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Professor Brendon Bradley

Contact

Department: Civil and Natural Resources Engineering

Email: brendon.bradley@canterbury.ac.nz

Direct Dial: +64 3 3692156

Office: Civil & Natural Resources Engineering E304

Language: English

About
Research / Creative works
Networks

Fields of Research

  • Seismic hazard analysis and ground motion prediction
  • Seismic risk and loss analysis and performance-based earthquake engineering
  • Structural and geotechnical earthquake engineering
  • Application of probability and statistics in Civil Engineering
  • Earthquake research

Researcher Summary

Information on PhD and postdoc research opportunities: https://sites.google.com/site/brendonabradley/research/research-opportunities.  

Brendon is a Professor of Earthquake Engineering and the Director of QuakeCoRE: The New Zealand Centre for Earthquake Resilience, which is a network of over 250 active researchers and practitioners.  His areas of interest include engineering seismology, strong ground motion prediction, seismic response analysis of structural and geotechnical systems, and seismic performance and loss estimation methods.  He obtained his Bachelor of Engineering with Honours in 2007 and PhD in 2009.  Prior to joining the University of Canterbury in 2010, Brendon worked at GNS Science in Wellington, New Zealand, and as a post-doctoral fellow at Chuo University in Tokyo, Japan.  Brendon has received several notable awards for work with collaborators, including, the 2012 Ivan Skinner EQC award for the advancement of earthquake engineering in NZ; 2013 Royal Society of New Zealand Rutherford Discovery Fellowship; 2014 Shamsher Prakash Foundation Research Award; 2014 NZ Engineering Excellence Awards Young Engineer of the Year; 2015 University of Canterbury Teaching Award; 2015 TC203 Young Researcher Award; 2015 EERI Shah Innovation Prize; 2016 ASCE Norman Medal; 2016 NZ Prime Minister’s Emerging Scientist Prize; 2018 NZ Geomechanics Award; and 2021 ISSMGE Bright Spark Lecture Award. [updated May 2021]

For other information, please see Brendon's personal website: https://sites.google.com/site/brendonabradley/home

Subject Area: Disciplines

  • Earth Sciences: Geophysics; Tectonics
  • Engineering and Technology: Civil; Computational Mechanics; Earthquake Engineering; Geotechnical Engineering; Structural
  • Mathematics: Applied Mathematics
  • Statistics: Applied Statistics

Resources

  • Personal webpage

Prizes and Awards

  • 2008 NZSEE Research Prize ( 2008 )
  • ASCE Norman Medal ( 2016 - present )
  • Best Paper award ( 2019 - present )
  • Best Paper, 12th Australian New Zealand Conference on Geomechanics ( 2015 )
  • Bright Spark Lecture Award ( 2021 - present )
  • DesignSafe Dataset Award ( 2021 - present )
  • Early Career Teacher of the Year Award, College of Engineering, University of Canterbury ( 2013 )
  • EERI Graduate Student Paper Award Honourable Mention ( 2018 - present )
  • EERI Shah Family Innovation Prize ( 2015 )
  • Finalist, Lecturer of the Year, University of Canterbury. This was based on teaching classes at 400- and 600-level, which emphasised the teaching-research nexus. ( 2010 )
  • New Zealand Geotechnical Society Geomechanics Award ( 2018 - present )
  • New Zealand Young Engineer of the Year Award ( 2014 )
  • NZSEE EQC Ivan Skinner Award, for the advancement of earthquake engineering research in New Zealand - the premier award of the NZ Earthquake Engineering Society ( 2012 )
  • PhD Thesis placed on the 'Deans List' for Excellence ( 2009 )
  • Seismic Resilience Award for Design to Achieve Low Damage ( 2019 - present )
  • Shamsher Prakash Foundation Research Award ( 2014 )
  • TC203 Young Researcher Award ( 2015 )
  • Tertiary Education Commission Top Achiever Doctoral Scholarship ( 2007 - 2009)
  • The Prime Minister’s MacDiarmid Emerging Scientist Prize ( 2017 - present )
  • University of Canterbury Early & Emerging Career Research Award ( 2014 )
  • University of Canterbury Teaching Award ( 2015 )
  • Engineering New Zealand ( 2021 - present )
  • Fulbright New Zealand Travel ( 2008 )

Research/Scholarly/Creative Works

Journal Articles
  • Jalayer F., Ebrahimian H., Trevlopoulos K. and Bradley B. (2023) Empirical tsunami fragility modelling for hierarchical damage levels. Natural Hazards and Earth System Sciences 23(2): 909-931. http://dx.doi.org/10.5194/nhess-23-909-2023.
  • Zhu C., Cotton F., Kawase H. and Bradley B. (2023) Separating broad-band site response from single-station seismograms. Geophysical Journal International 234(3): 2053-2065. http://dx.doi.org/10.1093/gji/ggad187.
  • Bradley BA., Cubrinovski M. and Wentz F. (2022) PROBABILISTIC SEISMIC HAZARD ANALYSIS OF PEAK GROUND ACCELERATION FOR MAJOR REGIONAL NEW ZEALAND LOCATIONS. Bulletin of the New Zealand Society for Earthquake Engineering 55(1): 15-24. http://dx.doi.org/10.5459/BNZSEE.55.1.15-24.
  • Cubrinovski M., Bradley BA., Wentz F. and Balachandra A. (2022) RE-EVALUATION OF NEW ZEALAND SEISMIC HAZARD FOR GEOTECHNICAL ASSESSMENT AND DESIGN. Bulletin of the New Zealand Society for Earthquake Engineering 55(1): 1-14. http://dx.doi.org/10.5459/BNZSEE.55.1.1-14.
  • De La Torre C., Bradley B., Stewart J. and McGann C. (2022) Can modelling soil heterogeneity in 2D site response improve predictions at vertical array sites? Earthquake Spectra 38(4) http://dx.doi.org/10.1177/87552930221105107.
  • de la Torre CA., Bradley BA. and McGann CR. (2022) 2D Geotechnical site-response analysis including soil heterogeneity and wave scattering. Earthquake Spectra 38(2): 1124-1147. http://dx.doi.org/10.1177/87552930211056667.
  • Lee RL., Bradley BA., Stafford PJ., Graves RW. and Rodriguez-Marek A. (2022) Hybrid broadband ground-motion simulation validation of small magnitude active shallow crustal earthquakes in New Zealand. Earthquake Spectra 38(4): 2548-2579. http://dx.doi.org/10.1177/87552930221109297.
  • Chen Y., Bradley BA. and Baker JW. (2021) Nonstationary spatial correlation in New Zealand strong ground-motion data. Earthquake Engineering and Structural Dynamics 50(13): 3421-3440. http://dx.doi.org/10.1002/eqe.3516.
  • Dempsey D., Eccles JD., Huang J., Jeong S., Nicolin E., Stolte A., Wotherspoon L. and Bradley BA. (2021) Ground motion simulation of hypothetical earthquakes in the upper North Island of New Zealand. New Zealand Journal of Geology and Geophysics 64(4): 570-588. http://dx.doi.org/10.1080/00288306.2020.1842469.
  • Geyin M., Maurer BW., Bradley BA., Green RA. and van Ballegooy S. (2021) CPT-based liquefaction case histories compiled from three earthquakes in Canterbury, New Zealand. Earthquake Spectra 37(4): 2920-2945. http://dx.doi.org/10.1177/8755293021996367.
  • Lin A., Wotherspoon L., Bradley B. and Motha J. (2021) Evaluation and modification of geospatial liquefaction models using land damage observational data from the 2010–2011 Canterbury Earthquake Sequence. Engineering Geology 287 http://dx.doi.org/10.1016/j.enggeo.2021.106099.
  • McGann CR., Bradley BA., Wotherspoon LM. and Lee RL. (2021) Basin effects and limitations of 1D site response analysis from 2D numerical models of the thorndon basin. Bulletin of the New Zealand Society for Earthquake Engineering 54(1): 21-30. http://dx.doi.org/10.5459/bnzsee.54.1.21-30.
  • Ntritsos N., Cubrinovski M. and Bradley BA. (2021) Challenges in the definition of input motions for forensic ground-response analysis in the near-source region. Earthquake Spectra 37(4): 2562-2595. http://dx.doi.org/10.1177/87552930211001376.
  • Cubrinovski M., Bradley BA., Elwood KJ., Johnston D., Orchiston C., Sullivan T. and Wotherspoon LM. (2020) Wellington’s earthquake resilience: Lessons from the 2016 Kaikōura earthquake. Earthquake Spectra 36(3): 1448-1484. http://dx.doi.org/10.1177/8755293020919426.
  • de la Torre CA., Bradley BA. and Lee RL. (2020) Modeling nonlinear site effects in physics-based ground motion simulations of the 2010–2011 Canterbury earthquake sequence. Earthquake Spectra 36(2): 856-879. http://dx.doi.org/10.1177/8755293019891729.
  • Kaklamanos J., Bradley BA., Moolacattu AN. and Picard BM. (2020) Physical hypotheses for adjusting coarse profiles and improving 1d site-response estimation assessed at 10 kik-net sites. Bulletin of the Seismological Society of America 110(3): 1338-1358. http://dx.doi.org/10.1785/0120190263.
  • Lee RL., Bradley BA., Stafford PJ., Graves RW. and Rodriguez-Marek A. (2020) Hybrid broadband ground motion simulation validation of small magnitude earthquakes in Canterbury, New Zealand. Earthquake Spectra 36(2): 673-699. http://dx.doi.org/10.1177/8755293019891718.
  • Thomson EM., Bradley BA. and Lee RL. (2020) Methodology and computational implementation of a New Zealand Velocity Model (NZVM2.0) for broadband ground motion simulation. New Zealand Journal of Geology and Geophysics 63(1): 110-127. http://dx.doi.org/10.1080/00288306.2019.1636830.
  • Thomson EM., Bradley BA., Lee RL., Wotherspoon LM., Wood CM. and Cox BR. (2020) Generalised parametric functions and spatial correlations for seismic velocities in the Canterbury, New Zealand region from surface-wave-based site characterisation. Soil Dynamics and Earthquake Engineering 128 http://dx.doi.org/10.1016/j.soildyn.2019.105834.
  • Bellagamba X., Bradley BA., Wotherspoon LM. and Hughes MW. (2019) Development and validation of fragility functions for buried pipelines based on Canterbury earthquake sequence data. Earthquake Spectra 35(3) 120917EQS253M: 1061-1086. http://dx.doi.org/10.1193/120917eqs253m.
  • Bellagamba X., Bradley BA., Wotherspoon LM. and Lagrava WD. (2019) A Decision-Support Algorithm for Post-Earthquake Water Services Recovery and Its Application to the 22 February 2011 Mw 6.2 Christchurch Earthquake. Earthquake Spectra 35(3): 1397-1420. http://dx.doi.org/10.1193/052218eqs119m.
  • Bellagamba X., Lee R. and Bradley BA. (2019) A neural network for automated quality screening of ground motion records from small magnitude earthquakes. Earthquake Spectra 35(4): 1637-1661. http://dx.doi.org/10.1193/122118EQS292M.
  • Bradley BA. (2019) On-going challenges in physics-based ground motion prediction and insights from the 2010–2011 Canterbury and 2016 Kaikoura, New Zealand earthquakes. Soil Dynamics and Earthquake Engineering 124: 354-364. http://dx.doi.org/10.1016/j.soildyn.2018.04.042.
  • Foster KM., Bradley BA., McGann CR. and Wotherspoon LM. (2019) A VS30 map for New Zealand based on geologic and terrain proxy variables and field measurements. Earthquake Spectra 35(4): 1865-1897. http://dx.doi.org/10.1193/121118EQS281M.
  • Morris GJ., Thompson AJ., Dismuke JN. and Bradley BA. (2019) Ground motion input for nonlinear response history analysis. Bulletin of the New Zealand Society for Earthquake Engineering 52(3): 119-133. http://dx.doi.org/10.5459/bnzsee.52.3.119-133.
  • Morris GJ., Thompson AJ., Dismuke JN. and Bradley BA. (2019) Ground motion input for nonlinear response history analysis: Practical limitations of NZS 1170.5 and comparison to US standards. Bulletin of the New Zealand Society for Earthquake Engineering 52(3): 119-133. http://dx.doi.org/10.5459/BNZSEE.52.3.119-133.
  • Polak V., Zhu Y., Bae S., Motha J., Bradley B. and Razafindrakoto H. (2019) GMSimViz: Automated 3D Visualization of Ground Motion Simulation with Generic Mapping Tools (GMT). Journal of Open Source Software 4(35): 808-808. http://dx.doi.org/10.21105/joss.00808.
  • Razafindrakoto HNT., Bradley BA. and Graves RW. (2019) Reply to"comment on ‘broadband ground-motion simulation of the 2011 Mw 6.2 Christchurch, new Zealand, Earthquake’ by H. N. T. Razafindrakoto, B. A. Bradley, and R. W. Graves" by Guidotti et al. Bulletin of the Seismological Society of America 109(5): 2139. http://dx.doi.org/10.1785/0120190125.
  • Tarbali K., Bradley BA. and Baker JW. (2019) Ground motion selection in the near-fault region considering directivity-induced pulse effects. Earthquake Spectra 35(2): 759-786. http://dx.doi.org/10.1193/102517EQS223M.
  • Thomson EM., Lee RL. and Bradley BA. (2019) Ground motion simulations of Hope Fault earthquakes. Bulletin of the New Zealand Society for Earthquake Engineering 52(4): 152-171. http://dx.doi.org/10.5459/BNZSEE.52.4.152-171.
  • Bagriacik A., Davidson R., Hughes MW., Bradley B. and Cubrinovski M. (2018) Comparison of statistical and machine learning approaches to modeling earthquake damage to water pipelines. Soil Dynamics and Earthquake Engineering 112: 76-88. http://dx.doi.org/10.1016/j.soildyn.2018.05.010.
  • Bradley BA., Wotherspoon LM., Kaiser AE., Cox BR. and Jeong S. (2018) Influence of site effects on observed ground motions in the Wellington region from the Mw 7.8 Kaikōura, New Zealand, earthquake. Bulletin of the Seismological Society of America 108(3B): 1722-1735. http://dx.doi.org/10.1785/0120170286.
  • Bruce Worden C., Thompson EM., Baker JW., Bradley BA., Luco N. and Wald DJ. (2018) Spatial and spectral interpolation of ground-motion intensity measure observations. Bulletin of the Seismological Society of America 108(2): 866-875. http://dx.doi.org/10.1785/0120170201.
  • Cubrinovski M., Bray JD., de la Torre C., Olsen M., Bradley B., Chiaro G., Stocks E., Wotherspoon L. and Krall T. (2018) Liquefaction-induced damage and CPT characterization of the reclamations at Centreport, Wellington. Bulletin of the Seismological Society of America 108(3B): 1695-1708. http://dx.doi.org/10.1785/0120170246.
  • Deschenes MR., Wood CM., Wotherspoon LM., Bradley BA. and Thomson E. (2018) Development of deep shear wave velocity profiles in the canterbury plains, New Zealand. Earthquake Spectra 34(3): 1065-1089. http://dx.doi.org/10.1193/122717EQS267M.
  • Kaklamanos J. and Bradley BA. (2018) Challenges in predicting seismic site response with 1d analyses: Conclusions from 114 kik-net vertical seismometer arrays. Bulletin of the Seismological Society of America 108(5): 2816-2838. http://dx.doi.org/10.1785/0120180062.
  • Massey C., Townsend D., Rathje E., Allstadt KE., Lukovic B., Kaneko Y., Bradley B., Wartman J., Jibson RW. and Petley DN. (2018) Landslides Triggered by the 14 November 2016 Mw 7.8 Kaikōura Earthquake, New Zealand. Bulletin of the Seismological Society of America 108(3B): 1630-1648. http://dx.doi.org/10.1785/0120170305.
  • McGann CR., Bradley B. and Jeong S. (2018) Empirical correlation for estimating shear wave velocity form cone penetration test data for Banks Peninsula loess soils in Canterbury, New Zealand. Journal of Geotechnical and Geoenvironmental Engineering 144(9) 04018054: 11. http://dx.doi.org/10.1061/(ASCE)GT.1943-5606.0001926.
  • Orchiston C., Mitchell J., Wilson T., Langridge R., Davies T., Bradley B., Johnston D., Davies A., Becker J. and McKay A. (2018) Project AF8: developing a coordinated, multi-agency response plan for a future great Alpine Fault earthquake. New Zealand Journal of Geology and Geophysics 61(3): 389-402. http://dx.doi.org/10.1080/00288306.2018.1455716.
  • Razafindrakoto HNT., Bradley BA. and Graves RW. (2018) Broadband ground-motion simulation of the 2011 Mw 6.2 Christchurch, New Zealand, earthquake. Bulletin of the Seismological Society of America 108(4): 2130-2147. http://dx.doi.org/10.1785/0120170388.
  • Tarbali K., Bradley BA. and Baker JW. (2018) Consideration and propagation of ground motion selection epistemic uncertainties to seismic performance metrics. Earthquake Spectra 34(2): 587-610. http://dx.doi.org/10.1193/061317EQS114M.
  • Teague D., Cox B., Bradley B. and Wotherspoon L. (2018) Development of deep shear wave velocity profiles with estimates of uncertainty in the complex interbedded geology of christchurch, New Zealand. Earthquake Spectra 34(2): 639-672. http://dx.doi.org/10.1193/041117EQS069M.
  • Yeow T., MacRae GA., Dhakal R. and Bradley BA. (2018) Validating the sliding mechanics of office-type furniture using shake-table experiments. Bulletin of the New Zealand Society for Earthquake Engineering 51(1): 1-11.
  • Baker JW. and Bradley BA. (2017) Intensity Measure Correlations Observed in the NGA-West2 Database, and Dependence of Correlations on Rupture and Site Parameters. Earthquake Spectra 33(1): 145-156. http://dx.doi.org/10.1193/060716EQS095M.
  • Bradley BA., Bae SE., Polak V., Lee RL., Thomson EM. and Tarbali K. (2017) Ground motion simulations of great earthquakes on the Alpine Fault: effect of hypocentre location and comparison with empirical modelling. New Zealand Journal of Geology and Geophysics 60(3): 188-198. http://dx.doi.org/10.1080/00288306.2017.1297313.
  • Bradley BA., Lee RL., Thomson EM. and Ghisetti F. (2017) Development of a 3D velocity model of the Canterbury, New Zealand, region for broadband ground-motion simulation. Bulletin of the Seismological Society of America.
  • Bradley BA., Pettinga D., Baker JW. and Fraser J. (2017) Guidance on the utilization of earthquake- induced ground motion simulations in engineering practice. Earthquake Spectra 33(3): 809-835. http://dx.doi.org/10.1193/120216EQS219EP.
  • Bradley BA., Razafindrakoto HNT. and Nazer M. (2017) Strong ground motion observations of engineering interest from the 14 November 2016 Mw7.8 Kaikoura, New Zealand earthquake. Bulletin of the New Zealand Society for Earthquake Engineering 50(2): 85-93.
  • Bradley BA., Razafindrakoto HNT. and Polak V. (2017) Ground-motion observations from the 14 November 2016 Mw 7.8 Kaikoura, New Zealand, earthquake and insights from broadband simulations. Seismological Research Letters 88(3): 740-756. http://dx.doi.org/10.1785/0220160225.
  • Bradley BA., Wotherspoon LM. and Kaiser AE. (2017) Ground motion and site effect observations in the Wellington region from the 2016 Mw7.8 Kaikoura, New Zealand earthquake. Bulletin of the New Zealand Society for Earthquake Engineering 50(2): 94-105.
  • Bullock Z., Dashti S., Liel A., Porter K., Karimi Z. and Bradley BA. (2017) Ground Motion Prediction Equations for Arias Intensity, Cumulative Absolute Velocity, and Peak Incremental Ground Velocity for Rock Sites in Different Tectonic Environments. Bulletin of the Seismological Society of America.
  • 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): 237-252.
  • Chandramohan R., Ma Q., Wotherspoon LM., Bradley BA., Nayyerloo M., Uma SR. and Stephens MT. (2017) Response of instrumented buildings under the 2016 Kaikōura earthquake. Bulletin of the New Zealand Society for Earthquake Engineering 50(2): 237-252. http://dx.doi.org/10.5459/bnzsee.50.2.237-252.
  • Cubrinovski M., Bray J., de la Torre C., Olsen M., Bradley B., Chiaro G., Stock E. and Wotherspoon L. (2017) Liquefaction effects and associated damages observed at the Wellington centreport from the 2016 Kaikoura earthquake. Bulletin of the New Zealand Society for Earthquake Engineering 50(2): 152-173.
  • Jeong S. and Bradley BA. (2017) Amplification of strong ground motions at Heathcote Valley during the 2010–2011 Canterbury earthquakes: Observation and 1D site response analysis. Soil Dynamics and Earthquake Engineering 100: 345-356. http://dx.doi.org/10.1016/j.soildyn.2017.06.004.
  • Jeong S. and Bradley BA. (2017) Amplification of strong ground motions at Heathcote Valley during the 2010-2011 Canterbury earthquakes: The role of 2D nonlinear site response. Bulletin of the Seismological Society of America 107(5): 2117-2130. http://dx.doi.org/10.1785/0120160389.
  • Lee R., Bradley BA. and McGann CR. (2017) 3D models for the interbedded Quaternary stratigraphy in the Canterbury, New Zealand region. New Zealand Journal of Geology and Geophysics : 320-340. http://dx.doi.org/10.1080/00288306.2017.1334671.
  • Lee RL., Bradley BA., Ghisetti FC. and Thomson EM. (2017) Development of a 3D velocity model of the Canterbury, New Zealand, region for broadband ground-motion simulation. Bulletin of the Seismological Society of America 107(5): 2131-2150. http://dx.doi.org/10.1785/0120160326.
  • McGann CR., Bradley BA. and Cubrinovski M. (2017) Development of a regional V-s30 model and typical Vs profiles for Christchurch, New Zealand from CPT data and region-specific CPT-V-s correlation. Soil Dynamics and Earthquake Engineering 95: 48-60. http://dx.doi.org/10.1016/j.soildyn.2017.01.032.
  • McGann CR., Bradley BA. and Cubrinovski M. (2017) Investigation of shear wave velocity depth variability, site classification, and liquefaction vulnerability identification using near-surface Vs model of Christchurch, New Zealand. Soil Dynamics and Earthquake Engineering 92: 692-705. http://dx.doi.org/10.1016/j.soildyn.2016.10.025.
  • Stringer ME., Bastin S., McGann C., Cappellaro C., El Kortbawi M., McMahon R., Wotherspoon L., Green R., Aricheta J. and Davis R. (2017) Geotechnical aspects of the 2016 Kaikōura earthquake on the South Island of New Zealand. Bulletin of the New Zealand Society for Earthquake Engineering 50(2): 117-141.
  • Wood CM., Cox BR., Green RA., Wotherspoon LM., Bradley BA. and Cubrinovski M. (2017) Vs-based evaluation of select liquefaction case histories from the 2010-2011 canterbury earthquake sequence. Journal of Geotechnical and Geoenvironmental Engineering 143(9) http://dx.doi.org/10.1061/(ASCE)GT.1943-5606.0001754.
  • Bastin SH., Bassett K., Quigley MC., Maurer B., Green RA., Bradley B. and Jacobson D. (2016) Late holocene liquefaction at sites of contemporary liquefaction during the 2010–2011 Canterbury earthquake sequence, New Zealand. Bulletin of the Seismological Society of America 106(3): 881-903. http://dx.doi.org/10.1785/0120150166.
  • Bradley BA. (2016) Strong ground motion characteristics observed in the 13 June 2011 Mw6.0 Christchurch, New Zealand earthquake. Soil Dynamics and Earthquake Engineering 91: 23-38. http://dx.doi.org/10.1016/j.soildyn.2016.09.006.
  • Carter WL., Green RA., Bradley BA., Wotherspoon LM. and Cubrinovski M. (2016) Spatial variation of magnitude scaling factors during the 2010 Darfield and 2011 Christchurch, New Zealand, earthquakes. Soil Dynamics and Earthquake Engineering 91: 175-186. http://dx.doi.org/10.1016/j.soildyn.2016.09.044.
  • Quigley MC., Hughes MW., Bradley BA., van Ballegooy S., Reid CM., Morgenroth J., Horton TW., Duffy B. and Pettinga JR. (2016) The 2010-2011 Canterbury Earthquake Sequence: Environmental effects, seismic triggering thresholds and geologic legacy. Tectonophysics 672–673: 228-274. http://dx.doi.org/10.1016/j.tecto.2016.01.044.
  • Tarbali K. and Bradley BA. (2016) The effect of causal parameter bounds in PSHA-based ground motion selection. Earthquake Engineering and Structural Dynamics 45(9): 1515-1535. http://dx.doi.org/10.1002/eqe.2721.
  • Bradley BA. (2015) Benefits of site-specific seismic hazard analyses for seismic design in New Zealand. Bulletin of the New Zealand Society of Earthquake Engineering 48(2): 92-99.
  • Bradley BA. (2015) Correlation of Arias intensity with amplitude, duration, and cumulative intensity measures. Soil Dynamics and Earthquake Engineering 78: 89-98. http://dx.doi.org/10.1016/j.soildyn.2015.07.009.
  • Bradley BA. (2015) Discussion on 'a framework for the evaluation of ground motion selection and modification procedures' by N. Simon Kwong, Anil K. Chopra, and Robin K. McGuire. Earthquake Engineering and Structural Dynamics 44(5): 817-821. http://dx.doi.org/10.1002/eqe.2544.
  • Bradley BA. (2015) Period dependence of response spectrum damping modification factors due to source- and site-specific effects. Earthquake Spectra 31(2): 745-759.
  • Bradley BA. (2015) Systematic ground motion observations in the Canterbury earthquakes and region-specific non-ergodic empirical ground motion modeling. Earthquake Spectra 31(3): 1735-1761.
  • Bradley BA. and Baker JW. (2015) Ground motion directionality in the 2010-2011 Canterbury earthquakes. Earthquake Engineering and Structural Dynamics 44(3): 371-384.
  • Bradley BA., Burks LS. and Baker JW. (2015) Ground motion selection for simulation-based seismic hazard and structural reliability assessment. Earthquake Engineering and Structural Dynamics 44(13): 2321-2340.
  • Hughes MW., Quigley MC., Van Ballegooy S., Deam BL., Bradley BA., Hart DE. and Measures R. (2015) The sinking city: Earthquakes increase flood hazard in Christchurch, New Zealand. GSA Today 25(3-4): 4-10. http://dx.doi.org/10.1130/GSATG221A.1.
  • Maurer BW., Green RA., Cubrinovski M. and Bradley BA. (2015) Assessment of CPT-based methods for liquefaction evaluation in a liquefaction potential index framework (vol 65, pg 328, 2015). GEOTECHNIQUE 65(7): 624-624. http://dx.doi.org/10.1680/geot.2015.65.7.624.
  • Maurer BW., Green RA., Cubrinovski M. and Bradley BA. (2015) Assessment of CPT-based methods for liquefaction evaluation in a liquefaction potential index framework. Geotechnique 65(5): 328-336. http://dx.doi.org/10.1680/geot.SIP.15.P.007.
  • Maurer BW., Green RA., Cubrinovski M. and Bradley BA. (2015) Fines-content effects on liquefaction hazard evaluation for infrastructure in Christchurch, New Zealand. Soil Dynamics and Earthquake Engineering 76: 58-68. http://dx.doi.org/10.1016/j.soildyn.2014.10.028.
  • McGann CR., Bradley BA., Taylor ML., Wotherspoon LM. and Cubrinovski M. (2015) Applicability of existing shear wave velocity correlations to seismic cone penetration test data in Christchurch New Zealand. Soil Dynamics and Earthquake Engineering 75: 76-86. http://dx.doi.org/10.1016/j.soildyn.2015.03.021.
  • McGann CR., Bradley BA., Taylor ML., Wotherspoon LM. and Cubrinovski M. (2015) Development of an empirical correlation for predicting shear wave velocity of Christchurch soils from cone penetration test data. Soil Dynamics and Earthquake Engineering 75: 66-75. http://dx.doi.org/10.1016/j.soildyn.2015.03.023.
  • McGann CR., Bradley BA., Wotherspoon LM., Cox BR. and Green RA. (2015) Comparison of a Christchurch-specific CPT-Vs Correlation and Vs Derived from Surface Wave Analysis for Strong Motion Station Velocity Characterisation. Bulletin of the New Zealand Society of Earthquake Engineering 48(2): 81-91.
  • Morris GJ., Bull DK. and Bradley BA. (2015) In situ conditions affecting the ductility capacity of lightly reinforced concrete wall structures in the Canterbury earthquake sequence. Bulletin of the New Zealand Society for Earthquake Engineering 48(3): 190-203. http://dx.doi.org/10.5459/bnzsee.48.3.190-203.
  • Morris GJ., Bull DK. and Bradley BA. (2015) In situ conditions affecting the ductility capacity of lightly reinforced concrete wall structures in the Canterbury earthquake sequence. Bulletin of the New Zealand Society for Earthquake Engineering 48(3): 191-204.
  • Tarbali K. and Bradley BA. (2015) Ground motion selection for scenario ruptures using the generalised conditional intensity measure (GCIM) method. Earthquake Engineering and Structural Dynamics 44(10): 1601-1621. http://dx.doi.org/10.1002/eqe.2546.
  • Wotherspoon LM., Orense RP., Bradley BA., Cox BR., Wood CM. and Green RA. (2015) Soil profile characterisation of Christchurch Central Business District strong motion stations. Bulletin of the New Zealand Society for Earthquake Engineering 48(3): 146-156. http://dx.doi.org/10.5459/bnzsee.48.3.146-156.
  • Wotherspoon LM., Orense RP., Bradley BA., Cox BR., Wood CM. and Green RA. (2015) Soil Profile Characterisation of Christchurch Central Business District Strong Motion Stations. Bulletin of the New Zealand Society for Earthquake Engineering 48(3): 147-157.
  • Wotherspoon LM., Orense RP., Green RA., Bradley BA., Cox BR. and Wood CM. (2015) Assessment of liquefaction evaluation procedures and severity index frameworks at Christchurch strong motion stations. Soil Dynamics and Earthquake Engineering 79(B): 335-346. http://dx.doi.org/10.1016/j.soildyn.2015.03.022.
  • Bradley BA. (2014) Seismic performance criteria based on response history analysis. Bulletin of the New Zealand Society for Earthquake Engineering 47(3): 224-228. http://dx.doi.org/10.5459/bnzsee.47.3.224-228.
  • Bradley BA. (2014) Seismic performance criteria based on response history analysis: Alternative metrics for practical application in NZ. Bulletin of the New Zealand Society for Earthquake Engineering 47(3): 224-228.
  • Bradley BA. (2014) Site-specific and spatially-distributed ground-motion intensity estimation in the 2010-2011 Canterbury earthquakes. Soil Dynamics and Earthquake Engineering 61-62: 83-91. http://dx.doi.org/10.1016/j.soildyn.2014.01.025.
  • Bradley BA., Quigley MC., Van Dissen RJ. and Litchfield NJ. (2014) Ground motion and seismic source aspects of the Canterbury earthquake sequence. Earthquake Spectra 30(1): 1-15. http://dx.doi.org/10.1193/030113EQS060M.
  • Cubrinovski M., Winkley A., Haskell J., Palermo A., Wotherspoon L., Robinson K., Bradley B., Brabhaharan P. and Hughes M. (2014) Spreading-induced damage to short-span bridges in Christchurch, New Zealand. Earthquake Spectra 30(1): 57-83. http://dx.doi.org/10.1193/030513EQS063M.
  • Das S., Bradley BA. and Cubrinovski M. (2014) A three dimensional plasticity model for sands based on state concept. Applied Mechanics and Materials 533: 482-488. http://dx.doi.org/10.4028/www.scientific.net/AMM.553.482.
  • Green RA., Cubrinovski M., Cox B., Wood C., Wotherspoon L., Bradley BA. and Maurer B. (2014) Select liquefaction case histories from the 2010-2011 Canterbury earthquake sequence. Earthquake Spectra 30(1): 131-153. http://dx.doi.org/10.1193/030713EQS066M.
  • Maurer B., Green R., Cubrinovski M. and Bradley B. (2014) Evaluation of the Liquefaction Potential Index for Assessing Liquefaction Hazard in Christchurch, New Zealand. Journal of Geotechnical and Geoenvironmental Engineering 140(7) 4014032 http://dx.doi.org/10.1061/(ASCE)GT.1943-5606.0001117.
  • Robinson K., Cubrinovski M. and Bradley BA. (2014) Lateral spreading displacements from the 2010 Darfield and 2011 Christchurch earthquakes. International Journal of Geotechnical Engineering 8(4): 441-448. http://dx.doi.org/10.1179/1939787913Y.0000000032.
  • Tarbali K. and Bradley BA. (2014) Representative ground motion ensembles for several major earthquake scenarios in New Zealand. Bulletin of the New Zealand Society of Earthquake Engineering 47(4): 231-252.
  • Bradley BA. (2013) A comparison of intensity-based demand distributions and the seismic demand hazard for seismic performance assessment. Earthquake Engineering and Structural Dynamics 42(15): 2235-2253. http://dx.doi.org/10.1002/eqe.2322.
  • Bradley BA. (2013) A critical examination of seismic response uncertainty analysis in earthquake engineering. Earthquake Engineering and Structural Dynamics 42(11): 1717-1729. http://dx.doi.org/10.1002/eqe.2331.
  • Bradley BA. (2013) A New Zealand-specific pseudospectral acceleration ground-motion prediction equation for active shallow crustal earthquakes based on foreign models. Bulletin of the Seismological Society of America 103(3): 1801-1822. http://dx.doi.org/10.1785/0120120021.
  • Bradley BA. (2013) Practice-oriented estimation of the seismic demand hazard using ground motions at few intensity levels. Earthquake Engineering and Structural Dynamics 42(14): 2167-2185. http://dx.doi.org/10.1002/eqe.2319.
  • Bradley BA. and Cubrinovski M. (2013) Simplified probabilistic state concept characterization of sandy soils and application to liquefaction resistance assessment. Soil Dynamics and Earthquake Engineering 48: 104-118. http://dx.doi.org/10.1016/j.soildyn.2013.02.005.
  • Bradley BA., Araki K., Ishii T. and Saitoh K. (2013) Effect of lattice-shaped ground improvement geometry on seismic response of liquefiable soil deposits via 3-D seismic effective stress analysis. Soil Dynamics and Earthquake Engineering 48: 35-47. http://dx.doi.org/10.1016/j.soildyn.2013.01.027.
  • Kaklamanos J., Bradley BA., Thompson EM. and Baise LG. (2013) Critical parameters affecting bias and variability in site-response analyses using KiK-net downhole array data. Bulletin of the Seismological Society of America 103(3): 1733-1749.
  • Morris GJ., Bradley BA., Walker A. and Matuschka T. (2013) Ground motion and damage observations in the Marlborough region from the 2013 Lake Grassmere earthquake. Bulletin of the New Zealand Society for Earthquake Engineering 46(4): 169-187.
  • Quigley MC., Bastin S. and Bradley BA. (2013) Recurrent liquefaction in Christchurch, New Zealand, during the Canterbury earthquake sequence. Geology 41(4): 419-422. http://dx.doi.org/10.1130/G33944.1.
  • Quigley MC., Bastin S. and Bradley BA. (2013) Recurrent liquefaction in Christchurch, New Zealand, during the Canterbury earthquake sequence. Geology 41(5): 614.
  • Bradley BA. (2012) A ground motion selection algorithm based on the generalized conditional intensity measure approach. Soil Dynamics and Earthquake Engineering 40: 48-61. http://dx.doi.org/10.1016/j.soildyn.2012.04.007.
  • Bradley BA. (2012) Empirical Correlations between Cumulative Absolute Velocity and Amplitude-Based Ground Motion Intensity Measures. Earthquake Spectra 28(1): 37-54. http://dx.doi.org/10.1193/1.3675580.
  • Bradley BA. (2012) Empirical Correlations between Peak Ground Velocity and Spectrum-Based Intensity Measures. Earthquake Spectra 28(1): 17-35. http://dx.doi.org/10.1193/1.3675582.
  • Bradley BA. (2012) Ground motions observed in the Darfield and Christchurch earthquakes and the importance of local site response effects. New Zealand Journal of Geology and Geophysics 55(3): 279-286. http://dx.doi.org/10.1080/00288306.2012.674049.
  • Bradley BA. (2012) Strong ground motion characteristics observed in the 4 September 2010 Darfield, New Zealand earthquake. Soil Dynamics and Earthquake Engineering 42: 32-46. http://dx.doi.org/10.1016/j.soildyn.2012.06.004.
  • Bradley BA. (2012) The seismic demand hazard and importance of conditioning intensity measure. Earthquake Engineering & Structural Dynamics 41(11): 1417-1437. http://dx.doi.org/10.1002/eqe.2221.
  • Bradley BA., Stirling MW., McVerry GH. and Gerstenberger M. (2012) Consideration and propagation of epistemic uncertainties in New Zealand probabilistic seismic hazard analysis. Bulletin of the Seismological Society of America 102(4): 1554-1568. http://dx.doi.org/10.1785/0120110257.
  • Cubrinovski M., Haskell JJM. and Bradley BA. (2012) Macro Element for Pile Head Cyclic Lateral Loading. Geotechnical, Geological and Earthquake Engineering 16: 147-174. http://dx.doi.org/10.1007/978-94-007-2060-2_6.
  • Haskell JJM., Cubrinovski M. and Bradley BA. (2012) Sensitivity analysis and its role in pseudo-static design of pile foundations. Soil Dynamics and Earthquake Engineering 42: 80-94. http://dx.doi.org/10.1016/j.soildyn.2012.05.014.
  • Rodgers GW., Solberg KM., Mander JB., Chase JG., Bradley BA. and Dhakal RP. (2012) High-Force-to-Volume Seismic Dissipators Embedded in a Jointed Precast Concrete Frame. Journal of Structural Engineering 138(3): 375-386. http://dx.doi.org/10.1061/(ASCE)ST.1943-541X.0000329.
  • Stirling MW., McVerry G., Gerstenberger M., Litchfield N., Van Dissen R., Berryman K., Barnes P., Wallace L., Villamor P. and Langridge R. (2012) National seismic hazard model for New Zealand: 2010 Update. Bulletin of the Seismological Society of America 102(4): 1514-1542. http://dx.doi.org/10.1785/0120110170.
  • Taylor ML., Cubrinovski M. and Bradley BA. (2012) Characterisation of ground conditions in the Christchurch Central Business District. Australian Geomechanics Journal 47(4): 43-58.
  • Bradley B., Cubrinovski M. and Haskell J. (2011) Probabilistic pseudo-static analysis of pile foundations in liquefiable soils. Soil Dynamics and Earthquake Engineering 31(10): 1414-1425. http://dx.doi.org/10.1016/j.soildyn.2011.05.018.
  • Bradley BA. (2011) A framework for validation of seismic response analyses using seismometer array recordings. Soil Dynamics and Earthquake Engineering 31(3): 512-520. http://dx.doi.org/10.1016/j.soildyn.2010.11.008.
  • Bradley BA. (2011) Correlation of significant duration with amplitude and cumulative intensity measures and its use in ground motion selection. Journal of Earthquake Engineering 15(6): 809-832. http://dx.doi.org/10.1080/13632469.2011.557140.
  • Bradley BA. (2011) Design seismic demands from seismic response analyses: A probability-based approach. Earthquake Spectra 27(1): 213-224. http://dx.doi.org/10.1193/1.3533035.
  • Bradley BA. (2011) Empirical correlation of PGA, spectral accelerations and spectrum intensities from active shallow crustal earthquakes. Earthquake Engineering and Structural Dynamics 40(15): 1707-1721. http://dx.doi.org/10.1002/eqe.1110.
  • Bradley BA. (2011) Empirical equations for the prediction of displacement spectrum intensity and its correlation with other intensity measures. Soil Dynamics and Earthquake Engineering 31(8): 1182-1191. http://dx.doi.org/10.1016/j.soildyn.2011.04.007.
  • Bradley BA. and Cubrinovski M. (2011) Near-source strong ground motions observed in the 22 February 2011 Christchurch earthquake. Bulletin of the New Zealand Society of Earthquake Engineering 44(4): 181-194.
  • Bradley BA. and Cubrinovski M. (2011) Near-source strong ground motions observed in the 22 February 2011 Christchurch earthquake. Seismological Research Letters 82(6): 853-865. http://dx.doi.org/10.1785/gssrl.82.6.853.
  • Cubrinovski M., Bradley B., Wotherspoon L., Green R., Bray J., Wood C., Pender M., Allen J., Bradshaw A. and Rix G. (2011) Geotechnical Aspects of the 22 February 2011 Christchurch earthquake. Bulletin of the New Zealand Society of Earthquake Engineering 44(4): 205-226.
  • Cubrinovski M., Bray JD., Taylor M., Giorgini S., Bradley B., Wotherspoon L. and Zupan J. (2011) Soil liquefaction effects in the central business district during the February 2011 Christchurch earthquake. Seismological Research Letters 82(6): 893-904. http://dx.doi.org/10.1785/gssrl.82.6.893.
  • Green R., Allen J., Wotherspoon L., Cubrinovski M., Bradley B., Bradshaw A., Cox B. and Algie T. (2011) Performance of levees (stopbanks) during the 4 September 2010, Mw7.1 Darfield and 22 February 2011, Mw6.2 Christchurch, New Zealand, earthquakes. Seismological Research Letters 82(6): 939-949. http://dx.doi.org/10.1785/gssrl.82.6.939.
  • Green RA., Wood C., Cox B., Cubrinovski M., Wotherspoon L., Bradley B., Algie T., Allen J., Bradshaw A. and Rix G. (2011) Use of DCP and SASW Tests to Evaluate Liquefaction Potential: Predictions vs. Observations during the Recent New Zealand Earthquakes. Seismological Research Letters 82(6): 927-938. http://dx.doi.org/10.1785/gssrl.82.6.927.
  • Reese S., Bradley BA., Bind J., Smart G., Power W. and Sturman J. (2011) Empirical building fragilities from observed damage in the 2009 South Pacific tsunami. Earth-Science Reviews 107(1-2): 156-173. http://dx.doi.org/10.1016/j.earscirev.2011.01.009.
  • Stirling M., Litchfield N., Gerstenberger M., Clark D., Bradley B., Beavan J., McVerry G., Van Dissen R., Nicol A. and Wallace L. (2011) Preliminary probabilistic seismic hazard analysis of the CO2CRC Otway Project Site, Victoria, Australia. Bulletin of the Seismological Society of America 101(6): 2726-2736. http://dx.doi.org/10.1785/0120110049.
  • Wotherspoon L., Bradshaw A., Green R., Wood C., Palermo A., Cubrinovski M. and Bradley B. (2011) Performance of bridges during the 2010 Darfield and 2011 Christchurch earthquakes. Seismological Research Letters 82(6): 950-964. http://dx.doi.org/10.1785/gssrl.82.6.950.
  • Bradley BA. (2010) A generalized conditional intensity measure approach and holistic ground-motion selection. Earthquake Engineering & Structural Dynamics 39(12): 1321-1342. http://dx.doi.org/10.1002/eqe.995.
  • Bradley BA. (2010) Epistemic Uncertainties in Component Fragility Functions. Earthquake Spectra 26(1): 41-62. http://dx.doi.org/10.1193/1.3281681.
  • Bradley BA. (2010) Site-specific and spatially distributed estimation of ground motion intensity in the 2010-2011 Canterbury earthquakes. Soil Dynamics and Earthquake Engineering 61-62(0): 83-91.
  • Bradley BA. (2010) Site-Specific and Spatially Distributed Ground-Motion Prediction of Acceleration Spectrum Intensity. Bulletin of the Seismological Society of America 100(2): 792-801. http://dx.doi.org/10.1785/0120090157.
  • Bradley BA. and Lee DS. (2010) Accuracy of approximate methods of uncertainty propagation in seismic loss estimation. Structural Safety 32(1): 13-24. http://dx.doi.org/10.1016/j.strusafe.2009.04.001.
  • Bradley BA. and Lee DS. (2010) Component correlations in structure-specific seismic loss estimation. Earthquake Engineering and Structural Dynamics 39(3): 237-258. http://dx.doi.org/10.1002/eqe.937.
  • Bradley BA., Cubrinovski M., Dhakal RP. and MacRae GA. (2010) Probabilistic seismic performance and loss assessment of a bridge-foundation-soil system. Soil Dynamics and Earthquake Engineering 30(5): 395-411. http://dx.doi.org/10.1016/j.soildyn.2009.12.012.
  • Bradley BA., Dhakal RP., MacRae GA. and Cubrinovski M. (2010) Prediction of spatially distributed seismic demands in specific structures: Ground motion and structural response. Earthquake Engineering and Structural Dynamics 39(5): 501-520. http://dx.doi.org/10.1002/eqe.954.
  • Bradley BA., Dhakal RP., MacRae GA. and Cubrinovski M. (2010) Prediction of spatially distributed seismic demands in specific structures: Structural response to loss estimation. Earthquake Engineering and Structural Dynamics 39(6): 591-613. http://dx.doi.org/10.1002/eqe.955.
  • Cubrinovski M., Green RA., Allen J., Ashford S., Bowman E., Bradley B., Cox B., Hutchinson T., Kavazanjian E. and Orense R. (2010) Geotechnical Reconnaissance of the 2010 Darfield (Canterbury) Earthquake. Bulletin of the New Zealand Society for Earthquake Engineering 43(4): 243-320.
  • Fry B., Bannister S., Beavan J., Bland L., Bradley B., Cox S., Cousins J., Gale N., Hancox G. and Holden C. (2010) The Mw 7.6 Dusky Sound earthquake of 2009. Bulletin of the New Zealand Society for Earthquake Engineering 43(1): 24-40. http://dx.doi.org/10.5459/bnzsee.43.1.24-40.
  • Fry B., Bannister S., Beavan J., Bland L., Bradley B., Cox S., Cousins J., Gale N., Hancox G. and Holden C. (2010) The Mw 7.6 Dusky Sound Earthquake of 2009: Preliminary Report. Bulletin of the New Zealand Society for Earthquake Engineering 43(1): 24-40.
  • Bradley B., Cubrinovski M., Dhakal R. and MacRae G. (2009) Intensity measures for the seismic response of pile foundations. Soil Dynamics and Earthquake Engineering 29(6): 1046-1058. http://dx.doi.org/10.1016/j.soildyn.2008.12.002.
  • Bradley BA. (2009) Seismic hazard epistemic uncertainty in the San Francisco bay area and its role in performance-based assessment. Earthquake Spectra 25(4): 733-753. http://dx.doi.org/10.1193/1.3238556.
  • Bradley BA., Cubrinovski M., MacRae GA. and Dhakal RP. (2009) Ground-Motion Prediction Equation for SI Based on Spectral Acceleration Equations. Bulletin of the Seismological Society of America 99(1): 277-285. http://dx.doi.org/10.1785/0120080044.
  • Bradley BA., Dhakal RP., Cubrinovski M., MacRae GA. and Lee DS. (2009) Seismic loss estimation for efficient decision making. Bulletin of the New Zealand Society of Earthquake Engineering 42(2): 96-110.
  • Bradley BA., Lee DS., Broughton R. and Price C. (2009) Efficient evaluation of performance-based earthquake engineering equations. Structural Safety 31(1): 65-74. http://dx.doi.org/10.1016/j.strusafe.2008.03.003.
  • Bradley BA. and Dhakal RP. (2008) Error estimation of closed-form solution for annual rate of structural collapse. Earthquake Engineering and Structural Dynamics 37(15): 1721-1737. http://dx.doi.org/10.1002/eqe.833.
  • Bradley BA. and Kam WY. (2008) Re: Future direction of the NZSEE journal. Bulletin of the New Zealand Society for Earthquake Engineering 41(2): 104. http://dx.doi.org/10.5459/bnzsee.41.2.104.
  • Bradley BA., Dhakal RP., Mander JB. and Li L. (2008) Experimental multi-level seismic performance assessment of 3D RC frame designed for damage avoidance. Earthquake Engineering and Structural Dynamics 37(1): 1-20. http://dx.doi.org/10.1002/eqe.741.
  • Rodgers GW., Solberg KM., Chase JG., Mander JB., Bradley BA., Dhakal RP. and Li L. (2008) Performance of a damage-protected beam-column subassembly utilizing external HF2V energy dissipation devices. Earthquake Engineering and Structural Dynamics 37(13): 1549-1564. http://dx.doi.org/10.1002/eqe.830.
  • Solberg K., Dhakal RP., Bradley B., Mander JB. and Li L. (2008) Seismic performance of damage-protected beam-column joints. ACI Structural Journal 105(2): 205-214.
  • Solberg KM., Dhakal RP., Mander JB. and Bradley BA. (2008) Computational and rapid expected annual loss estimation methodologies for structures. Earthquake Engineering and Structural Dynamics 37(1): 81-101. http://dx.doi.org/10.1002/eqe.746.
  • Bradley B., Dhakal RP., Cubrinovski M., Mander JB. and MacRae GA. (2007) Improved seismic hazard model with application to probabilistic seismic demand analysis. Earthquake Engineering and Structural Dynamics 36(14): 2211-2225. http://dx.doi.org/10.1002/eqe.727.
Authored Books
  • Baker J., Bradley B. and Stafford P. (2021) Seismic Hazard and Risk Analysis. Cambridge University Press.
Chapters
  • Carter L., Green R., Bradley B. and Cubrinovski M. (2014) The influence of near-fault motions on liquefaction triggering during the Canterbury Earthquake Sequence. Soil Liquefaction during Recent Large-Scale Earthquakes: 57-68.
  • Wotherspoon L., Orense RP., Green R., Bradley B., Cox B. and Wood C. (2014) Analysis of liquefaction characteristics at Christchurch strong motion stations. Soil Liquefaction during Recent Large-Scale Earthquakes: 33-43.
  • Bradley BA. (2013) Ground motion selection for seismic risk analysis of civil infrastructure. In Tesfamariam S; Goda K (Ed.), Handbook of seismic risk analysis and management of civil infrastructure systems (1st ed.): 57pp. Cambridge: Woodhead Publishing.
  • Cubrinovski M., Pampanin S. and Bradley B. (2013) Geotechnical and Structural Aspects of the 2010-2011 Christchurch (New Zealand) Earthquakes. In Garevski M (Ed.), Earthquakes and Health Monitoring of Civil Structures: 1-35. Dordrecht: Springer. http://dx.doi.org/10.1007/978-94-007-5182-8_1.
  • Cubrinovski M., Haskell JJM. and Bradley BA. (2012) Analysis of Piles in Liquefying Soils by the Pseudo-Static Approach. In Sakr MA; Ansal A (Ed.), Special Topics in Earthquake Geotechinical Engineering. Geogtechnical, Geological and Earthquake Engineering Vol 16: 147-174. London & New York: Springer. http://dx.doi.org/10.1007/978-94-007-2060-2_6.
  • Bradley BA. (2011) Frameworks for the consideration of ground motion and seismic response uncertainties in seismic performance assessment. In Dolsek M (Ed.), Protection of Built Environment Against Earthquakes: 21-39. New York: Springer. http://dx.doi.org/10.1007/978-94-007-1448-9_2.
Conference Contributions - Published
  • dupuis M., Paterson J., Lee R. and Bradley B. (2023) Progress towards hybrid broadband ground-motion simulation of megathrust earthquakes on the Hikurangi subduction zone. In.
  • Tiwari A., De La Torre C., Bradley B., Lee R. and Kuncar F. (2023) Trends in systematic site residuals with geomorphic categories for New Zealand ground-motion instrument sites. In.
  • Bora S., Bradley B., Manea E., Gerstenberger M., Lee R., Stafford P., Atkinson G. and Dicaprio C. (2022) The 2022 Revision of National Seismic Hazard Model (NSHM) for New Zealand: Candidate Ground Motion Models (GMMs) and Associated Hazard Sensitivities. In.
  • Bradley B. (2022) Interim results from the empirical ground motion model evaluation for the NZ national seismic hazard model update. In.
  • Bradley B. (2022) Prediction of earthquake-induced ground motions using simulation methods and their validation against observations. In.
  • Cary J., Stuedlein A., McGann C., Bradley B. and Maurer B. (2022) Effect of refinements to CPT-based liquefaction triggering analysis on liquefaction severity indices at the Avondale playground site, Christchurch, NZ. In Proceedings of the 4th International Conference on Performance-Based Design in Earthqake Geotechnical Engineering (PBD-IV) 15-17 July, Beijing, China.
  • Hutchinson J. and Bradley B. (2022) Insights from the 2021 New Zealand strong ground motion database. In.
  • De La Torre C., Bradley B. and McGann C. (2021) Assessment of boundary conditions for 2D geotechnical site-response analysis with soil heterogeneity. In Proceedings of the New Zealand Society for Earthquake Engineering (NZSEE) Annual Conference 14-16 April, Christchurch, New Zealand.
  • Hutchinson J., Lee R., Bradley B., van Houtte C., Kaiser A. and Wotherspoon L. (2021) Development of an expanded earthquake and ground motion catalogue for New Zealand. In Proceedings of the 2021 NZSEE Conference: 11.
  • Kaiser A., Hill M., Bourguignon S., Gerstenberger M., Bradley B., Lee R., Wotherspoon L., Pancha A. and Roten D. (2021) Wellington basin amplification: research goals and update from the NSHM programme. In Proceedings of the 2021 NZSEE Conference: 9.
  • Lee R., Bradley B., Patterson J., Motha J. and Graves R. (2021) Source modelling insights from ground motion simulation validation of moderate magnitude active shallow crustal earthquakes in New Zealand. In Proceedings of the 2021 NZSEE Conference: 8.
  • Loghman V., Bradley B., Chandramohan R., Lee R. and McGann C. (2021) Validation of NZ small-magnitude ground-motion simulations using complex structural systems. In Proceedings of the New Zealand Society for Earthquake Engineering (NZSEE) Annual Conference 14-16 April, Christchurch, New Zealand: 8.
  • Neill S., Lee R., Bradley B. and Stafford P. (2021) Ground motion simulation validation with explicit uncertainty incorporation for small-magnitude earthquakes. In Proceedings of the 2021 NZSEE Conference: 8.
  • Nguyen A., Bradley BA., Lee R. and Graves R. (2021) Full waveform tomography for the upper South Island region, New Zealand. In Proceedings of the 2021 NZSEE Conference: 10.
  • Bradley BA., Huang J., Motha J., Tarbali K., Lee R., Bae S., Polak V., Zhu M., Schill C. and Paterson J. (2020) Cybershake NZ v19.5: New Zealand simulation-based probabilistic seismic hazard analysis. In Proceedings of the 2020 NZSEE Conference: 6.
  • Jeong S., Mohammadi K., Asimaki D., Bradley BA. and Wotherspoon L. (2020) Topographic amplification of ground motions in Mt. Pleasant, Christchurch, New Zealand. In Proceedings of the 2020 Seismological Society of America Annual Meeting.
  • Lee R., Bradley BA. and Graves R. (2020) Source modelling considerations for ground motion simulation validation of moderate magnitude active shallow crustal earthquakes in New Zealand. In Proceedings New Zealand Society for Earthquake Engineering Conference: 8.
  • McGann C., Bradley B. and Jeong S. (2020) Effects of spatial soil variability in 2D ground response models of Wellington. In Proceedings of the New Zealand Society for Earthquake Engineering (NZSEE) Annual Conference(Paper No. 13).
  • McGann C., Bradley B. and Jeong S. (2020) Effects of spatial soil variability in 2D ground response models of Wellington. In Proceedings of the New Zealand Society for Earthquake Engineering (NZSEE) Annual Conference.
  • Nguyen T., Juarez A., Lee R., Bradley B. and Graves R. (2020) Centroid moment tensor inversions using 3-D Green’s tensor and adjoint method for earthquakes included in full waveform tomography for the South Island region, New Zealand. In Proceedings of the 2020 Geoscience Society of New Zealand Annual Conference.
  • Bellagamba X. and Bradley B. (2019) Leveraging large-scale physics-based simulations to improve immediate response after earthquakes. In.
  • Bellagamba X., Bradley BA. and Wotherspoon LM. (2019) Enhancing the full cycle of distributed infrastructure seismic resilience assessments: A New Zealand perspective. In Proceedings of the International Conference on Natural Hazards and Infrastructure.
  • Bradley B. (2019) Lessons learned from the 2016 Kaikoura (New Zealand) Earthquake. In.
  • Bradley B., Tarbali K., Huang J., Lee RL., Lagrava D., Bae S., Polak V., Motha J. and Zhu M. (2019) Cybershake NZ v18.5: New Zealand simulation-based probabilistic seismic hazard analysis. In.
  • Bradley BA., Huang J., Motha J., Tarbali K., Lee R., Bae S., Polak V., Zhu M., Schill C. and Paterson J. (2019) Cybershake NZ v19.5: New Zealand simulation-based probabilistic seismic hazard analysis. In Proceedings of the 2019 SCEC Annual Meeting.
  • Bradley BA., Lee R. and Thomson E. (2019) The New Zealand Community Velocity Model (NZVM): Development, iteration and applications. In Proceedings of the 2019 SCEC Annual Meeting.
  • Darling M., Adams B., Orchiston C., Wilson T. and Bradley B. (2019) Understanding population fluctuations through volunteered geographic information and novel indicators: The experience of Rakiura, Stewart Island, New Zealand. In Geocomputation 2019 http://dx.doi.org/10.17608/k6.auckland.9846323.v1.
  • de al Torre C., McGann C., Bradley B. and Pletzer A. (2019) 3D seismic response with soil heterogeneity and wave scattering in OpenSees. In Proceedings of the First Eurasian Conference on OpenSees 20-21 July, Hong Kong.
  • Lee R. and Bradley B. (2019) Hybrid Broadband Ground Motion Simulation Validation of New Zealand Earthquakes with an Updated 3D Velocity Model and Modified Simulation Methodology. In Proceedings of the 2019 SCEC Annual Meeting.
  • Lee RL. and Bradley B. (2019) Progress toward New Zealand-wide hybrid broadband ground motion simulation. In.
  • Lin A., Wotherspoon LM., Blake D., Bradley B. and Motha J. (2019) Liquefaction assessment of highway networks using geospatial models. In.
  • Loghman V., Tarbali K., Bradley B., Chandramohan R., McGann C. and Pettinga D. (2019) Comparison of recorded and simulated ground motions for NZS1170.5-based 3D building response analysis. In Proceedings of the 2019 Pacific Conference on Earthquake Engineering 4-6 April, Auckland, New Zealand.
  • McGann C., de la Torre C., Bradley B. and Wotherspoon L. (2019) Plane strain modeling of basin-edge effects: Exploratory study in Wellington, New Zealand. In Proceedings of the 7th International Conference on Earthquake Geotechnical Engineering (7ICEGE) 17-20 Jun, Rome, Italy.
  • Morris GJ., Thompson A., Dismuke J. and Bradley B. (2019) Ground motion input for NLRHA: practical limitations of NZS 1170.5 and comparison to US standards. In.
  • Neill S., Lee R. and Bradley B. (2019) Ground motion simulation validation with explicit uncertainty incorporation for small magnitude earthquakes in the Canterbury region. In Proceedings of the 2019 SCEC Annual Meeting.
  • Neill S., Lee R., Bradley B. and Graves R. (2019) Preliminary examination of kinematic rupture parameter variability in simulated ground motions. In.
  • Nguyen T., Lee R., Juarez A. and Bradley BA. (2019) Synthetic study of full waveform seismic tomography for geological velocity model in Canterbury region based on finite different simulation of the ground motion and the adjoint-wavefield method. In Proceedings of the 2019 SCEC Annual Meeting.
  • Ntritsos N., Cubrinovski M. and Bradley B. (2019) Effective stress analysis of Christchurch strong motion station sites. In Proc. 7th lnt. Conf. on Earthquake Geotechnical Engineering, 7ICEGE.
  • Tarbali K., Bradley B., Huang J., Lee R., Lagrava D., Bae S., Polak V., Motha J. and Zhu M. (2019) Cybershake NZ v18.5: New Zealand simulation-based probabilistic seismic hazard analysis. In.
  • Upadhyaya S., Green R., Rodriguez-Marek A., Maurer B., Wotherspoon L. and Bradley B. (2019) Influence of corrections to recorded peak ground accelerations due to liquefaction on predicted liquefaction response during the 2010-2011 Canterbury, New Zealand, earthquake sequence. In.
  • Bradley BA. (2018) Damage, recovery and resilience – 2010 to 2011 Canterbury and 2016 Kaikoura earthquakes, a case study. In.
  • Bradley BA. (2018) Present and future directions in ground motion modelling: Implications for seismic design and assessment. In.
  • Bradley BA. (2018) Use of simulated ground motions in PBEE: Recent developments and on-going challenges. In Integrating Science, Engineering, & Policy: 7531-7532. Curran Associates Inc..
  • Bradley BA. and Wotherspoon LM. (2018) QuakeCoRE Alpine Fault Case Study: Earthquake-induced ground motion, geohazards, and infrastructure impact modelling. In Integrating Science, Engineering, & Policy Curran Associates Inc..
  • Bradley BA., Razafindrakoto H., Maurer B., Motha J., Tarbali K. and Lee R. (2018) Simulation-Based Ground Motion Prediction of Historical and Future New Zealand Earthquakes and Consequent Geohazard Impacts. In Geotechnical Special Publication 291: 29-42. http://dx.doi.org/10.1061/9780784481462.004.
  • Chandramohan R., Horspool N. and Bradley B. (2018) Duration of earthquake ground motion anticipated at sites in New Zealand. In Proceedings of the New Zealand Society for Earthquake Engineering Conference (NZSEE 2018) New Zealand Society for Earthquake Engineering.
  • Davidson R., Bagriacik A., Hughes M., Bradley B. and Cubrinovski M. (2018) Modelling earthquake damage to water pipelines: A comparison of empirical methods. In.
  • De La Torre CA. and Bradley BA. (2018) Modelling Nonlinear Site Effects in Physics-Based Ground Motion Simulation. In Geotechnical Special Publication 291: 514-522. http://dx.doi.org/10.1061/9780784481462.050.
  • Jeong S., Bradley BA. and Wotherspoon LM. (2018) Topographic Amplification of Ground Motions in Mt. Pleasant, Christchurch, New Zealand: An Experimental Study. In Geotechnical Special Publication 291: 638-647. http://dx.doi.org/10.1061/9780784481462.062.
  • Kaklamanos J. and Bradley BA. (2018) Insights from KiK-Net Data: What Input Parameters Should Be Addressed to Improve Site Response Predictions? In Geotechnical Special Publication 291: 454-464. http://dx.doi.org/10.1061/9780784481462.044.
  • Lee RL., Bradley BA., Graves RW., Rodriguez-Marek A. and Stafford PJ. (2018) Investigation of Systematic Ground Motion Effects through Ground Motion Simulation of Small-to-Moderate Magnitude Earthquakes. In Geotechnical Special Publication 291: 494-503. http://dx.doi.org/10.1061/9780784481462.048.
  • Lin A., Wotherspoon L., Blake D., Bradley B. and Motha J. (2018) National-scale infrastructure network exposure assessment using geospatial liquefaction tools. In.
  • Maurer BW., Bradley BA. and Van Ballegooy S. (2018) Liquefaction Hazard Assessment: Satellites vs. in Situ Tests. In Geotechnical Special Publication 290: 348-356. http://dx.doi.org/10.1061/9780784481455.034.
  • Tarbali K., Bradley BA., Huang J., Polak V., Lagrava D., Motha J. and Sung S. (2018) Cybershake NZ v17.9: New Zealand simulation-based probabilistic seismic hazard analysis. In.
  • Wotherspoon LM., Munro J., Bradley BA., Wood C., Thomson E., Deschenes M. and Cox BR. (2018) Site Period Characteristics across the Canterbury Region of New Zealand. In Geotechnical Special Publication 291: 599-607. http://dx.doi.org/10.1061/9780784481462.058.
  • Bradley BA. (2017) On-going challenges in physics-based ground motion prediction and insights from the 2010-2011 Canterbury and 2016 Kaikoura, New Zealand earthquakes. In.
  • de la Torre C., Bradley BA., Jeong S. and McGann CR. (2017) Incorporating Soil Nonlinearity into Physics-Based Ground Motion Simulation through Site-Specific Ground Response Analysis. In Proceedings of the 3rd International Conference on Performance-based Design in Earthquake Geotechnical Engineering (PBD-III) 16-19 July, Vancouver, Canada.
  • Green RA., Upadhyaya S., Wood CM., Maurer BW., Cox BR., Wotherspoon L., Bradley BA. and Cubrinovski M. (2017) Relative efficacy of CPT-versus Vs-based simplified liquefaction evaluation procedures. In ICSMGE 2017 - 19th International Conference on Soil Mechanics and Geotechnical Engineering 2017-September: 1521-1524.
  • Maurer BW., Green RA., Van Ballegooy S., Bradley BA. and Upadhyaya S. (2017) Performance Comparison of Probabilistic and Deterministic Liquefaction Triggering Models for Damage Assessment in 23 Global Earthquakes. In Geotechnical Special Publication 0(GSP 283): 31-42. http://dx.doi.org/10.1061/9780784480700.004.
  • McGann CR., Bradley BA. and Jeong S. (2017) Comparison of CPT-Vs relations developed for loess and general Christchurch New Zealand soils using SCPTu. In.
  • Wood CM., McGann CR., Cox BR., Green RA., Wotherspoon LM., Bradley BA. and Cubrinovski M. (2017) A comparison of CPT-Vs correlations using liquefaction case history database from the 2010-2011 Canterbury Earthquake Sequence. In Proceedings of the 3rd International Conference on Performance-based Design in Earthquake Geotechnical Engineering (PBD-III) 16-19 July, Vancouver, Canada.
  • Bellagamba X., Bradley BA., Hughes MW. and Wotherspoon LM. (2016) Assessing the seismic resilience of an underground lifeline: Case study of the Christchurch City potable water network. In.
  • Bradley BA., Pettinga JD. and Baker JW. (2016) Guidance on the utilization of ground motion simulations in engineering practice. In.
  • Dohaney J., Wilson T., Bradley BA., Brogt E., Kennedy B., Hudson-Doyle E. and Johnson D. (2016) Documenting natural hazard risk communication needs, challenges and innovations through participatory engagement. In.
  • Gauland M., Moghaddasi M. and Bradley BA. (2016) OpenSLAT software for estimating seismic risks. In.
  • Jeong S. and Bradley BA. (2016) Heathcote Valley site response simulation during the 2010-2011 Canterbury earthquakes. In.
  • Kaiser A., Van Houtte C., Perrin N., McVerry G., Cousins J., Dellow S., Wotherspoon L., Bradley BA. and Lee R. (2016) Characterizing GeoNet strong motion sites: Site metadata update for the 2015 Strong Motion Database. In.
  • Lacrosse V., van Ballegooy S. and Bradley BA. (2016) Comparisons between deterministic and probabilistic liquefaction assessment approaches. In.
  • Moghaddasi M., Bradley BA. and Elwood K. (2016) A robust framework for benchmarking seismic performance of modern New Zealand code conforming buildings. In.
  • Nazer MA., Razafindrakoto HNT. and Bradley BA. (2016) Hybrid broadband ground motion simulation of Porters Pass fault earthquakes. In.
  • Quigley M., Mackey B., Bradley BA., Hughes M. and Bastin S. (2016) The landscape record of blind fault earthquakes. In.
  • Razafindrakoto HNT., Bradley BA. and Graves RW. (2016) Effect of realistic fault geometry on simulated ground motions in the 2010 Darfield earthquake, New Zealand. In.
  • Tarbali K., Bradley BA. and Baker JW. (2016) Seismic hazard analysis and ground motion selection considering directivity effects. In.
  • Boyd B. and Becker SM. (2015) Modeling of In Vivo Tissue Electroporation and Cellular Uptake Enhancement. In IFAC-PapersOnLine 48(20): 255-260. http://dx.doi.org/10.1016/j.ifacol.2015.10.148.
  • Bradley BA., Jeong S. and Razarfindrakoto HNR. (2015) Strong ground motions from the 2010-2011 Canterbury earthquakes and the predictive capability of empirical and physics-based simulation models. In PCEE Proceedings: 16pp.
  • Green RA., Maurer BW., Cubrinovski M. and Bradley BA. (2015) Assessment of the Relative Predictive Capabilities of CPT-Based Liquefaction Evaluation Procedures: Lessons Learned from the 2010-2011 Canterbury Earthquake Sequence. In.
  • Jeong S. and Bradley BA. (2015) Simulation of 2D site response at Heathcote Valley during the 2010-2011 Canterbury earthquake sequence. In PCEE Proceedings: 8pp.
  • Lee RL., Bradley BA., Ghisetti FC., Pettinga JR., Hughes MW. and Thomson EM. (2015) A geology-based 3D seismic velocity model of Canterbury, New Zealand. In.
  • Maurer BW., Green RA., Cubrinovski M. and Bradley BA. (2015) Assessment of CPT-based methods for liquefaction evaluation in a liquefaction potential index (LPI) framework. In Geotechnical Earthquake Engineering - Geotechnique Symposium in Print 2015: 3-11. http://dx.doi.org/10.1680/geot.SIP.15.P.007.
  • Maurer BW., Green RA., Cubrinovski M. and Bradley BA. (2015) Calibrating the Liquefaction Severity Number (LSN) for Varying Misprediction Economies: A Case Study in Christchurch, New Zealand. In.
  • Maurer BW., Green RA., Cubrinovski M. and Bradley BA. (2015) Influence of post-liquefaction strain-potential estimation on the accuracy of Liquefaction Severity Number (LSN) hazard assessments. In PCEE Proceedings: 8pp.
  • McGann CR. and Bradley BA. (2015) Ongoing development of a near-surface shear wave velocity (Vs) model for Christchurch using a region-specific CPT-Vs correlation. In Proceedings of the 12th Australia-New Zealand Conference on Geomechanics (ANZ 2015) 22-25 February, Wellington, New Zealand.
  • McGann CR., Bradley BA. and Cubrinovski M. (2015) A high-resolution shear wave velocity model for near surface soils in Christchurch using CPT data. In Proceedings of the New Zealand Society for Earthquake Engineering (NZSEE) Annual Conference 10-12 April, Rotarua, New Zealand.
  • McGann CR., Bradley BA. and Cubrinovski M. (2015) Spatial variability in surficial Christchurch soils via 5 m shear wave velocity Vs5. In.
  • Taylor M., Cubrinovski M. and Bradley BA. (2015) Liquefaction resistance of Christchurch CBD soils. In 6ICEGE Proceedings: 9pp.
  • Gerstenberger MC., Stirling MW., McVerry G., Rhoades D., Harte D., Van Dissen R., Bradley B., Nicol A., Zhao J. and Christophersen A. (2014) Rethinking probabilistic seismic hazard analysis. In Geoscience Society of New Zealand Miscellaneous Publication 139A: 42.
  • Lee RL., Bradley BA., Pettinga J., Hughes M. and Graves RW. (2014) Ongoing development of a 3D seismic velocity model for Canterbury, New Zealand for broadband ground motion simulation. In.
  • McGann CR., Bradley BA., Cubrinovski M., Taylor M. and Wotherspoon LW. (2014) Comparison of existing CPT-Vs correlations with Canterbury-specific seismic CPT data. In : 8pp.
  • Tarbali K. and Bradley BA. (2014) Scenario-based ground-motion selection using the generalized conditional intensity measure (GCIM) approach. In Proceedings of NCEE10: 10. http://dx.doi.org/10.4231/D3639K573.
  • Yeow TZ., MacRae GA., Dhakal RP. and Bradley BA. (2014) Experimental studies on the sliding behavior of building contents. In Proceedings of the 10th US National Conference on Earthquake Engineering (NCEE10): 10pp-10pp.
  • Yeow TZ., MacRae GA., Dhakal RP. and Bradley BA. (2014) Preliminary experimental verification of current content sliding modelling techniques. In Proceedings of the 2014 NZSEE Conference: 8pp-8pp.
  • Koopaee ME., Dhakal RP., Bradley BA. and MacRae GA. (2013) Assessment of collapse capacity of RC buildings based on fiber-element modeling. In Proceedings of the 2013 NZSEE Conference: 8pp-8pp.
  • Lee RL., Franklin MJ. and Bradley BA. (2013) Characteristics of vertical ground motions in the Canterbury earthquakes. In Proceedings NZSEE 2013: 8.
  • Yeow TZ., MacRae GA., Dhakal RP. and Bradley BA. (2013) Probabilistic seismic indoor injury estimation. In Proceedings of the 2014 NZSEE Conference: 8pp-8pp.
  • Arefi MJ., Cubrinovski M. and Bradley BA. (2012) A model for nonlinear total stress analysis with consistent stiffness and damping variation. In.
  • Bradley BA. (2012) Consistency of Seismicity and Ground Motion Modelling with the Canterbury Earthquakes. In Proceedings:.
  • Bradley BA. (2012) Ground Motion Comparison of the 2011 Tohoku, Japan and 2010-2011 Canterbury earthquakes: Implications for large events in New Zealand. In Proceedings:.
  • Bradley BA. (2012) Observed Ground Motions in the 4 September 2010 Darfield and 22 February 2011 Christchurch Earthquakes. In Proceedings:.
  • Cubrinovski M., Henderson D. and Bradley BA. (2012) Liquefaction impacts in residential areas in the 2010-2011 Christchurch earthquakes. In Proceedings:: 811-824.
  • Cubrinovski M., Hughes M., McDonald Y., Henderson B., McCahon I., Orense R., Bradley BA. and O'Rourke T. (2012) Impacts of liquefaction on pipe networks in the 2010-2011 Christchurch earthquakes, and perspectives. In.
  • Green RA., Cubrinovski M., Wotherspoon L., Allen J., Bradley BA., Bradshaw A., Bray J., DePascale G., Orense R. and O'Rouke T. (2012) Geotechnical aspects of the Mw6.1 2011 Christchurch, New Zealand Earthquake. In GeoCongress 2012:: 1700-1709.
  • Ishikawa Y. and Bradley BA. (2012) Estimated seismic performance of a standard NZS3101:2006 RC office building during the 22 February 2011 Christchurch Earthquake. In Proceedings:.
  • Robinson K., Bradley BA. and Cubrinovski M. (2012) Analysis of liquefaction-induced lateral spreading data from the 2010 Darfield and 2011 Christchurch earthquakes. In Proceedings:.
  • Yeow T., MacRae GA., Dhakal RP. and Bradley BA. (2012) Seismic sustainability assessment of structural systems: A preliminary case study. In Proceedings of the 2012 NZSEE Conference.
  • Yeow T., MacRae GA., Dhakal RP. and Bradley BA. (2012) Seismic sustainability assessment of structural systems: Frame or wall structures? In Proceedings of the 15th World Congress on Earthquake Engineering (15WCEE).
  • Green RA., Cubrinovski M., Ashford SA., Hutchinson T., Kavazanjian E., Bradley B., Cox B., Orense R., Pender M. and Allen J. (2011) Geotechnical Aspects of the MW7.1, 4 September 2010, Darfield, New Zealand, Earthquake. In.
  • Cubrinovski M., Haskell JJM. and Bradley BA. (2010) Soil-pile interaction in liquefying soils: Modelling issues. In Soil-Foundation-Structure Interaction: 93-100.
  • Haskell JJM., Cubrinovski M. and Bradley BA. (2010) Pseudo-static analysis of piles in liquefying soils: A framework for the consideration of uncertainties. In.
  • Van Dissen R., Barnes P., Beavan J., Cousins J., Dellow G., Francois-Holden C., Fry B., Langridge R., Litchfield N. and Little T. (2010) It's Our Fault: Better Defining Earthquake Risk in Wellington. In Geologically Active: Proceedings of the 11th IAEG Congress: 737-746.
  • Bradley B. and Cubrinovski M. (2009) Probabilistic pseudo-static analysis of pile foundations in liquefiable soils. In Performance-Based Design in Earthquake Geotechnical Engineering: 1673-1680.
  • Bradley B., Cubrinovski M., Dhakal R. and MacRae G. (2009) Probabilistic Seismic Performance Assessment of a Bridge-Foundation-Soil System. In 2009 NZSEE Conference Proceedings.
  • Bradley BA., Cubrinovski M., Dhakal RP. and MacRae GA. (2009) Probabilistic seismic performance and loss assessment of a bridge-foundation-soil system. In Soil-Foundation-Structure Interaction: 211-228.
  • Cubrinovski M. and Bradley B. (2009) Evaluation of seismic performance of geotechnical structures. In.
  • Cubrinovski M., Haskell JJM. and Bradley BA. (2009) The effect of shear strength normalisation on the response of piles in laterally spreading soils. In.
  • Haskell JJM., Cubrinovski M. and Bradley BA. (2009) Critical uncertainties in the analysis of pile in liquefying soils. In Proceedings of the 17th International Conference on Soil Mechanics & Geotechnical Engineering - The Academia & Practice of Geotechnical Engineering: 1209-1212.
  • Haskell JJM., Cubrinovski M. and Bradley BA. (2009) Sensitivity Analysis of Simplified Methods for the Design of Piles in Laterally Spreading Soils. In.
  • Bradley B., Cubrinovski M. and Dhakal R. (2008) Performance-based seismic response of pile foundations. In ASCE Geotechnical Special Publication 181: 1-11.
  • Bradley B., Dhakal R., Cubrinovski M. and MacRae G. (2008) Prediction of spatially distributed seismic demands in structures. In Proceedings of the 14th World Conference on Earthquake Engineering (14WCEE 2008).
  • Bradley BA., Dhakal RP., Cubrinovski M., MacRae GA. and Lee DS. (2008) Seismic loss estimation for efficient decision making. In 2008 NZSEE Conference Proceedings.
  • Cubrinovski M. and Bradley B. (2008) Assessment of seismic performance of soil-structure systems. In Proceedings of the 18th New Zealand Geotechnical Society 2008 Symposium: 111-127.
  • Bradley B., Dhakal RP. and Mander JB. (2007) Experimental multi-level seismic performance assessment of RC frame building designed for damage avoidance. In Civil Engineering in the New Millennium: Opportunities and Challenges: 10pp.
  • Bradley BA., Dhakal RP. and Mander JB. (2007) Probable loss model and spatial distribution of damage for probabilistic financial risk assessment of structures. In Applications of Statistics and Probability in Civil Engineering.
  • Bradley BA., Dhakal RP., Mander JB. and MacRae GA. (2007) Improved Hazard Model for Performance-Based Earthquake Engineering. In Proceedings of the 2007 Annual NZSEE Technical Conference.
  • Mander JB., Bradley B. and Dhakal RP. (2007) Parametric structure-specific seismic loss estimation. In Fourth International Conference on Urban Earthquake Engineering: 45-52.
  • Solberg KM., Bradley BA., Mander JB., Dhakal RP., Rodgers GW. and Chase JG. (2007) Multi-Level Seismic Performance Assessment of a Damage-Protected Beam-Column Joint With Internal Lead Dampers. In Fourth International Conference on Urban Earthquake Engineering: 625-632.
  • Solberg KM., Bradley BA., Rodgers GW., Mander JB., Dhakal RP. and Chase JG. (2007) Quasi-Static Testing of a Damage Protected Beam-column Subassembly with Internal Lead Damping Devices. In Proceedings of 8th Pacific Conference On Earthquake Engineering (8PCEE).
  • Solberg KM., Bradley BA., Rogers GW., Mander JB., Dhakal RP. and Chase JG. (2007) Multi-level Seismic Performance Assessment of a Damage Protected Beam-column Joint with Internal Lead Dampers. In Proceedings of the 2007 Annual NZSEE Technical Conference.
  • Bradley BA., Dhakal RP. and Mander JB. (2006) Dependency of building fragility to source mechanisms of records selected for incremental dynamic analysis. In Progress in Mechanics of Structures and Materials: 363-369.
  • Bradley BA., Dhakal RP. and Mander JB. (2006) Modeling and analysis of multi-storey buildings designed to principles of ductility and damage avoidance. In.
  • Bradley BA., Dhakal RP., Mander JB. and Li L. (2006) Performance of Damage Avoidance beam-column joint subassembly subjected to bi-directional earthquake excitation. In Progress in Mechanics of Structures and Materials: 625-630.
Conference Contributions - Other
  • Bora S., Bradley B., Manea E., Gerstenberger M., Lee R., Stafford P., Atkinson G. and Di Caprio C. (2023) The revision of the national seismic hazard model (NSHM) for New Zealand: Candidate ground-motion models (GMMs) and associated hazard sensitivities. San Juan, Puerto Rico: SSA Annual Meeting, 17-20 Apr 2023.
  • De La Torre C., Bradley B., Lee R., Kuncar F., Hill M., Wotherspoon L., Kaiser A., Hallal M. and Cox BR. (2023) Quantifying the influence of multi-dimensional site effects in site response analyses using 2D and 3D simulations in sedimentary basins of Wellington, New Zealand. San Juan, Puerto Rico: SSA Annual Meeting, 17-20 Apr 2023.
  • Gerstenberger M., Bora S., Bradley B., Kaiser A., Nicol A., Stirling M., Thingbaijam K. and van Dissen R. (2023) The 2022 New Zealand national seismic hazard model. San Juan, Puerto Rico: SSA Annual Meeting, 17-20 Apr 2023.
  • Hallal M., Cox BR., Mohammadi K., De La Torre C., Stanton K., Centella D., Kottke A., Bradley B., Hashash Y. and Asimaki D. (2023) Ground truthing multidimensional ground response analyses at the Treasure Island Borehole Array site using different commercial and open-source software. San Juan, Puerto Rico: SSA Annual Meeting, 17-20 Apr 2023.
  • Kaiser A., Manea E., De La Torre C., Hill M., Wotherspoon L., Lee R., Stolte A., bora S., Bradley B. and Atkinson G. (2023) Quantifying site amplification for seismic hazard in a complex shallow basin: case study of the Wellington basin, New Zealand. San Juan, Puerto Rico: SSA Annual Meeting, 17-20 Apr 2023.
  • Kuncar F., De La Torre C., Bradley B. and Lee R. (2023) Evaluating alternative approaches to model local site effects in physics-based ground-motion simulations: Insights from small-magnitude earthquakes recorded in Canterbury, New Zealand. San Juan, Puerto Rico: SSA Annual Meeting, 17-20 Apr 2023.
  • Zhu C., Bradley B. and Bora S. (2023) Spectral decomposition of ground motions in New Zealand using the generalized inversion technique. San Juan, Puerto Rico: SSA Annual Meeting, 17 Apr-20 Mar 2023.
  • Zhu C., Cotton F., Kawase H. and Bradley B. (2023) Seperating broad-band site response from single station seismograms. San Juan, Puerto Rico: SSA Annual Meeting, 17-20 Apr 2023.
  • Gerstenberger M., Manea E., Bradley B., Kaiser A., Bora S., Thingbaijam K., van Dissen R., DiCaprio C., Lee R. and Stirling M. (2022) The 2022 revision of the New Zealand national seismic hazard. Mount Macedon, Australia: Australian Earthquake Engineering Society National Conference, 24-25 Nov 2022.
  • Kuncar F., De La Torre C., Bradley B. and Lee R. (2022) Evaluating the performance of 1D site-response analysis in physics-based earthquake ground-motion simulations: Insights from small-magnitude events. Napier, New Zealand: QuakeCoRE Annual Meeting, 30 Aug-1 Sep 2022.
  • Motha J., Bradley B., Paterson J., Lee R., Tarbali K. and Schill C. (2022) Cybershake NZ v22.4: New Zealand simulation-based probabilistic seismic hazard analysis. Napier, New Zealand: QuakeCoRE Annual Meeting., 30 Aug-1 Sep 2022.
  • Paterson J., Bradley B., Wilson P., Lee R. and Motha J. (2022) Effect of Hikurangi subduction interface geometry on simulated ground motion intensities. Napier, New Zealand: QuakeCoRE Annual Meeting, 30 Aug-1 Sep 2022.
  • Darling M., Wilson T., Orchiston C., Adams B. and Bradley B. (2020) Safety does not take a holiday: Towards real-time indicators of population exposure for disaster risk assessments. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • de la Torre C., Bradley B. and McGann C. (2020) Modelling soil heterogeneity and wave scattering in geotechnical site response analysis. Nelson, New Zealand: QuakeCoRE Annual Meeting, 7 Dec 2020.
  • Dempsey D., Eccles J., Huang J., Nicolin E., Stolte A., Wotherspoon L. and Bradley B. (2020) Ground motions simulation of hypothetical earthquake sources in the upper North Island, NZ. Nelson, New Zealand: QuakeCoRE Annual Meeting, 7 Dec 2020.
  • Dupuis M., Schill C., Lee R. and Bradley B. (2020) A neural network for ground motion quality classification from New Zealand earthquakes of variable magnitudes and tectonic types. Nelson, New Zealand: QuakeCoRE Annual Meeting, 7 Dec 2020.
  • Lee R., Bradley BA., Graves R., Paterson J., Motha J., Huang J., Schill C., Polak V. and Bae S. (2020) Source considerations for moderate magnitude earthquake ground motion simulation validation. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • Loghman V., Bradley BA., Chandramohan R., Lee R. and McGann C. (2020) Validation of ground-motion simulations using advanced intensity measures - New Zealand small magnitude events. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • Motha J., Bradley BA., Paterson J., Lee R., Thomson E., Tarbali K., Bae S., Huang J., Schill C. and Polak V. (2020) Cybershake NZ v20.8: New Zealand simulation-based probabilistic seismic hazard analysis. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • Neill S., Bradley B. and Lee R. (2020) Ground motion simulation validation with explicit uncertainty incorporation for small magnitude earthquakes in New Zealand. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • Nguyen T., Lee R., Bradley B. and Graves R. (2020) Full waveform seismic tomography for geophysical velocity model in the South Island region, New Zealand based on adjoint-wavefield method. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • Paterson J., Bradley BA. and Lee R. (2020) Effect of Hikurangi subduction interface geometry on simulated ground motion intensities. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • Polak V., Huang J., Bae S. and Bradley BA. (2020) Web interfaces for earthquake and ground motion simulation visualisation. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • Schill C., Thomson E., Bradley B. and Lee R. (2020) A neural network-based ground motion model trained on ground motion simulations in NZ. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • Darling M., Wilson T., Bradley BA., Orchiston C. and Adams B. (2019) Understanding disaster risk exposure to visitors to the South Island of New Zealand. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • de la Torre C., McGann C., Bradley B. and Pletzer A. (2019) Development of a 3D site response framework based on 1D geotechnical information. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • Lin A., Wotherspoon L., Blake D., Bradley B. and Motha J. (2019) Liquefaction exposure across New Zealand transport networks. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • Loghman V., Bradley BA., Chandramohan R. and McGann C. (2019) Validation of ground motion simulations via response history analysis of special moment resisting frames using an automated workflow. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • Motha J., Loghman V., Bradley BA. and Paterson J. (2019) Automated workflow for validation of ground motion simulations using conventional and complex intensity measures. Nelson, New Zealand: QuakeCoRE Annual Meeting.
  • Bellagamba X., Bradley B., Wotherspoon L. and Lagrava D. (2018) Inferred seismic performance and recovery of the Christchurch water supply network following the 22 February 2011 Mw6.2 Christchurch earthquake. Taupo: QuakeCoRE Annual Meeting, 4 Sep 2018.
  • Bellagamba X., Lee R. and Bradley B. (2018) Automated classification of ground motion record quality using machine learning. Taupo: QuakeCoRE Annual Meeting, 4 Sep 2018.
  • Bradley B. (2018) Ground motion simulation computational workflow. Taupo: QuakeCoRE Annual Meeting, 4 Sep 2018.
  • Bradley B. (2018) Present and future directions in ground motion modelling and real-time decision making on built-environment impacts. Christchurch: 1st NZ-Japan Joint Symposium on Structural and Geotechnical Earthquake Engineering, 27 Nov 2018.
  • Bradley BA., Bae S., Lagrava D. and McGann CR. (2018) HPC utilisation in end-to-end earthquake resilience research: QuakeCoRE as an example of the importance of science and software engineering collaboration. Queenstown, New Zealand: eResearch NZ, 12 Feb 2018.
  • Bradley BA., Bellagamba X., Wotherspoon LM. and Hughes MW. (2018) Development of fragility functions for buried pipelines based on New Zealand data. Thessaloniki, Greece: 16th European Conference on Earthquake Engineering, 18 Jun 2018.
  • Bradley BA., Chandramohan R. and Horspool N. (2018) Duration of ground motion anticipated at sites in New Zealand. Auckland, NZ: New Zealand Society for Earthquake Engineering Conference, 13 Apr 2018.
  • Bradley BA., Lagrava D., Savarimuthu S., huang J., Motha J., Polak V. and Bae S. (2018) SeisFinder: A web portal for serving ground motion simulation data. Queenstown, NZ: eResearch NZ, 12 Feb 2018.
  • Bradley BA., Tarbali K., Huang J., Polak V., Lagrava D., motha J. and Bae S. (2018) Cybershake NZ v17.9: New Zealand Simulation-based probabilistic seismic hazard analysis. Thessaloniki, Greece: 16th European Conference on Earthquake Engineering, 18 Jun 2018.
  • Bradley BA., Tarbali K., Lagrava D., Huang J., Polak V. and Bae S. (2018) Cybershake NZ: Simulation-based probabilistic seismic hazard analysis for New Zealand. Queenstown, New Zealand: eResearch NZ, 12 Feb 2018.
  • Chandramohan R., Horspool N. and Bradley B. (2018) Duration of earthquake ground motion anticipated at sites in New Zealand. Auckland, New Zealand: New Zealand Society for Earthquake Engineering Conference, 15 Apr 2018.
  • de la Torre C. and Bradley B. (2018) Modelling nonlinear site effects in physics-based ground motion simulation. Taupo: QuakeCoRE Annual Meeting, 3 Sep 2018.
  • Jeong S. and Bradley B. (2018) What caused the spatial variability of strong ground motions near the epicentre of the 2016 M7.8 Kaikoura earthquake? The role of local geological condition. Taupo: QuakeCoRE Annual Meeting, 3 Sep 2018.
  • Lee R., Bradley B. and Bellagamba X. (2018) Toward hybrid broadband ground motion simulation validation for New Zealand-wide Mw>3.5 earthquakes. Taupo: QuakeCoRE Annual Meeting, 3 Sep 2018.
  • Loghman V., Tarbali K., Bradley B., Chandramohan R., McGann C. and Pettinga J. (2018) Seismic response of complex structural systems using code-compatible as-recorded and simulated ground motions. Taupo: QuakeCoRE Annual Meeting, 4 Sep 2018.
  • Polak V. and Bradley B. (2018) GMSimViz: Automated 3D visualization of ground motion simulation and consequent impacts. Taupo: QuakeCoRE Annual Meeting, 4 Sep 2018.
  • Tarbali K. and Bradley B. (2018) Cybershake NZ v18.6: New Zealand simulation-based probabilistic seismic hazard analysis. Palm Springs: SCEC Annual Meeting, 9 Sep 2018.
  • Thomson E., Bradley B. and Lee R. (2018) Physics-based ground motion simulations of Hope Fault earthquakes and comparison with the shaking from the 14 November 2016 Kaikoura earthquake.. Palm Springs: SCEC Annual Meeting, 9 Sep 2018.
  • Vyas J. and Bradley B. (2018) Simplified-physics high frequency ground-motion simulations using site-specific parameters. Taupo: QuakeCoRE Annual Meeting, 3 Sep 2018.
  • Bae SE., Lagrava D., McGann CR., Chandramohan R., Motha J. and Bradley BA. (2017) QuakeCoRE Software Workshops and Training. Wairakei Resort, Taupo, New Zealand: 2017 QuakeCoRE Annual Meeting, 5 Sep 2017.
  • Bradley BA. and de la torre C. (2017) Modeling nonlinear site effects in physics-based ground motion simulation. Taupo, New Zealand: QuakeCoRE Annual Meeting, 3 Sep 2017.
  • Bradley BA. and Razafindrakoto H. (2017) Insights on the effects of the 2010 Mw7.1 Darfield source uncertainty on ground motion simulations. Taupo, New Zealand: QuakeCoRE Annual Meeting, 3 Sep 2017.
  • Bradley BA., Bae S., Lagrava D., Zhu M., McGann CR., Robinson D. and Ni Y. (2017) Vizualisation for scientific discovery and communication: Kaikoura earthquake as a case study. Taupo, New Zealand: QuakeCoRE Annual Meeting, 3 Sep 2017.
  • Bradley BA., Bellagamba X., Wotherspoon LM. and Hughes MW. (2017) Fragility functions for buried pipelines in liquefiable soils based on New Zealand data. Taupo, New Zealand: QuakeCoRE Annual Meeting, 3 Sep 2017.
  • Bradley BA., Foster K., Wotherspoon L. and McGann CR. (2017) A Vs30 map for New Zealand based on surifical geology, topography and direct measurements. Palm Springs, CA: Southern California Earthquake Center Annual Meeting, 10 Sep 2017.
  • Bradley BA., Green RA., Upadhyaya S., Wood CM., Maurer BW., Cox BR., Wotherspoon LM. and Cubrinovski M. (2017) Relative efficacy of CPT- versus Vs-based simplified liquefaction evaluation procedures. Seoul, Korea: 19th International Conference on Soil Mechanics and Geotechnical Engineering, 17 Sep 2017.
  • Bradley BA., Kaiser A., McVerry GH., Wotherspoon LM., Benites R., Bruce Z., Bourguignon S., Giallini S. and Hill M. (2017) The role of complex site and basin response in Wellington city, New Zealand, during the 2016 Mw7.8 Kāikoura earthquake and other recent earthquake sequences. New Orleans, LA: American Geophysical Union (AGU) Annual Meeting, 11 Dec 2017.
  • Bradley BA., Lee RL., Graves RW., Rodriguez-Marek A. and Stafford PJ. (2017) Investigation of systematic ground motion effects through ground motion simulation of small-to-moderate magnitude earthquakes in the Canterbury, New Zealand region. Palm Springs, CA: Southern California Earthquake Center Annual Meeting, 10 Sep 2017.
  • Bradley BA., Massey C., Townsend D., Rathje E., Kaneko Y., Lukovic B. and Horspool N. (2017) Landslides triggered by the 14 November 2016, Mw7.8 earthquake, Kaikoura, New Zealand. Taupo, New Zealand: QuakeCoRE Annual Meeting, 3 Sep 2017.
  • Bradley BA., Maurer BW. and van Ballegooy S. (2017) Predicting liquefaction in real-time: An assessment of geospatial models during the Canterbury earthquakes. Taupo, New Zealand: QuakeCoRE Annual Meeting, 3 Sep 2017.
  • Bradley BA., Motha J., Polak V., Bae S., huang J., Razafindrakoto H., Thomson E., Lee RL., Nazer A. and Lagrava D. (2017) Real-time ground motion simulation workflow. Taupo, New Zealand: QuakeCoRE Annual Meeting, 3 Sep 2017.
  • Bradley BA., Motha J., Polak V., Thompson E., Wald D., Maurer B. and van Ballegooy S. (2017) Coupling ground motion simulation with regional modelling for rapid impact assessment. Taupo, New Zealand: QuakeCoRE Annual Meeting, 3 Sep 2017.
  • Bradley BA., Savarimuthu S., Lagrava D., Huang J., Motha J., Polak V. and Bae S. (2017) SeisFinder: A web application for extraction of data from computationally-intensive earthquake resilience calculations.. Palm Springs, CA: Southern California Earthquake Center Annual Meeting, 10 Sep 2017.
  • Bradley BA., Tarbali K. and Pettinga JD. (2017) Response history analyses of structural and geotechnical systems using simulated and recorded ground motions. Taupo, New Zealand: QuakeCoRE Annual Meeting, 3 Sep 2017.
  • Bradley BA., Tarbali K., Polak V., Huang J., Bae S., Lagrava D. and Motha J. (2017) Simulation-based PSHA for the Canterbury region (Cybershake v17.8). Taupo, New Zealand: QuakeCoRE Annual Meeting, 2 Sep 2017.
  • Bradley BA., Thomson EM., Cox BR., Wotherspoon LM. and Wood C. (2017) Generalised parametric functions and spatial correlations for seismic velocities in the Canterbury region based on dynamic site characterisation. Taupo, New Zealand: QuakeCoRE Annual Meeting, 3 Sep 2017.
  • Jeong S., Mohammadi K., Asimaki D. and Bradley BA. (2017) Simulation and validation of topographic effects on Mt Pleasant. Wairakei: QuakeCoRE Annual Meeting, 3 Sep 2017.
  • McGann CR., Jeong S., Chandramohan R., Bradley BA., Wotherspoon LM., Lagrava D. and Bae SE. (2017) QuakeCoRE and OpenSees (Year 2): Initatives and Activities to Reduce Barriers to Entry and Reduce Time to Solution. Wairakei Resort, Taupo, New Zealand: 2017 QuakeCoRE Annual Meeting, 5 Sep 2017.
  • Bae SE., Polak V., Clare R., Bradley BA. and Razafindrakoto HNT. (2016) QuakeCoRE ground motion simulation computational workflow. Taupo, New Zealand: QuakeCoRE Annual Meeting, 31 Aug-2 Sep 2016.
  • Bradley BA., Razafindrakoto HNT., Graves RW., Thomson EM., Bae S. and Clare R. (2016) Ground motion simulations of damaging recent and future earthquakes using NeSI HPC resources. Queenstown, New Zealand: eResearch NZ Conference, 9-11 Feb 2016.
  • Clare RM., Bradley BA., Sun D., Bae S. and McGann CR. (2016) QuakeCoRE and NeSI’s strategic partnership towards earthquake resilience via High Performance Computing. Queenstown, New Zealand: eResearch NZ Conference, 9-11 Feb 2016.
  • de la Torre CA., Bradley BA., Jeong S. and McGann CR. (2016) Methods for incorporating soil nonlinearity in ground motion simulation. Taupo, New Zealand: QuakeCoRE Annual Meeting, 31 Aug-2 Sep 2016.
  • Foster K., Bradley BA., Wotherspoon LM. and McGann CR. (2016) A Vs30 map for New Zealand based on surficial geology, topography, and direct measurements: Current progress. Taupo, New Zealand: QuakeCoRE Annual Meeting, 31 Aug-2 Sep 2016.
  • Jeong S. and Bradley BA. (2016) Simulation of strong asymmetrical vertical acceleration at Heathcote Valley in the 2010-2011 Canterbury earthquakes. Christchurch: New Zealand Society for Earthquake Engineering Conference, 1-3 Apr 2016.
  • Kaklamanos J. and Bradley BA. (2016) Improving our understanding of 1D site response model behaviour: Physical insights for statistical deviations from 114 Kik-Net sites. Reno, NV, USA: Seismological Society of America (SSA) Annual Meeting, 20-22 Apr 2016.
  • Lee RL. and Bradley BA. (2016) Investigation of regional quality factors from a New Zealand-wide velocity model. Christchurch: New Zealand Society for Earthquake Engineering Annual Conference, 1-3 Apr 2016.
  • Lee RL., Bradley BA. and Jeong S. (2016) Ground motion simulation validation using small-to-moderate magnitude events in the Canterbury, New Zealand region. Palm Springs, CA, USA: SCEC Annual Meeting, 10-14 Sep 2016.
  • McGann CR., Jeong S., Bradley BA., Tarbali K., Lagrava D. and Bae SE. (2016) QuakeCoRE and OpenSees (Year 1): Optimization of source code, pre- and post-processing tools, and community development. Taupo, New Zealand: QuakeCoRE Annual Meeting, 31 Aug-2 Sep 2016.
  • Moghaddasi M., Bradley BA. and Elwood K. (2016) Seismic performance and loss assessment of a typical New Zealand code-conforming reinforced concrete frame building. Christchurch, New Zealand: New Zealand Society for Earthquake Engineering Conference, 1-3 Apr 2016.
  • Razafindrakoto HNR., Bradley BA. and Graves RW. (2016) Broadband ground motion simulation of the 2010-2011 Canterbury earthquake sequence. Christchurch: New Zealand Society for Earthquake Engineering Annual Conference, 1-3 Apr 2016.
  • Tarbali K. and Bradley BA. (2016) Nationwide seismic hazard maps of New Zealand using recent developments in rupture forecast and ground motion prediction. Christchurch: New Zealand Society for Earthquake Engineering Annual Conference, 1-3 Apr 2016.
  • Thomson EM., Bradley BA. and Lee RL. (2016) The Canterbury velocity model (CantVM) version 1. Computational implementation, south island extension, and integration within the UCVM framework. Christchurch: New Zealand Society for Earthquake Engineering Annual Conference, 1-3 Apr 2016.
  • Thomson EM., Bradley BA. and Lee RL. (2016) The South Island velocity model (SIVM) - version 1.0: Computational implementation and integration within the unified community velocity model (UCVM) framework. Taupo, New Zealand: QuakeCoRE Annual Meeting, 31 Aug-2 Sep 2016.
  • Bae S. and Bradley BA. (2015) Visualisation of the 2010 Christchurch Boxing Day aftershock. Queenstown, New Zealand: eResearch NZ 2015, 23-25 Mar 2015.
  • Bradley BA. (2015) Site-specific hazard analysis for geotechnical design in New Zealand. Wellington, New Zealand: 12th Australia New Zealand Conference on Geomechanics, 22-25 Feb 2015.
  • Bradley BA. and Graves RW. (2015) Broadband ground motion simulation of major events in the Canterbury earthquake sequence. Rotorua, New Zealand: 2015 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 10-12 Apr 2015.
  • Bradley BA. and Jeong S. (2015) Simulation of 2D site response at Heathcote Valley during the 2010-2011 Canterbury earthquake sequence. Sydney, Australia: Tenth Pacific Conference on Earthquake Engineering, 6-8 Nov 2015.
  • Bradley BA., Jeong S. and Razafindrakoto HNR. (2015) Validation of empirical and physics-based ground motion and site response prediction models for the 2010-2011 Canterbury earthquakes. Christchurch, New Zealand: 6th International Conference on Earthquake Geotechnical Engineering (6ICEGE), 1-4 Nov 2015.
  • Bradley BA., Lee RL., Thomson EM., Ghisetti F., McGann CR., Pettinga J. and Hughes MW. (2015) 3D Canterbury Velocity Model (CantVM) - Version 1.0. Palm Springs, CA, USA: 2015 Southern California Earthquake Centre Annual Meeting (SCEC), 12-16 Sep 2015.
  • Bradley BA., McGann CR., Cox BR., Wotherspoon LM., Wood CM., Lee RL. and Teague DP. (2015) High-resolution surficial soil velocity models in the Canterbury, New Zealand basin. Pasadena, CA, USA: 2015 Seismological Society of America Annual Meeting (SSA), 21-23 Apr 2015.
  • Green RA., Maurer BW., Cubrinovski M. and Bradley BA. (2015) Relative accuracy of CPT-based liquefaction evaluation procedures: Lessons learned for the 2010-2011 Canterbury earthquake sequence. Christchurch, New Zealand: 6th International Conference on Earthquake Geotechnical Engineering (6ICEGE), 1-4 Nov 2015.
  • Jeong S. and Bradley BA. (2015) 2D site response simulation of Heathcote Valley during the 2010-2011 Canterbury earthquake sequence. Christchurch, New Zealand: 6th International Conference on Earthquake Geotechnical Engineering (6ICEGE), 1-4 Nov 2015.
  • Jeong S. and Bradley BA. (2015) Simulation of systematic site amplification effects observed at Heathcote Valley during the 2010-2011 Canterbury Earthquake sequence. Rotorua, New Zealand: 2015 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 10-12 Apr 2015.
  • Kaklamanos J. and Bradley BA. (2015) 1D Nonlinear site response prediction: Analysis of residuals at a large number of KikNet vertical seismometer arrays. Boston, MA, USA: 2015 Earthquake Engineering Research Institute Annual Meeting (EERI), 31 Mar-3 Apr 2015.
  • Kaklamanos J. and Bradley BA. (2015) Evaluation of 1D nonlinear total-stress site response model performance at 114 Kik-Net downhole array sites. Christchurch, New Zealand: 6th International Conference on Earthquake Geotechnical Engineering (6ICEGE), 1-4 Nov 2015.
  • Lacrosse V., Van Ballegooy S. and Bradley BA. (2015) Effect of liquefaction triggering uncertainty on liquefaction consequence assessments. Christchurch, New Zealand: 6th International Conference on Earthquake Geotechnical Engineering (6ICEGE), 1-4 Nov 2015.
  • Lee RL., Bradley BA., Ghisetti F., Pettinga JR., Hughes MW. and Thomson EM. (2015) A 3D seismic velocity model for Canterbury, New Zealand for broadband ground motion simulation. Palm Springs, CA, USA: Southern California Earthquake Centre (SCEC) Annual Meeting, 7-10 Sep 2015.
  • Lee RL., Bradley BA., Ghisetti FC., Pettinga JR., Hughes MW. and Thomson EM. (2015) A geology-based 3D seismic velocity model of Canterbury, New Zealand. Rotorua, New Zealand: 2015 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 10-12 Apr 2015.
  • McGann CR., Bradley BA. and Cubrinovski M. (2015) A high-resolution shear wave velocity model for near-surface soils in Christchurch. Rotorua, New Zealand: 2015 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 10-12 Apr 2015.
  • McGann CR., Bradley BA. and Cubrinovski M. (2015) Ongoing development of a near-surface shear wave velocity model using Christchurch-specific empirical correlation between shear wave velocity and cone penetration test data. Wellington, New Zealand: 12th Australia New Zealand Conference on Geomechanics, 22-25 Feb 2015.
  • McGann CR., Bradley BA. and Cubrinovski M. (2015) Spatial variability in surficial Christchurch soils via 5m shear wave velocity, Vs5. Christchurch, New Zealand: 6th International Conference on Earthquake Geotechnical Engineering (6ICEGE), 1-4 Nov 2015.
  • Morris G., Bull DK. and Bradley BA. (2015) Monotonic and cyclic bond behaviour of deformed bars in reinforced concrete structures. Rotorua, New Zealand: 2015 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 10-12 Apr 2015.
  • Quigley M., Bastin S., Grace K., Bassett KN., Van Ballegooy S., Borella J. and Bradley BA. (2015) Geologic expressions of contemporary and paleo-liquefaction: Insights into strong ground motion and site characteristics. Baltimore, MD, USA: 2015 Geological Society of America Annual Meeting (GSA2015), 1-4 Nov 2015.
  • Quigley M., Borella J., Mackey B., Sohbati R., Bradley BA., Sean MA. and Vick L. (2015) Contemporary and paleo-rockfalls as proxies for strong ground motions. Baltimore, MD, USA: 2015 Geological Society of America Annual Meeting (GSA2015), 1-4 Nov 2015.
  • Razafindrakoto HNT., Bradley BA., Thomson EM. and Graves RW. (2015) Hybrid broadband simulations of the 2010-2011 Canterbury earthquakes. Palm Springs, CA, USA: 2015 Southern California Earthquake Centre Annual Meeting (SCEC), 13-16 Sep 2015.
  • Tarbali K. and Bradley BA. (2015) Considering rupture directivity in selecting ground motion ensembles for seismic response analysis in the near-fault region. Palm Springs, CA, USA: 2015 Southern California Earthquake Centre Annual Meeting (SCEC), 12-16 Sep 2015.
  • Tarbali K. and Bradley BA. (2015) Scenario-based ground motion selection in the Near-fault region. Christchurch, New Zealand: 6th International Conference on Earthquake Geotechnical Engineering (6ICEGE), 1-4 Nov 2015.
  • Tarbali K. and Bradley BA. (2015) The effect of bounds on magnitude, source-to-site distance and site condition in PSHA-based ground motion selection. Rotorua, New Zealand: 2015 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 10-12 Apr 2015.
  • Taylor M., Cubrinovski M. and Bradley BA. (2015) Liquefaction triggering of Christchurch sandy soils during earthquakes. Rotorua, New Zealand: 2015 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 10-12 Apr 2015.
  • Teague D., Cox BR., Bradley BA. and Wotherspoon LM. (2015) Development of realistic Vs profiles profiles in Christchurch, New Zealand, via active and ambient surface wave data: Methodologies for inversion in complex inter-bedded geology. Christchurch, New Zealand: 6th International Conference on Earthquake Geotechnical Engineering (6ICEGE), 1-4 Nov 2015.
  • Wotherspoon LM., Bradley BA., Hills A., Thomson EM., Jeong S., Wood CM. and Cox BR. (2015) Development of deep Vs profiles and site periods for the Canterbury region. Rotorua, New Zealand: 2015 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 10-12 Apr 2015.
  • Bradley BA. (2014) Non-ergodic strong ground motion analysis of the Canterbury earthquakes. Anchorage, AK, USA: 10th US National Conference on Earthquake Engineering (NCEE10), 21-26 Jul 2014.
  • Bradley BA. and Graves RW. (2014) Low frequency (f≤1Hz) ground motion simulations of 10 events in the 2010-2011 Canterbury earthquake sequence. Palm Springs, CA, USA: Southern California Earthquake Centre Annual Meeting (SCEC), 7-10 Sep 2014.
  • Bradley BA., McVerry GH. and Gerstenberger MC. (2014) Recent efforts in empirical ground motion modelling in New Zealand. Taipei, Taiwan: Taiwan-Japan-New Zealand Seismic Hazard Assessment Meeting, 19-20 May 2014.
  • Burks LS., Bradley BA. and Baker JW. (2014) Ground motion selection for simulation-based seismic hazard analysis. Palm Springs, CA, USA: Southern California Earthquake Centre Annual Meeting (SCEC), 7-10 Sep 2014.
  • Cubrinovski M., Taylor M., Henderson D., Winkley A., Haskell J., Bradley BA., Hughes M., Wotherspoon L., Bray J. and O'Rourke T. (2014) Key factors in the liquefaction-induced damage to buildings and infrastructure in Christchurch: Preliminary findings. Auckland, New Zealand: 2014 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 21-23 Mar 2014.
  • Gerstenberger MC., Stirling MW., McVerry GH., Rhoades D., Harte D., Van Dissen R., Bradley BA., Nicol A., Zhao J. and Christopherson A. (2014) Rethinking PSHA. Taipei, Taiwan: 2014 Taiwan-Japan-New Zealand Seismic Hazard Assessment Meeting, 19-23 May 2014.
  • Jeong S., Bradley BA., McGann CR. and DePascale G. (2014) Characterization of dynamic soil properties and stratigraphy at Heathcote Valley, New Zealand, for simulation of 3D valley effects. Palm Springs, CA, USA: Southern California Earthquake Centre Annual Meeting (SCEC), 7-10 Sep 2014.
  • Joshi VA. and Bradley BA. (2014) Explicit consideration of near-fault directivity effects in NZ-specific probabilistic seismic hazard analysis. Auckland, New Zealand: 2014 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 21-23 Mar 2014.
  • Lee RL., Bradley BA., Ghisetti F., Pettinga JR., Hughes MW. and Thomson EM. (2014) A 3D seismic velocity model for Canterbury, New Zealand for broadband ground motion simulation. Palm Springs, CA, USA: Southern California Earthquake Centre Annual Meeting (SCEC), 7-10 Sep 2014.
  • Maurer BW., Green RA., Bradley BA. and Cubrinovski M. (2014) Assessment of aging correction factors for liquefaction resistance at sites of recurrent liquefaction. Anchorage, AK, USA: 10th US National Conference on Earthquake Engineering (NCEE10), 21-26 Jul 2014.
  • Maurer BW., Green RA., Bradley BA. and Cubrinovski M. (2014) Evaluating the Efficacy of Paleoliquefaction Analysis Techniques Using Modern Analogs. Blacksburg, VA, USA: 63rd Annual Meeting of the Southeastern Section of the Geological Society of America (GSA), 10-11 Apr 2014.
  • Maurer BW., Green RA., Bradley BA. and Cubrinovski M. (2014) What new liquefaction can teach us about old earthquakes: Evaluating the efficacy of paleoliquefaction analytics using modern analogs. Atlanta, GA, USA: American Society of Civil Engineers Geo-Congress (ASCE), 23-26 Feb 2014.
  • McGann CR., Bradley BA. and Cubrinovski M. (2014) Shallow shear wave velocity characterization of the urban Christchurch, New Zealand region. Palm Springs, CA, USA: Southern California Earthquake Centre Annual Meeting (SCEC), 7-10 Sep 2014.
  • Morris GJ., Bull DK. and Bradley BA. (2014) Reviewing the uncertainties in seismic experimentation following the unexpected performance of RC structures in the 2010-2011 Canterbury earthquakes. Auckland, New Zealand: 2014 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 21-23 Mar 2014.
  • Quigley M., Mackay B., Bradley BA., Hughes M. and Bastin S. (2014) The landscape record of blind fault earthquakes. Vancouver, Canada: 2014 Geological Society of America Annual Meeting (GSA), 19-22 Oct 2014.
  • Scarr J. and Bradley BA. (2014) An online open-source application for ground motion selection using the GCIM method. Auckland, New Zealand: 2014 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 21-23 Mar 2014.
  • Tarbali K. and Bradley BA. (2014) Representative ground motion ensembles for several major earthquake scenarios in New Zealand. Auckland, New Zealand: 2014 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 21-23 Mar 2014.
  • Thomson E. and Bradley BA. (2014) Preliminary analysis of instrumented Wellington building responses in the July/August 2013 Seddon/Lake Grassmere earthquakes. Auckland, New Zealand: 2014 New Zealand Society for Earthquake Engineering Annual Conference (NZSEE), 21-23 Mar 2014.
  • Wotherspoon LM., Orense RP., Bradley BA., Cox BR., Green RA. and Wood CM. (2014) Soil profile characterization of Christchurch strong motion stations. Anchorage, AK, USA: 10th US National Conference on Earthquake Engineering (NCEE10), 21-26 Jul 2014.
  • Bradley BA. (2013) A comparison of ground motions and first-hand experience of the 2011 Mw6.3 Christchurch, New Zealand and 2011 Mw9.0 Tohoku, Japan earthquakes. Istanbul, Turkey: International Conference on Earthquake Geotechnical Engineering (ICEGE 2013): In Honour of Professor Kenji Ishihara, 17-19 Jun 2013.
  • Bradley BA. (2013) A summary of strong ground motions observed in the Canterbury earthquake sequence. Auckland, New Zealand: New Zealand - Japan Workshop on Soil Liquefaction during Recent Large-scale Earthquakes, 2-3 Dec 2013.
  • Bradley BA. (2013) Estimation of site-specific and spatially-distributed ground motion in the Christchurch earthquakes: Application to liquefaction evaluation and ground motion selection for post-event investigation. Queenstown, New Zealand: 19th New Zealand Geotechnical Society (NZGS) Symposium, 20-23 Nov 2013.
  • Bradley BA. (2013) Systematic ground motion observations in the Canterbury earthquakes. Palm Springs, CA, USA: Southern California Earthquake Center (SCEC) Annual Meeting, 8-11 Sep 2013.
  • Bradley BA. and Hughes M. (2013) Spatially-distributed ground motion intensity maps: Application for site-specific liquefaction evaluation in Christchurch. Wellington, New Zealand: New Zealand Society for Earthquake Engineering Annual Conference (NZSEE2013), 26-28 Apr 2013.
  • Bradley BA., Cubrinovski M., Cox BR., Green RA., Wotherspoon LM., Pettinga J., Graves RW., Joshi V. and Lee R. (2013) Ground motion analysis of the Canterbury earthquakes : Results to date and on-going research. Istanbul, Turkey: International Conference on Earthquake Geotechnical Engineering (ICEGE 2013): In Honour of Professor Kenji Ishihara, 17-19 Jun 2013.
  • Carter L., Green RA., Bradley BA. and Cubrinovski M. (2013) The influence of near-fault motions on liquefaction triggering during the Canterbury earthquake sequence. Auckland, New Zealand: New Zealand - Japan Workshop on Soil Liquefaction during Recent Large-scale Earthquakes, 2-3 Dec 2013.
  • Cox., B R., Bradley., B A., Wotherspoon., L., Stokoe II., K H., Cubrinovski. and M. (2013) Deep Vs profiling for dynamic characterization of Christchurch, New Zealand: Towards reliably merging large active-source and ambient-wavefield surface wave methods. Istanbul, Turkey: International Conference on Earthquake Geotechnical Engineering (ICEGE 2013): In Honour of Professor Kenji Ishihara, 17-19 Jun 2013.
  • Das S., Bradley BA. and Cubrinovski M. (2013) A three-dimensional plasticity model for sandy soils based on state concept. Sydney, Australia: 1st Australian Conference on Computational Mechanics (ACCM2013), 3-4 Oct 2013.
  • Das S., Bradley BA. and Cubrinovski M. (2013) Soil-foundation-structure-interaction: A unified approach and applicability of constitutive relations for sandy soils. Wellington, New Zealand: New Zealand Society for Earthquake Engineering Annual Conference (NZSEE2013), 26-28 Apr 2013.
  • Joshi V. and Bradley BA. (2013) Empirical analysis of near-fault forward-directivity effects in the 2010-11 Canterbury earthquakes. Wellington, New Zealand: New Zealand Society for Earthquake Engineering Annual Conference (NZSEE2013), 26-28 Apr 2013.
  • Lee RL., Bradley BA. and Franklin MJ. (2013) Characteristics of vertical ground motions in the Canterbury earthquakes. Wellington, New Zealand: New Zealand Society for Earthquake Engineering Annual Conference (NZSEE2013), 26-28 Apr 2013.
  • Lee RL., Bradley BA., Pettinga JR., Hughes M. and Graves RW. (2013) A 3D seismic velocity model for Canterbury, New Zealand for broadband ground motion simulation. Palm Springs, CA, USA: Southern California Earthquake Center (SCEC) Annual Meeting, 8-11 Sep 2013.
  • Maurer B., Green R., Cubrinovski M. and Bradley BA. (2013) Evaluation of Liquefaction Potential Index (LPI) for Assessing Liquefaction Hazard: A Case Study in Christchurch, New Zealand. San Diego, CA, USA: ASCE GeoCongress, 3-6 Mar 2013.
  • McHattie S. and Bradley BA. (2013) Comparison of conventional modeling techniques with observations from the UC Physics building in the Canterbury earthquakes. Wellington, New Zealand: New Zealand Society for Earthquake Engineering Annual Conference (NZSEE2013), 26-28 Apr 2013.
  • Robinson K., Cubrinovski M. and Bradley BA. (2013) Sensitivity of predicted liquefaction-induced lateral displacements from the 2010 Darfield and 2011 Christchurch earthquakes. Queenstown, New Zealand: 19th New Zealand Geotechnical Society (NZGS) Symposium, 20-23 Nov 2013.
  • Robinson K., Cubrinovski M. and Bradley BA. (2013) Sensitivity of predicted liquefaction-induced lateral displacements from the 2010 Darfield and 2011 Christchurch earthquakes. Wellington, New Zealand: New Zealand Society for Earthquake Engineering Annual Conference (NZSEE2013), 26-28 Apr 2013.
  • Taylor ML., Cubrinovski M. and Bradley BA. (2013) Cyclic strength of Christchurch sands with undisturbed samples. Wellington, New Zealand: New Zealand Society for Earthquake Engineering Annual Conference (NZSEE2013), 26-28 Apr 2013.
  • Taylor ML., Cubrinovski M., Bradley BA. and Horikoshi K. (2013) The undrained cyclic strength of undisturbed and reconstituted Christchurch sands. Queenstown, New Zealand: 19th New Zealand Geotechnical Society (NZGS) Symposium, 20-23 Nov 2013.
  • Wotherspoon LM., Orense RP., Bradley BA., Cox BR., Wood CM. and Green RA. (2013) Soil profile characterization of Christchurch strong motion stations. Wellington, New Zealand: New Zealand Society for Earthquake Engineering Annual Conference (NZSEE2013), 26-28 Apr 2013.
  • Wotherspoon LM., Orense RP., Green RA., Bradley BA., Cox BR. and Wood C. (2013) Analysis of liquefaction characteristics at Christchurch strong motion stations. Auckland, New Zealand: New Zealand - Japan Workshop on Soil Liquefaction during Recent Large-scale Earthquakes, 2-3 Dec 2013.
  • Bradley BA. (2012) 3-D seismic response of liquefaction-susceptible improved-soil deposits. Lisbon, Portugal: 15th World Congress on Earthquake Engineering (15WCEE), 24-28 Sep 2012.
  • Bradley BA. (2012) A summary of strong ground motions observed in the Canterbury, New Zealand earthquake sequence. Lisbon, Portugal: 15th World Congress on Earthquake Engineering (15WCEE), 24-28 Sep 2012.
  • Bradley BA. (2012) Recorded ground motions from the 22 February 2011 Christchurch earthquake. Taormina, Italy: 2nd International Conference on Performance-based Design in Earthquake Geotechnical Engineering (II PBD), 28-30 May 2012.
  • Bradley BA. and Cubrinovski M. (2012) Simplified estimation of soil state parameters and sensitivity analysis of undrained cyclic response. Taormina, Italy: 2nd International Conference on Performance-based Design in Earthquake Geotechnical Engineering (II PBD), 28-30 May 2012.
  • Joshi VA. and Bradley BA. (2012) Observation of forward-directivity effects in the near-fault ground motions of the 2010-2011 Canterbury, New Zealand, earthquakes. Palm Springs, CA, USA: Southern California Earthquake Center Annual Meeting (SCEC), 9-12 Sep 2012.
  • Kaklamanos J., Bradley BA., Thompson EM. and Baise LG. (2012) Bias and variability in site response: Analysis of residuals at 100 KiKNet sites. Lisbon, Portugal: 15th World Congress on Earthquake Engineering (15WCEE), 24-28 Sep 2012.
  • Kaklamanos J., Bradley BA., Thompson EM. and Baise LG. (2012) Critical parameters affecting bias and variability in site response analyses using KiK-net downhole array data. San Diego, CA, USA: Seismological Society of America Annual Meeting (SSA), 17-19 Apr 2012.
  • McHattie SA. and Bradley BA. (2012) Seismic response of the instrumented UC physics building in the Canterbury earthquakes. Palm Springs, CA, USA: Southern California Earthquake Center Annual Meeting (SCEC), 9-12 Sep 2012.
  • Robinson K., Cubrinovski M. and Bradley BA. (2012) Lateral spreading measurements from the 2010 Darfield and 2011 Christchurch earthquakes. Melbourne, Australia: ANZ 2012, 15-18 Jul 2012.
  • Bradley BA. (2011) 22 February 2011 Christchurch Earthquake. Palm Springs, CA, USA: 2011 Southern California Earthquake Centre (SCEC) Annual Meeting, 12-14 Sep 2011.
  • Bradley BA. (2011) Open-source ground motion selection using the generalized conditional intensity measure (GCIM) approach. Palm Springs, CA, USA: 2011 Southern California Earthquake Centre (SCEC) Annual Meeting, 12-14 Sep 2011.
  • Bradley BA. (2011) Validation of seismic response analyses using seismometer array recordings. Santiago, Chile: 5th International Conference on Earthquake Geotechnical Engineering, 10-13 Jan 2011.
  • Bradley BA. and Cubrinovski M. (2011) Strong ground motions observed in the 22 February 2011 Christchurch earthquake. Palm Springs, CA, USA: 2011 Southern California Earthquake Centre (SCEC) Annual Meeting, 12-14 Sep 2011.
  • Bradley BA., Araki K., Ishii T. and Saitoh K. (2011) Effects of ground improvement on liquefaction resistance from 3-dimensional effective stress analyses. Kobe, Japan: International Symposium on Disaster Simulation & Structural Safety in the Next Generation (DS'11), 17-18 Sep 2011.
  • Ishihara K., Araki K. and Bradley BA. (2011) Characteristics of Liquefaction Induced Damage in the 2011 Great East Japan Earthquake. Hanoi, Vietnam: International Conference on Geotechnics for Sustainable Development (Geotec), 6-7 Oct 2011.
  • Stirling MW., McVerry G., Gerstenberger M., Litchfield N., Van Dissen R., Berryman K., Wallace L., Villamor P., Langridge R. and Nicol A. (2011) Precis of the New National Seismic Hazard Model for New Zealand. Auckland, New Zealand: 2011 Pacific Conference on Earthquake Engineering (PCEE 2011), 14-16 Apr 2011.
  • Bradley B. (2010) Ground motion selection for seismic response analysis. Wellington, New Zealand: 2010 New Zealand Society of Earthquake Engineering (NZSEE) Conference, 26-28 Mar 2010.
  • Bradley BA. (2010) A generalized conditional intensity measure approach and holistic ground motion selection. Ohrid, Macedonia: 14th European Conference on Earthquake Engineering, 30 Aug-3 Sep 2010.
  • Bradley BA. (2010) A generalized conditional intensity measure approach and holistic ground motion selection. Portland, OR, USA: Seismological Society of America 2010 Annual Meeting, 21-23 Apr 2010.
  • Bradley BA. (2010) Applicability of foreign ground motion prediction equations for New Zealand active shallow earthquakes. Palm Springs, CA, USA: 2010 Southern California Earthquake Center (SCEC) Annual Meeting, 11-15 Sep 2010.
  • Bradley BA. (2010) OpenSHA implementation of the GCIM approach for ground motion selection. Palm Springs, CA, USA: 2010 Southern California Earthquake Center (SCEC) Annual Meeting, 11-15 Sep 2010.
  • Power W., Wilson K., Prasetya G., Bradley BA., Wang X., Beavan J. and Holden C. (2010) The 2009 South Pacific tsunami - implications for tsunami hazard in the South Pacific. Vienna, Austria: European Geosciences Union General Assembly 2010 (EGU), 2-7 May 2010.
  • Reese., S., Bind., J., Smart., G., Jong VZD., S., Power. and W. (2010) Lessons learnt from the Samoa tsunami 2009 - A multi-disciplinary survey. Wellington, New Zealand: 4th Australasian Hazards Management Conference, 10-13 Aug 2010.
  • Reese., S., Bind., J., Smart., G., Jong VZD., S., Power. and W. (2010) Lessons learnt from the Samoan Tsunami 2009 - A multi-disciplinary survey. Wellington, New Zealand: A4th Australasian Hazards Management Conference, 10-13 Aug 2010.
  • Stirling MW., McVerry G., Gerstenberger M., Litchfield N., Van Dissen R., Barnes P., Berrymen K. and Bradley BA. (2010) The national seismic hazard model for New Zealand, and the Mw7.1 4 September Darfield earthquake. Auckland, New Zealand: New Zealand Geoscience Society Conference, 22-24 Nov 2010.
  • Uma SR. and Bradley BA. (2010) Displacement-based fragility functions for New Zealand buildings subject to ground motion hazard. Bangkok, Thailand: 3rd Asian Conference on Earthquake Engineering, 1-3 Dec 2010.
Edited Volumes
  • Cubrinovski M (Ed.) (2016) Special Issue "6ICEGE Invited Papers". Soil Dynamics and Earthquake Engineering 91Elsevier. 328.
  • Cubrinovski M. and Bradley B. (2015) Proceedings of the 6th International Conference on Earthquake Geotechnical Engineering (6ICEGE). Christchurch: NZGS. 2600pp.
Reports
  • Bradley B., Bora S. and Lee R. (2022) Summary of the ground-motion characterisation model for the 2022 New Zealand National Seismic Hazard Model.http://dx.doi.org/10.21420/9BMK-ZK64.
  • De La Torre C., Bradley B., Kuncar F., Lee R., Wotherspoon L. and Kaiser A. (2022) Combining observed linear basin amplification factors with 1D nonlinear site-response analyses to predict site response for strong ground motions: application to Wellington, New Zealand.http://dx.doi.org/10.21420/0XB3-0266.
  • Gerstenberger M., Bora S. and Bradley B. (2022) New Zealand National Seismic Hazard Model 2022 revision: model, hazard and process overview.http://dx.doi.org/10.21420/TB83-7X19.
  • Gerstenberger M., Van Houtte C., Abbott E., Van Dissen R., Kaiser A., Bradley B., Nicol A., Rhoades D., Stirling M. and Thingbaijam K. (2022) New Zealand National Seismic Hazard Model framework plan.http://dx.doi.org/10.21420/NB8W-GA79.
  • Hill M., Kaiser A., Wotherspoon L., Manea E., Lee R., De La Torre C. and Bradley B. (2022) 3D geological modelling of Wellington Quaternary sediments and basin geometry.http://dx.doi.org/10.21420/TS0B-8A37.
  • Hutchinson J., Bradley B., Lee R., Wotherspoon L., Dupuis M., Schill C., Motha J., Kaiser A. and Manea E. (2022) 2021 New Zealand Ground-Motion Database.http://dx.doi.org/10.21420/Z20E-5507.
  • Kaiser A., Manea E., Wotherspoon L., Hill M., Lee R., De La Torre C., Stolte A., Bora S., Bradley B. and Hulsey A. (2022) 2022 Revision of the National Seismic Hazard Model for New Zealand: overview of site/basin effects, including a case study of the Wellington Basin.http://dx.doi.org/10.21420/3XXY-T303.
  • Lee R., Bradley B., Manea E. and Hutchinson J. (2022) Evaluation of empirical ground-motion models for New Zealand application.http://dx.doi.org/10.21420/W2M5-YC09.
  • Bradley B., Lee R., Wotherspoon L. and Graves R. (2021) Advancing physics-based ground motion modelling of the 2016 Kaikoura Earthquake: Modelling basin-edge effects in Wellington and implications for seismic design. In Advancing physics-based ground motion modelling of the 2016 Kaikoura Earthquake: Modelling basin-edge effects in Wellington and implications for seismic design, Commissioned by Earthquake Comission.
  • Bastin S., Bradley B., Bray J., Cappellaro C., Chiaro G., Cubrinovski M., de la Torre C., Green R., McGann C. and Olsen M. (2017) GEOTECHNICAL RECONNAISSANCE OF THE 2016 Mw7.8 KAIKOURA, NEW ZEALAND EARTHQUAKE. In GEOTECHNICAL RECONNAISSANCE OF THE 2016 Mw7.8 KAIKOURA, NEW ZEALAND EARTHQUAKE, University of Canterbury. 1-251.
  • Bastin S., Bradley BA., Bray JD., Cappallaro C., Cubrinovski M., de la Torre C., Green RA., McGann CR., Olsen M. and Palermo A. (2017) Geotechnical Reconnaissance of the 2016 Mw7.8 Kaikoura, New Zealand Earthquake. In QuakCoRE-GEER Combined Reconnaissance Report, Geotechnical Extreme Events Reconnaissance (GEER) Association. 247 pages. http://dx.doi.org/10.18118/G6NK57.
  • Bradley B., Bray J., Chiaro G., Cubrinovski M., de la Torre C., Olsen M. and Wotherspoon L. (2017) LIQUEFACTION EFFECTS AND ASSOCIATED DAMAGE AT THE PORT OF WELLINGTON. In LIQUEFACTION EFFECTS AND ASSOCIATED DAMAGE AT THE PORT OF WELLINGTON, University of Canterbury. Commissioned by CentrePort Wellington. 1-84.
  • Bradley BA., Comerio M., Cubrinovski M., Dellow S., Dizhur D., Elwood K., Giaretton M., Horspool N., Hughes MW. and Ingham J. (2017) QuakeCoRE, GEER, and EERI Preliminary Earthquake Reconnaissance Report: M7.8 Kaikōura, New Zealand Earthquake on November 14, 2016.24.
  • Dohaney J., Brogt E., Wilson T., Doyle EEH., Kennedy B., Lindsay J., Bradley B., Johnston D. and Gravley D. (2016) Improving science communication through scenario-based role-plays.Commissioned by Ako Aotearoa, National Centre for Tertiary Teaching Excellence. iii+80.
  • Cubrinovski M., Hughes M., Bradley B., Noonan J., McNeill S., English G. and Garcia Sampedro I. (2015) Horizontal Infrastructure Performance and Application of the Liquefaction Resistance Index Methodology in Christchurch City through the 2010-2011 Canterbury Earthquake Sequence.Commissioned by NHRP (Natural Hazards Research Platform). 58pp-58pp.
  • McGann CR., Bradley BA. and Cubrinovski M. (2015) High-density shallow shear wave velocity characterisation of the urban Christchurch, New Zealand region.University of Canterbury, Christchurch, New Zealand. Commissioned by Department of Civil & Natural Resources Engineering. 67pp.
  • Tarbali K. and Bradley B. (2015) Bounds on causal parameters of prospective ground motions and their effect on characteristics of selected ground motions.Commissioned by University of Canterbury, Christchurch, New Zealand. 72pp.
  • Tarbali K. and Bradley BA. (2015) Effect of causal parameter bounds on scenario- and PSHA-based ground motion selection.73pp.
  • Cubrinovski M., Hughes M., Bradley BA., Noonan J., Hopkins R., McNeill S. and English G. (2014) Performance of horizontal infrastructure in Christchurch city through the 2010-2011 Canterbury earthquake sequence.University of Canterbury Research Report 2014-02. 139pp.
  • McGann CR., Bradley BA., Cubrinovski M., Taylor ML. and Wotherspoon LM. (2014) Development and evaluation of CPT-Vs correlation for Canterbury, New Zealand soils of the shallow Christchurch and Springston formations.109pp.
  • Tarbali K. and Bradley B. (2014) Ground-motion selection using the generalized conditional intensity measure (GCIM) approach and its application for several major earthquake scenarios in New Zealand.Commissioned by University of Canterbury. 92pp.
  • Tarbali K. and Bradley BA. (2014) Ground motion selection for scenario ruptures using the generalized conditional intensity measure (GCIM) approach and its application for several major scenario earthquakes in New Zealand.93.
  • Bradley BA. (2013) Systematic ground motion observations in the Canterbury earthquakes and region-specific non-ergodic empirical ground motion modelling.University of Canterbury. 74.
  • Wotherspoon LM., Orense R., Bradley BA., Cox BR., Wood C. and Green RA. (2013) Geotechnical characterization of Christchurch strong motion stations.Commissioned by New Zealand Earthquake Commission. 195.
  • Bradley BA. (2011) Implementation of a generalized conditional intensity measure (GCIM) approach in OpenSHA.Commissioned by Southern California Earthquake Centre (SCEC) Annual Report #10023. 4.
  • Cubrinovski M., Hughes M., Bradley B., McCahon I., McDonald Y., Simpson H., Cameron R., Christison M., Henderson B. and Orense R. (2011) Liquefaction Impacts on Pipe Networks: Short Term Recovery Project No. 6.University of Canterbury. Commissioned by Natural Hazards Research Platform & Christchurch City Council. 74pp.
  • Bradley BA. (2010) NZ-specific pseudo-spectral acceleration ground motion prediction equations based on foreign models.Department of Civil Engineering. Commissioned by University of Canterbury. 319pp.
  • Cubrinovski M., Green R., Allen J., Ashford S., Bowman E., Bradley BA., Cox B., Hutchinson T., Kavazanjian E. and Orense R. (2010) Geotechnical reconnaissance of the 2010 Darfield (New Zealand) earthquake.Commissioned by University of Canterbury. 173pp.
  • Uma SR. and Bradley BA. (2010) Development of displacement based NZ building fragility functions for ground motion hazard.GNS Science. 21pp.
  • Bradley BA. (2009) User manual for SLAT: Seismic loss assessment tool version 1.14.University of Canterbury. 90pp.
  • Bradley BA. (2006) Performance of damage avoidance beam-column joint sub-assembly subjected to bi-directional earthquake excitation..
Discussion/Working Papers
  • Wotherspoon LM., Bradley BA., Van Houtte C. and Larkin T. (2015) The horizontal-to-vertical spectral ratio technique: Application and limitations. New Zealand Geomechanics News.
Theses / Dissertations
  • Bradley BA. (2009) Structure-specific probabilistic seismic risk assessment. Christchurch, New Zealand. University of Canterbury.
Oral Presentations
  • Bradley BA. (2020) Observed ground motion basin amplifications and modelling for future events. Virtual: NZ Society for Earthquake Engineering Annual Conference, 14 May 2020.
  • Bradley BA. (2020) Prediction of seismic hazards in New Zealand using physics-based methods: Opportunities for integration across the geosciences. Christchurch, New Zealand: Plenary Lecture - Geoscience Society of New Zealand Annual Conference, 24 Nov 2020.
  • Bradley BA. (2019) Several insights from a decade of earthquake reconnaissance and response in New Zealand. Palm Springs, California: Southern California Earthquake Center Annual Meeting, 07 Sep 2019.

Editorial Work

  • Earthquake Spectra Editorial Board Member ( 2012 - 2023)
  • Published, by invitation, the inaugural opinion paper in the journal "Earthquake Engineering and Structural Dynamics" titled "A critical examination of seismic response uncertainty analysis in earthquake engineering". ( 2013 )

Review and Refereeing

  • Bulletin of the New Zealand Society for Earthquake Engineering ( 2008 - 2023)
  • Bulletin of the New Zealand Society for Earthquake Engineering ( 2008 - 2023)
  • Bulletin of the Seismological Society of America ( 2009 - 2023)
  • Bulletin of the Seismological Society of America ( 2009 - 2023)
  • Earthquake Engineering and Structural Dynamics ( 2008 - 2023)
  • Earthquake Engineering and Structural Dynamics ( 2008 - 2023)
  • Earthquake Spectra ( 2009 - 2023)
  • Earthquake Spectra ( 2009 - 2023)
  • Journal of Geotechnical and Geoenvironmental Engineering - ASCE ( 2012 - 2023)
  • Journal of Structural Engineering ( 2008 - 2023)
  • Journal of Structural Engineering ( 2008 - 2023)

Affiliations

  • Earthquake Engineering Research Institute (EERI) (Professional Organisation): Member
  • International Society for Soil Mechanics and Geotechnical Engineering (ISSMGE) (Professional Organisation): Member
  • New Zealand Geotechnical Society (Professional Organisation): Member
  • New Zealand Society for Earthquake Engineering (NZSEE) (Professional Organisation): Member
  • Seismological Society of America (SSA) (Professional Organisation): Member

Research Groups

  • Geological Hazards
  • Resilience: Physical Research
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