Published Book/Thesis
B2. Jain, S. K., Brzev, S., Bhargava, L. K., Basu, D., Ghosh, I., and Ghaisas, V. K. (2015). “Confined masonry: for residential construction.” Gandhinagar, IN: Indian Institute of Technology, Gandhinagar, 2015, ISBN: 978-93-5258-078-1
B1. Basu, D., Whittaker, A. S. and Constantinou, M. C. (2012). “Characterizing the rotational components of earthquake ground motion.” MCEER-12-0005, Multidisciplinary Center for Earthquake Engineering Research, SUNY,Buffalo, NY.
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Published Book Chapters
BC5. Sriwastav, R.K. and Basu, D., 2023. Simplified Damping Modification Factor for Vertical Response Spectra. In Symposium in Earthquake Engineering (pp. 655-667). Singapore: Springer Nature Singapore.
BC4. Gurjar, N. and Basu, D., 2023. Exploring an Alternate Perspective of the Importance Factor for Seismic Design of Structures. In Symposium in Earthquake Engineering (pp. 639-653). Singapore: Springer Nature Singapore.
BC3. Rodda, G.K. and Basu, D. (2019). “Coherency model for dense seismic array.” Recent Advances in Structural Engineering, Volume 1, Springer, Select Proceedings of Structural Engineering Convention (SEC)-2016
BC2. Basu, D. (2007). Dynamic response of structures and response spectrum. Analysis and Design of Structures for Wind and Seismic Loads. Chennai, India, Allied Publishers Pvt. Ltd. (India): 25-47.
BC1. Basu, D. (2005). Pushover analysis for structural assessment. Capacity Building of Engineers in Earthquake risk Management. Chennai, India, Allied Publishers Pvt. Ltd. (India). 1: 3.109-103.135.
Refereed Journal Publications
2024
JP59. Basu, D., Mushtaq, S.M., Sharma, S., Tripathi, S. Enhancing Quality Control in the Mix Design of High-Strength Concrete Using a Capacity-Based Approach. Int J Concr Struct Mater 18, 78 (2024). https://doi.org/10.1186/s40069-024-00722-8
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JP58. Vats, F., & Basu, D. (2025). A novel cluster-based framework for developing correlation model and its implementation for spectral acceleration. Soil Dynamics and Earthquake Engineering, 188, 109056. https://doi.org/10.1016/j.soildyn.2024.109056.
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JP57. Sriwastav, R.K., Basu, D. Rotational spectra consistent with horizontal seismic hazard. Bull Earthquake Eng (2024). https://doi.org/10.1007/s10518-024-02043-3
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JP56. Gurjar, N., & Basu, D. (2024). Revisiting Stepp’s method for the completeness of regional seismic catalogues. Journal of Seismology, 28(4), 1055-1086. https://doi.org/10.1007/s10950-024-10231-6
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JP55. Vats, F. and Basu, D., Alternate method to develop ground motion prediction equations: Calibration over Himalayan region. Soil Dyn. Earthq. Eng., 2024, 176, 108312.
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2023
JP54. Vats, F., Basu, D. Alternate algorithm for characterization of strong velocity pulse in ground motions. Int J Adv Eng Sci Appl Math (2023). https://doi.org/10.1007/s12572-023-00355-2
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JP53. Sharma, S., & Basu, D. Influence of supplementary cementitious materials (SCMs) on transport properties of concrete and interfacial transition zone (ITZ): a review. (2023).
doi: 10.18520/cs/v124/i11/1263-1269
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JP52. Sriwastav, R.K., Basu, D. Selection and scaling of 3-component ground motion suite for scenario- and intensity-based assessment of buildings and structures. Bull Earthquake Eng (2023). https://doi.org/10.1007/s10518-023-01623-z
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JP51. Vats, F., Basu, D. On the construction of Joyner-Boore distance (Rjb) for PESMOS and COSMOS databases. J Seismol (2023). https://doi.org/10.1007/s10950-022-10129-1
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2022
JP50. Manawa, K., Basu, D. Non-parametric and parametric damage indices through a case-study of a reinforced concrete bridge pier, Structure and Infrastructure Engineering, DOI:10.1080/15732479.2022.2150781
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JP49. Mushtaq, S. M., Rajput, T., Basu, D. (2022). “Cement-superplasticizer compatibility and flow properties of binder paste and mortar using marsh cone and flow table method”, The Indian Concrete Journal, Vol. 96, No. 9, pp. 20-33.
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JP48. Gurjar, N., Basu, D. Epistemic Uncertainty in PSHA and Seismic Hazard Characterization Using the Logic Tree Approach: Part II, Implementation over North-East India. Pure Appl. Geophys. (2022). https://doi.org/10.1007/s00024-022-03148-z
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JP47. Gurjar, N., Basu, D. Epistemic Uncertainty in PSHA and Seismic Hazard Characterization Using the Logic Tree Approach: Part I, Developing the Framework. Pure Appl. Geophys.(2022). https://doi.org/10.1007/s00024-022-03143-4
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JP46. Gurjar, N., Basu, D. On the declustering methods of seismic catalogue — an application over Indian subcontinent. J Seismol (2022). https://doi.org/10.1007/s10950-022-10105-9
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JP45. Sharma, S., Gurjar, N., Menon, A., Sriwastav, R. K., and Basu, D. (2022). “Developing axial force bending moment interaction charts for the seismic design of RC slender shear walls with boundary elements”, The Indian Concrete Journal, Vol. 96, No. 5, pp. 29-58.
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JP44. Basu D, and Lakhani M. Bond slip in reinforced concrete beam-column joints-a semi-empirical implicit modeling and possible influence of design standard compliance.
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JP43. Kolli MK, Basu D, Prashant A. Simplified 1D elastic modeling of duo-pile foundation system incorporating the Interaction mechanisms prevailing under lateral loads. Journal of Bridge Engineering. 2022 Apr 1;27(4):04022014.
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JP42. Sriwastav, RK. and Basu, D. (2022). “Characterisation of design spectra for vertical ground motion.” International Journal of Earthquake and Impact Engineering.
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JP41. Basu D, Vats F, Panchal A. Multicomponent directional-cum-modal combination rule for seismic analysis: theory and illustrations. Earthquake Engng Struct Dyn. 2022;1–27.
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JP40. Sriwastav R.K. and Basu, D., 2022, Vertical spectra consistent with horizontal seismic hazard, Soil Dynamics and Earthquake Engineering, Vol 157, Pg 1-26.
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JP39. Basu, D. and Lakhani, M., 2022. Implicit framework for developing design recommendations on shear strength of RC beam-column joints. Journal of Building Engineering, 47, p.103877.
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2021
JP38. Rodda, G.K., Gurjar, N. and Basu, D., 2021. Phase-structure in conditional simulation of spatially varying ground motion and possible influence on structural demand. Journal of Earthquake and Tsunami, p.2250003.
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JP37. Chakra-Varthy, P. and Basu, D. (2021). ” Natural Period and Vertical Distribution of Base Shear in Confined Masonry Buildings using Ambient Vibration Test,” Bulletin of Earthquake Engineering.
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JP36. Vats, F., & Basu, D. (2021). A computationally efficient framework for rotation dependent and rotation independent intensity measures. Earthquake Engineering & Structural Dynamics, 50(6), 1562-1575.
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2020
JP35. Rodda, G.K. and Basu, D. (2020). “A novel framework for conditional simulation of fully nonstationary spatially varying ground motion field.” Earthquake Engineering and Structural Dynamics.
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JP34. Verma, R. and Basu, D., 2020. On correlating the modulus of elasticity of stack-bonded flyash brick masonry using impact hammer and compression tests. European Journal of Environmental and Civil Engineering, 24(4), pp.539-567.
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JP33. Rodda, G.K. and Basu, D. (2020). “Spatially correlated vertical ground motion for seismic design.” Engineering Structures, Elsevier. Vol. 206.
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2019
JP32. Basu, D. (2019). “Back-of-the-Envelope analysis of plan-asymmetric confined masonry buildings for force-based seismic design.” Journal of Building Engineering, Elsevier. Vol. 21: 455–467.
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JP31. Rodda, G.K. and Basu, D. (2019). “Parameterisation of Auto-Spectral Density of Earthquake Induced Strong Ground Motions.” Soil Dynamics and Earthquake Engineering, Elsevier. Vol. 118: 52–64.
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JP30. Rodda, G.K. and Basu, D. (2019) “On conditional simulation of spatially varying rotational ground motion” Journal of Earthquake Engineering, Taylor and Francis.
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JP29. Nema, H. and Basu, D. (2019). “Natural Properties of Confined Masonry Buildings– Experimental Case Studies and Possible Inference” International Journal of Masonry Research and Innovation, Inderscience, UK. Vol. 4(3): 197–226.
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2018
JP28. Rodda, G.K. and Basu, D. (2018) “Spatial Variation and Conditional Simulation of Seismic Ground Motion.” Bulletin of Earthquake Engineering. Vol. 161(10): 4399–4426.
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JP27. Bashir, A. and Basu, D. (2018). “Revisiting Probabilistic Seismic Hazard Analysis of Gujarat: An Assessment of Indian Design Spectra.” Natural Hazards, Vol. 91(3): 1127–1164.
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JP26. Rodda, G.K. and Basu, D. (2018). “Coherency model for translational and rotational ground motions.” Bulletin of Earthquake Engineering, Springer, Volume 16, Issue 7, pp 2687–2710.
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JP25. Rodda, G.K. and Basu, D. (2018). “Apparent translational component for rotational ground motions.” Bulletin of Earthquake Engineering, Vol. 16(1): 67–89.
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2017
JP24. Basu, D., Constantinou, M. C. and Whittaker, A. S. (2017). “Discussion on “Array-derived rotational seismic motions: revisited”.” Bulletin of Earthquake Engineering, Vol. 15 (12): 5605-5615.
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JP23. Ghaisas, K.V., Basu, D., Brzev, S. and Pérez Gavilán, J.J. (2017). “Strut-and-Tie Model for Seismic Design of Confined Masonry Buildings.” Construction and Building Materials, Vol. 147: 677-700.
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JP22. Basu, D., Whittaker, A. S. and Constantinou, M. C. (2017). “On the design of a dense array to extract rotational components of earthquake ground motion.” Bulletin of Earthquake Engineering, Vol 15 (3): 827-860.
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JP21. Rodda, G.K. and Basu, D. (2017). “On extracting rotational components of ground motion using an empirical rotational window.” International Journal of Earthquake and Impact Engineering, Vol. 1 (3): 253-288.
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2016
JP20. Basu, D. and Kota, T. (2016). “Estimating Peak Dynamic Response from Pushover Type Analysis using a Semi-Empirical Method.” Bulletin of Earthquake Engineering, Vol. 14 (12): 3409–3440.
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JP19. Basu, D. and Reddy, P.R.M. (2016). “A New Metallic Damper for Seismic Resilience: Analytical Feasibility Study.” Structures, 7: 165-183.
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2015
JP18. Basu, D. and Giri, S. (2015). “Accidental eccentricity in multistory buildings due to torsional ground motion.” Bulletin of Earthquake Engineering, Vol. 13 (12): 3779-3808.
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JP17. Basu, D. and Whittaker, A. S. (2015). “Efficient Generation of Statistically Consistent Demand Vectors for Seismic Performance Assessment”, Journal ING-IABSE, Special Issue on Earthquake Engineering, March-2015.
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JP16. Basu, D., Whittaker, A. S. and Constantinou, M. C. (2015). “Characterizing rotational components of earthquake ground motion using a surface distribution method and response of sample structures.” Engineering Structures, Vol. 99: 685-707.
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2014
JP15. Basu, D., Constantinou, M. C. and Whittaker, A. S. (2014). “An equivalent accidental eccentricity to account for the effects of torsional ground motion on structures.” Engineering Structures, Vol. 69: 1-11.
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2013
JP14. Basu, D., Whittaker, A. S. and Constantinou, M. C. (2013). “Extracting rotational components of earthquake ground motion using data recorded at multiple stations.” Earthquake Engineering and Structural Dynamics, Vol. 42 (3): 451-468.
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2012
JP13. Basu, D., Whittaker, A. S. and Constantinou, M. C. (2012). “Estimating rotational components of ground motion using data recorded at a single station.” Journal of Engineering Mechanics, ASCE, 138 (9): 1141-1156.
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2011
JP12. Balasubramanian, S. R., Rao, K. B., Basu, D., Anoop, M. B. and Vaidyanathan, C. V. (2011). “An improved method for estimation of elastic lateral stiffness of brick masonry shear walls with openings.” Journal of Civil Engineering, KSCE, 15(2): 281-293.
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2009
JP11. Basu, D. (2009). “Dynamics of a class of horizontal setback buildings with flexible floor diaphragm.” Journal of Structural Engineering, ASCE, 135: 873-877.
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2008
JP10. Lakshmanan, N., Raghuprasad, B. K., Muthumani, K., Gopalakrishnan, N. and Basu, D. (2008). “Identification of reinforced concrete beam-like structures subjected to distributed damage from experimental static measurements.” Computers and Concrete, 5(1): 37-60.
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JP9. Lakshmanan, N., Raghuprasad, B. K., Muthumani, K., Gopalakrishnan, N. and Basu, D.(2008). “Damage evaluation through radial basis function network based artificial neural network scheme.” Smart Structures and Systems, 4(1): 99-102.
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JP8. Basu, D. and Gopalakrishnan, N. (2008). “Analysis for preliminary design of a class of torsionally coupled buildings with horizontal setbacks.” Enginnering Structures, 30: 1272- 1291.
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JP7. Basu, D. (2008). “From third to fourth order variant of newton’s method for simple roots.” Applied Mathematics and Computations, 202: 886-892.
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JP6. Basu, D. (2008). “Family of cubically convergent scheme using inverse newton function for multiple roots.” International Journal for Computational Methods in Engineering Science & Mechanics, 9: 189–200.
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JP5. Basu, D. (2008). “Composite fourth order newton type method for simple root.” International Journal for Computational Methods in Engineering Science & Mechanics, 9: 201-210.
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2007
JP4. Basu, D. and Jain, S. K. (2007). “Alternative method to locate center of rigidity in asymmetric buildings.” Earthquake Engineering and Structural Dynamics, 36: 965-973.
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2006
JP3. Lakshmanan, N., Raghuprasad, B. K., Muthumani, K., Gopalakrishnan, N. and Basu, D. (2006). “Wavelet analysis and enhanced damage indicators.” Smart Structures and Systems, 3(1): 23-49.
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2005
JP2. Basu, D. (2005). “Proportionate dynamically non-separable buildings: a class of buildings with horizontal setback.” International Journal of Structural Stability and Dynamics, 5(1): 95-112.
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2004
JP1. Basu, D. and Jain, S. K. (2004). “Seismic analysis of asymmetric buildings with flexible floor diaphragm.” Journal of Structural Engineering, ASCE, 130: 1169-1176. Journal Papers In
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Contributed Papers/Abstracts in Conference Proceedings
C17. Sharma, S., and Basu, D. (2024). Integrating Durability with Compressive Strength: A Study on Capacity-Based Concrete Mix Design. Accepted in 14th Structural Engineering Convention (SEC) 2024, NIT Tiruchirappalli.
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C16. Vats, F., and Basu, D. (2024). Generation of Statistically Consistent Demand Vectors: Artificial Acceleration and Its Influence on Underlying Distributions. Accepted in 14th Structural Engineering Convention (SEC) 2024, NIT Tiruchirappalli.
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C15. Sharma, S., Tripathi S., and Basu, D. (2024). Empirical Relationships for Mohr-Coulomb Parameters in Concrete & Mortar: Application in Mix Design. In 18th World Conference on Earthquake Engineering (WCEE 2024).
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C14. Vats, F., & Basu, D. (2024). Multicomponent Directional-cum-modal Combination Rule for Seismic Analysis of Secondary Systems. In 18th World Conference on Earthquake Engineering (WCEE 2024).
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C13. Panchal, A. and Basu, D. (2024). Numerical Evaluation of Spatial Variability of Pressure Coefficients on Tall Buildings against Wind Forces. 16 th ICWE, Italy.
C12. Gurjar, N. and Basu, D. (2023). Exploring an Alternate Perspective of the Importance Factor for Seismic Design of Structures. In: Shrikhande, M., Agarwal, P., Kumar, P.C.A. (eds) Proceedings of 17th Symposium on Earthquake Engineering (Vol. 4). SEE 2022. Lecture Notes in Civil Engineering, vol 332. Springer, Singapore. https://doi.org/10.1007/978-981-99-1459-3_51
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C11. Sriwastav, R.K. and Basu, D. (2023). Simplified Damping Modification Factor for Vertical Response Spectra. In: Shrikhande, M., Agarwal, P., Kumar, P.C.A. (eds) Proceedings of 17th Symposium on Earthquake Engineering (Vol. 4). SEE 2022. Lecture Notes in Civil Engineering, vol 332. Springer, Singapore. https://doi.org/10.1007/978-981-99-1459-3_52
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C10. Rodda, G.K. and Basu, D. (2016). “Coherency model for dense seismic array.” Structural Engineering Convention, SERC, Chennai.
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C9. Jain, S.K., Brzev, S, Basu, D., Rai, D.C. and Mitra, K. “Confined masonry construction for improved seismic safety of buildings in India”, in the International Seminar on Emerging Building Materials and Construction Technologies, India Habitat Centre, New Delhi, IN, 2016.
C8. Basu, D. and Reddy, P. R. (2015). “Design of a New Passive Energy Dissipation System”, 5th Tongji-UBC Symposium on Earthquake Engineering, May 4-8, 2015 Tongji University Shanghai, China.
C7. Rodda, G. R. and Basu, D. (2015). “Development of a Window Based Approach for Simplified Estimation of Rotational Ground Motion”, 5th Tongji-UBC Symposium on Earthquake Engineering, May 4-8, 2015 Tongji University Shanghai, China.
C6. Jain SK, Basu D, Ghosh I, Rai DC, Brzev S, and Bhargava LK. Application of Confined Masonry in a Major Project in India. Proceedings of the 10th National Conference in Earthquake Engineering, Earthquake Engineering Research Institute, Anchorage, AK, 2014.
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C5. Basu, D., Constantinou, M. C. and Whittaker, A. S. (2011). “Including accidental torsion in response-history analysis of safety-related nuclear structures.” Transactions, SMiRT21, New Delhi, India, Div-VI: Paper ID# 279.
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C4. Basu, D. and Rao, K. B. (2008). “Reliability Analysis of Steel Frame Structures, Located in Coastal Region of India.” ICONQR08, Indian Statistical Institute, Calcutta, (in CD).
C3. Balasubramanian, S. R., Basu, D., Anoop, M. B. and Rao, K. B. (2008). “Stiffness of brick masonry shear walls with openings-parametric study and probabilistic analysis.” Proc. of National Conference on Recent Advances in Structural Engineering, Anantapur, Andra Pradesh, India, 177-186.
C2. Basu, D., Gopalakrishnan, N., Muthumani, K. and Lakshmanan, N. (2005). “Concept of floor isolation in reducing seismic demand.” Proc. International Conference on Advances in Concrete Composites and Structures, SERC, Chennai, India, 1057-1064.
C1. Lakshmanan, N., Muthumani, K., Basu, D., Sreekala, R. and Gopalakrisnan, N. (2002). “Design for seismic base isolation.” Proc. of 12th Symposium on Earthquake Engineering, Roorkee, India.
