Source: http://www.henryburtonjr.com/publications/
Timestamp: 2019-04-24 20:23:13+00:00

Document:
Burton, H. V., Kang, H., Miles, S., Nejat, A. and Yi, Z. (2019). “A framework and case study for integrating household decision-making into post-earthquake recovery models,” International Journal of Disaster Risk Reduction (accepted for publication).
Rad, A. R., Weinand, Y. and Burton, H. V. (2019). “Experimental push-out investigation on the in-plane force-deformation behavior of integrally-attached timber through-tenon joints,” Construction and Building Materials (accepted for publication).
Burton, H. V., Doorandish, N. and Sabol, T (2019). “Probabilistic assessment of seismic force demands in biaxially loaded columns in chevron-configured special concentrically braced frames ,” AISC Engineering Journal 56(2), 109-122.
Huang, H. and Burton, H. V. (2019). “Classification of in-plane failure modes for reinforced concrete frames with infills using machine learning,” Journal of Building Engineering (accepted for publication).
Zhang, Y., Burton, H. V., Shokrabadi, M. and Wallace, J. (2019). “Seismic risk assessment of a 42-story reinforced concrete dual-system building considering mainshock and aftershock hazard,” ASCE Journal of Structural Engineering (accepted for publication).
Wang, J., Burton, H. V. and Dai, K. (2019). “A state-of-the-art review of the combination rules used to account for orthogonal seismic effects,” ASCE Journal of Structural Engineering (accepted for publication).
Mangalathu, S. and Burton, H. V. (2019). “Deep learning-based classification of earthquake-impacted buildings using textual damage descriptions,” International Journal of Disaster Risk Reduction (accepted for publication).
Sun, H., Burton, H. V. and Wallace, J. W. (2019). “Reconstructing seismic response demands across multiple tall buildings using kernel-based machine learning methods,” Structural Control and Health Monitoring (accepted for publication).
Rad, A. R., Burton, H. V. and Weinand, Y. (2019). “Performance assessment of through-tenon timber joints under tension loads,” Construction and Building Materials 207, 706-721.
Shokrabadi, M. and Burton, H. V. (2019). “Regional short-term and long-term risk and loss assessment under sequential seismic events,” Engineering Structures 185, 366-376.
Zhang, Y. and Burton, H. V. (2019). “Pattern recognition approach to assess the residual structural capacity of damaged tall buildings,” Structural Safety 78, 12-22.
Burton, H. V., Rad, A. R., Yi, Z., Gutierrez, G. and Ojuri, K. (2018). “Seismic collapse performance of Los Angeles soft, weak, and open-front wall-line woodframe structures retrofitted using different procedures,”Bulletin of Earthquake Engineering 17, 2059-2091.
Burton, H. V., Doorandish, N. and Shokrabadi, M. (2018). “Probabilistic evaluation of combination rules for seismic force demands from orthogonal ground motion components,” Engineering Structures 177, 234-243.
Moradi, S., Burton, H. V. and Kumar, I. (2018). “Parameterized fragility functions for controlled rocking steel braced frames” Engineering Structures 176, 254-264.
Guan, X., Burton, H. V., and Moradi, S. (2018). “Seismic Performance of a Self-Centering Steel Moment Frame Building: From Component-Level Modeling to Economic Loss Assessment,” Journal of Constructional Steel Research 150, 129-140.
Miles, S.B., Burton, H. V., and Kang, H. (2019). “Towards a community of practice for disaster recovery modeling,” Natural Hazards Review 19(1), 1-11.
Burton, H. V., Miles, S.B. and Kang, H. (2018). “Integrating performance based engineering and urban simulation to model post-earthquake housing recovery,” Earthquake Spectra 34(4), 1763-1785.
Kang, H. and Burton, H. V. (2018). “Replicating the recovery following the 2014 South Napa earthquake using stochastic process models,” Earthquake Spectra 34(3), 1247-1266.
Yun, J. Y., Burton, H. V. and Lallemant, D. (2018). “Adaptive decision-making for civil infrastructure systems and communities subjected to evolving risks,” Structural Safety 75, 1-12.
Moradi, S. and Burton, H. V. (2018). “Response surface analysis and optimization of controlled rocking steel braced frames ,” Bulletin of Earthquake Engineering 16(10), 4861-4892.
Shokrabadi, M. and Burton, H. V. (2018). “Risk-based assessment of aftershock and mainshock-aftershock seismic performance of reinforced concrete frames,” Structural Safety 73, 64-74.
Shokrabadi, M. and Burton, H. V. (2018). “Building service life economic loss assessment under sequential seismic events,” Earthquake Engineering Structural Dynamics, 47(9), 1864-1881.
Shokrabadi, M., Burton, H. V., and Stewart, J. (2018). “Impact of sequential ground motion pairing on mainshock-aftershock structural response and collapse performance assessment,” ASCE Journal of Structural Engineering, 144(10), 1-13.
Zhang, Y., Burton, H. V., Sun, H. and Shokrabadi, M. (2017). “A machine-learning framework for assessing post-earthquake structural safety,” Structural Safety 17, 1-16.
Sun, H., Burton, H. V., Zhang, Y. and Wallace, J. W. (2017). “Interbuilding interpolation of peak seismic response demands using spatially correlated demand parameters,” Earthquake Engineering Structural Dynamics, 47(5), 1168-1188.
Shokrabadi, M. and Burton, H. V. (2017). “Ground motion intensity measures for rocking building systems,” Earthquake Spectra, 33(4), 1533-1554.
Burton, H. V. and Deierlein, G. (2017). “Integrating visual damage simulation, virtual inspection and collapse capacity to evaluate post-earthquake structural safety of buildings,” Earthquake Engineering Structural Dynamics, 47(2), 298-310.
Burton, H. V., Deierlein, G, Lallemant, D. and Singh, Y. (2017). “Measuring the impact of enhanced building performance on the seismic resilience of a residential community,” Earthquake Spectra, 33(4), 1347-1367.
Burton, H. V., Sreekumar, S., Sharma, M. and Sun, H. (2017). “Estimating aftershock collapse vulnerability using mainshock intensity, structural response and physical damage indicators,” Structural Safety 68, 85-96.
Burton, H. V. and Sharma, M. (2017). “Quantifying the reduction in collapse safety of mainshock-damaged reinforced concrete frames with infills,” Earthquake Spectra, 33(1), 25-44.

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