neural network model for power spectral density compatible ground motion prediction. In: Soil Dynamics and Earthquake Engineering, v. 142 (March 2021).

    https://doi.org/10.1016/j.soildyn.2020.106528

  16. Dhanya, J. / Raghukanth, S. T. G. (2021): Probabilistic Fling Hazard Map of India and Adjoined Regions. In: Journal of Earthquake Engineering, v. 26, n. 9 (May 2021).

    https://doi.org/10.1080/13632469.2020.1838969

  17. Dhanya, J. / Muthuganeisan, Prabhu / Raghukanth, S. T. G.: Probabilistic Fling Hazard Map for Himalayan Region. Presented at: 5th International Conference on Civil Engineering and Urban Planning (CEUP2016), Xi'an, China, 23 – 26 August 2016.

    https://doi.org/10.1142/9789813225237_0053

  18. Dhanya, J. / Raghukanth, S. T. G. (2020): Non-linear Principal Component Analysis of Response Spectra. In: Journal of Earthquake Engineering, v. 26, n. 4 (August 2020).

    https://doi.org/10.1080/13632469.2020.1773352

  19. Jayalakshmi, S. / Dhanya, J. / Raghukanth, S. T. G. / Martin Mai, P. (2020): 3D seismic wave amplification in the Indo-Gangetic basin from spectral element simulations. In: Soil Dynamics and Earthquake Engineering, v. 129 (February 2020).

    https://doi.org/10.1016/j.soildyn.2019.105923

  20. Bhargavi, Podili / Raghukanth, S. T. G. (2019): Rating damage potential of ground motion records. In: Earthquake Engineering and Engineering Vibration, v. 18, n. 2 (April 2019).

    https://doi.org/10.1007/s11803-019-0501-1

  21. Lekshmy, P. R. / Raghukanth, S. T. G. (2019): Stochastic earthquake source model for ground motion simulation. In: Earthquake Engineering and Engineering Vibration, v. 18, n. 1 (January 2019).

    https://doi.org/10.1007/s11803-019-0487-8

  22. Gade, Maheshreddy / Raghukanth, S. T. G. (2018): Spatial variation of ground rotational motions in elastic half-space. In: Soil Dynamics and Earthquake Engineering, v. 107 (April 2018).

    https://doi.org/10.1016/j.soildyn.2018.01.007

  23. Podili, Bhargavi / Raghukanth, S. T. G. (2019): Ground motion prediction equations for higher order parameters. In: Soil Dynamics and Earthquake Engineering, v. 118 (March 2019).

    https://doi.org/10.1016/j.soildyn.2018.11.027

  24. Podili, Bhargavi / Raghukanth, S. T. G. (2019): Ground Motion Parameters for the 2011 Great Japan Tohoku Earthquake. In: Journal of Earthquake Engineering, v. 23, n. 4 ( 2019).

    https://doi.org/10.1080/13632469.2017.1342292

  25. Bagchi, Saikat / Raghukanth, S. T. G. (2019): Seismic Response of the Central Part of Indo-Gangetic Plain. In: Journal of Earthquake Engineering, v. 23, n. 2 ( 2019).

    https://doi.org/10.1080/13632469.2017.1323044

  26. Sangeetha, S. / Dhanya, J. / Raghukanth, S. T. G. (2018): 3D Crustal Velocity Model for Ground Motion Simulations in North-East India. In: Journal of Earthquake Engineering, v. 25, n. 3 (October 2018).

    https://doi.org/10.1080/13632469.2018.1520760

  27. Lekshmy, P. R. / Raghukanth, S. T. G. (2015): Maximum Possible Ground Motion for Linear Structures. In: Journal of Earthquake Engineering, v. 19, n. 6 ( 2015).

    https://doi.org/10.1080/13632469.2015.1023472

  28. Raghukanth, S. T. G. / Bhanu Teja, B. (2012): Ground Motion Simulation for January 26, 2001 Gujarat Earthquake by Spectral Finite Element Method. In: Journal of Earthquake Engineering, v. 16, n. 2 ( 2012).

    https://doi.org/10.1080/13632469.2011.634493

  29. Gade, Maheshreddy / Raghukanth, S. T. G. (2017): Simulation of strong ground motion for a MW 8.5 hypothetical earthquake in central seismic gap region, Himalaya. In: Bulletin of Earthquake Engineering, v. 15, n. 10 (March 2017).

    https://doi.org/10.1007/s10518-017-0146-2

  30. Raghukanth, S. T. G. (2011): Seismicity parameters for important urban agglomerations in India. In: Bulletin of Earthquake Engineering, v. 9, n. 5 (April 2011).

    https://doi.org/10.1007/s10518-011-9265-3

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