Publications

Journal papers
Conference papers
Technical reports
Dissertation
Posters
Other

Journal papers

Bhanu V, Chandramohan R, and Sullivan TJ (2021). “Influence of ground motion duration on the dynamic deformation capacity of reinforced concrete frame structures”. Earthquake Spectra 37(4), pp. 2622-2637. https://doi.org/10.1177/87552930211033879

Haymes K, Sullivan TJ, and Chandramohan R (2020). “A practice-oriented method for estimating elastic floor response spectra”. Bulletin of the New Zealand Society for Earthquake Engineering 53(3), pp. 116-136. https://doi.org/10.5459/bnzsee.53.3.116-136

Chandramohan R, Ma Q, Wotherspoon LM, Bradley BA, Nayyerloo M, Uma SR, and Stephens MT (2017). “Response of instrumented buildings under the 2016 Kaikoura earthquake”. Bulletin of the New Zealand Society for Earthquake Engineering 50(2), pp. 237–252. https://doi.org/10.5459/bnzsee.50.2.237-252

Chandramohan R, Baker JW, and Deierlein GG (2016). “Impact of hazard-consistent ground motion duration in structural collapse risk assessment”. Earthquake Engineering & Structural Dynamics 45(8), pp. 1357–1379. https://doi.org/10.1002/eqe.2711

Chandramohan R, Baker JW, and Deierlein GG (2016). “Quantifying the influence of ground motion duration on structural collapse capacity using spectrally equivalent records”. Earthquake Spectra 32(2), pp. 927–950. https://doi.org/10.1193/122813EQS298MR2

Conference papers

Balbirnie K, Chandramohan R, Pujol S, and Wight J (2021). “Identifying vulnerable reinforced concrete buildings in Wellington using a simple assessment methodology”. New Zealand Society for Earthquake Engineering Conference, Christchurch, New Zealand.

Bhanu V, Chandramohan R, and Sullivan TJ (2021). “Incorporating the influence of duration on dynamic deformation capacity in seismic assessment”. New Zealand Society for Earthquake Engineering Conference, Christchurch, New Zealand.

Haymes K, Chandramohan R, and Sullivan TJ (2021). “Strength requirements for non- structural components responding nonlinearly under earthquake excitation”. New Zealand Society for Earthquake Engineering Conference, Christchurch, New Zealand.

Loghman V, Bradley BA, Chandramohan R, Lee RL, and McGann CR (2021). “Validation of NZ small-magnitude ground-motion simulations using complex structural systems”. New Zealand Society for Earthquake Engineering Conference, Christchurch, New Zealand.

Bhanu V, Chandramohan R, and Sullivan TJ (2020). “Influence of ground motion duration on the dynamic deformation capacity of steel frame buildings”. 17th World Conference on Earthquake Engineering, Sendai, Japan.

Shrestha SG, Chandramohan R, and Dhakal RP (2020). “Application of genetic algorithms to select a ground motion set for conducting HC-IDA”. 17th World Conference on Earthquake Engineering, Sendai, Japan.

Bhanu V, Chandramohan R, and Sullivan TJ (2019). “Investigating the influence of ground motion duration on the dynamic deformation capacity of reinforced concrete framed structures”. 11th Pacific Conference on Earthquake Engineering, Auckland, New Zealand.

Loghman V, Tarbali K, Bradley BA, Chandramohan R, McGann CR, and Pettinga JD (2019). “Comparison of recorded and simulated ground motions for NZS1170.5-based 3D building response analysis”. 11th Pacific Conference on Earthquake Engineering, Auckland, New Zealand.

Chandramohan R, Baker JW, and Deierlein GG (2018). “Accounting for the influence of ground motion response spectral shape and duration in the equivalent lateral force design procedure”. 11th US National Conference on Earthquake Engineering, Los Angeles, California, USA.

Chandramohan R, Horspool N, and Bradley BA (2018). “Duration of earthquake ground motion anticipated at sites in New Zealand”. New Zealand Society for Earthquake Engineering Conference, Auckland, New Zealand.

Chandramohan R, Baker JW, and Deierlein GG (2017). “Robust and efficient nonlinear structural analysis using the central difference time integration scheme”. 1st European Conference on OpenSees, Porto, Portugal.

Chandramohan R, Baker JW, and Deierlein GG (2017). “Physical mechanisms underlying the influence of ground motion duration on structural collapse capacity”. 16th World Conference on Earthquake Engineering, Santiago, Chile.

Chandramohan R, Baker JW, and Deierlein GG (2014). “Hazard-consistent ground motion duration: calculation procedure and impact on structural collapse risk”. 10th US National Conference on Earthquake Engineering, Anchorage, Alaska, USA.

Chandramohan R, Baker JW, and Deierlein GG (2013). “Influence of ground motion duration on the collapse response of bridge structures”. 7th US National Seismic Conference on Bridges and Highways, Oakland, California, USA.

Chandramohan R, Lin T, Baker JW, and Deierlein GG (2013). “Influence of ground motion spectral shape and duration on seismic collapse risk”. 10th International Conference on Urban Earthquake Engineering, Tokyo, Japan.

Technical reports

Jampole E, Chandramohan R, Frank T, and Bandelt M (2015). “Shelter, retrofit, and reconstruction of housing: a summary of previously used strategies in developing regions applicable for the 2015 Lamjung, Nepal earthquake”. Tech. rep. The World Bank, Washington DC, USA.

Dissertation

Chandramohan R (2016). “Duration of earthquake ground motion: influence on structural collapse risk and integration in design and assessment practice”. PhD Thesis. Stanford University, Stanford, California, USA.

Posters

Bhanu V, Chandramohan R, and Sullivan TJ (2020). “Influence of ground motion duration on structural dynamic deformation capacity”. QuakeCoRE Annual Meeting, Nelson, New Zealand

Loghman V, Bradley BA, Chandramohan R, Lee R, and McGann CR (2020). “Validation of ground motion simulations using complex structural systems - New Zealand small magnitude events”. QuakeCoRE Annual Meeting, Nelson, New Zealand

Shrestha SG, Chandramohan R, and Dhakal RP (2020). “Ground motion selection for HC-IDA using genetic algorithms”. QuakeCoRE Annual Meeting, Nelson, New Zealand

Bhanu V, Chandramohan R, and Sullivan TJ (2019). “Influence of ground motion duration on the dynamic deformation capacity of reinforced concrete frame structures”. QuakeCoRE Annual Meeting, Nelson, New Zealand

Loghman V, Bradley BA, Chandramohan R, and McGann CR (2019). “Validation of ground motion simulations via response history analysis of steel moment resisting frames using an automated workflow”. QuakeCoRE Annual Meeting, Nelson, New Zealand

Bhanu V, Chandramohan R, and Sullivan TJ (2018). “Characterising the influence of ground motion duration on structural strength and deformation capacity”. QuakeCoRE Annual Meeting, Wairakei, New Zealand

Shrestha SG, Chandramohan R, and Dhakal RP (2018). “Effect of ground motion duration and response spectral shape on seismic performance of steel moment resisting frame buildings”. QuakeCoRE Annual Meeting, Wairakei, New Zealand

Haymes K, Sullivan TJ, and Chandramohan R (2018). “Developing procedures for the prediction of floor response spectra”. QuakeCoRE Annual Meeting, Wairakei, New Zealand

Loghman V, Tarbali K, Bradley BA, Chandramohan R, McGann CR, and Pettinga JD (2018). “Seismic response of complex structural systems using code-compatible as-recorded and simulated ground motions”. QuakeCoRE Annual Meeting, Wairakei, New Zealand

Chandramohan R, Baker JW, and Deierlein GG (2017). “Accounting for ground motion duration and spectral shape in structural design and assessment”. QuakeCoRE Annual Meeting, Wairakei, New Zealand

McGann CR, Jeong S, Chandramohan R, Bradley BA, Wotherspoon L, Lagrava D, and Bae SE (2017). “QuakeCoRE and OpenSees (Year 2): Initiatives and activities to reduce barriers to entry and reduce time to solution”. QuakeCoRE Annual Meeting, Wairakei, New Zealand

Bae SE, Lagrava D, McGann CR, Chandramohan R, Motha J, and Bradley BA (2017). “QuakeCoRE software workshops and training”. QuakeCoRE Annual Meeting, Wairakei, New Zealand

Chandramohan R, Baker JW, and Deierlein GG (2016). “Influence of ground motion duration on structural collapse risk”. QuakeCoRE Annual Meeting, Wairakei, New Zealand.

Chandramohan R, Baker JW, and Deierlein GG (2016). “Influence of ground motion duration on structural collapse risk”. SSA Annual Meeting, Reno, Nevada, USA.

Chandramohan R, Baker JW, and Deierlein GG (2016). “Influence of ground motion duration on structural collapse risk”. EERI Annual Meeting, San Francisco, California, USA.

Chandramohan R, Baker JW, and Deierlein GG (2016). “Influence of ground motion duration on structural collapse risk”. PEER Annual Meeting, Berkeley, California, USA.

Chandramohan R, Baker JW, and Deierlein GG (2013). “Effect of ground motion duration on structural collapse risk”. John A. Blume Earthquake Engineering Center Affiliates Meeting, Stanford, California, USA

Chandramohan R, Baker JW, and Deierlein GG (2012). “Effect of long duration ground motions on structural performance”. PEER Annual Meeting, Berkeley, California, USA.

Other

Chandramohan R (2015). “A structural reliability framework for collapse risk assessment incorporating ground motion duration and response spectral shape”. EERI Graduate Student Paper Competition.

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