Book Chapters:

  1. Ramana, G. V., Moghal, A. A. B., & Pathak, S. (2021). Reappraisal on the field tests for determination of rock mass characteristics for open terrain(s). In Patel, S. et al. (Ed.), Proceedings of the Indian Geotechnical Conference 2019, Lecture Notes in Civil Engineering (Vol. 137, pp. 711–721). Springer, Singapore.
  2. Pathak, S., & Ramana, G. V. (2021). A note on partial safety factors for in-situ shear strength parameters of rock-mass. In Garg, A. et al. (Ed.), Proceedings of the 1st Indo-China Research Series in Geotechnical and Geoenvironmental Engineering, Lecture Notes in Civil Engineering (Vol. 123, p. 129-138). Springer Nature Singapore Pte Ltd.
  3. Ramana, G. V., Pathak, S., & Dev, H. (2019). Shear strength parameters of granite rock mass: A case study. In V. Stalin & M. Muttharam (Eds.), Geotechnical Characterisation and Geoenvironmental Engineering: Lecture Notes in Civil Engineering (Indian Geotechnical Conference-2016, IIT Madras) (Vol. 16, pp. 273–280). Springer, Singapore.
  4. Pathak, S., & Ramana, G. V. (2018). Uncertainties of a nuclear-air-blast induced ground displacement model. In B. Fatahi, A. Mwanza, & D. Chang (Eds.), Geochina 2018: Civil infrastructures confronting severe weathers and climate changes conference (pp. 183–196). Springer, Cham.
  5. Pathak, S., & Ramana, G. V. (2018). A stress-strain model for geomaterials subjected to air-blast. In A. Zhou, J. Tao, X. Gu, & L. Hu (Eds.), Geoshanghai 2018 International Conference: Fundamentals of soil behaviours (pp. 388–396). Springer, Singapore.

International Conference Proceedings:

  1. Crollen-Vandromme, E., Pathak, S., Soltani, P., Collette, C., & Deraemaeker, A. (2020). Robust design of tuned mass dampers attached to host structures containing uncertainties in the form of fuzzy parameters. In Proceedings of international conference on noise and vibration engineering and international conference on uncertainty in structural dynamics (7-9 September 2020), Leuven, Belgium (p. 3811-3824).
  2. Pathak, S., & Ramana, G. V. (2017). Air-blast induced ground displacement. Procedia Engineering: 11th International Symposium on Plasticity and Impact Mechanics– 2016 , 173 , 555–562.
  3. Ramana, G. V., Pathak, S., & Kumar, N. (2013). Selection and interpretation of shear strength parameters for weak phyllites. In Kwasniewski & Lydzba (Eds.), Rock mechanics for resources, energy and environment: ISRM–International Symposium: EUROCK-2013 (pp. 331–336). Wroclaw, Poland: Taylor & Francis Group, London.
  4. Jain, S. K., & Pathak, S. (2012). Intensity based casualty models: case study of bhuj and latur earthquake in india. In World Conference on Earthquake Engineering– 2012. Lisbon, Portugal: Sociedade Portuguesa de Engenharia S´─▒smica.

National Conference Proceedings:

  1. Pathak S., Ramana, G. V., Dev, H., & Gupta, S. L. (2017). Implications of uncertainties in in-situ stress measurement in rock-mass. In Indian Geotechnical Conference–2017. IIT Guwahati, India.
  2. Pathak, S., Yadav, R. P., Ramana, G. V., & Dev, H. (2015). Normal stress dependent deformability of rock mass. In Indian Young Geotechnical Engineers Conference–2015. Vadodara, India.
  3. Pathak, S., Ramana, G. V., Dev, H., & Singh, R. (2015). Probabilistic interpretation of in-situ shear test data. In Indian Geotechnical Conference–2015. Pune, India.
  4. Pathak, S., Ramana, G. V., Dev, H., & Singh, R. (2014). Permanent deformation modulus of rock-mass. In Indian Geotechnical Conference–2014. Kakinada, India.
  5. Pathak, S., Ramana, G. V., Gupta, V. K., Dev, H., & Singh, R. (2013). Statistical approach for rock mass deformability characterization. In Indian Geotechnical Conference–2013. IIT Roorkee, India.
  6. Singh, R., & Pathak, S. (2013). In-situ normal stiffness of rock mass. In R. S. et al. (Ed.), Indian Rock Conference–2013 (pp. 181–188). Solan, India: Indian Society for Rock Mechanics and Tunnelling Technology (New Delhi).