Exciting news! We're transitioning to the Statewide California Earthquake Center. Our new website is under construction, but we'll continue using this website for SCEC business in the meantime. We're also archiving the Southern Center site to preserve its rich history. A new and improved platform is coming soon!
tinglin's picture

Ting Lin

Texas Tech University
Assistant Professor

Expertise: Hazards, Risk, & Uncertainty; Earthquake Engineering; Interface between Engineering & Geosciences
 
 
ting.lin@ttu.edu
Work: (806) 834-5327
About Me Publications
Lin, T., Rezaeian, S., Luco, N., Deierlein, G., Baker, J. W., & Zareian, F. (2020). Guidelines on Utilization of Simulated Ground Motions for Engineering Building Response Applications. Earthquake Spectra, (in preparation). SCEC Contribution 10791
Lin, T., Deierlein, G., Baker, J. W., & Zareian, F. (2020, 08). Guidelines on Utilization of Simulated Ground Motions for Engineering Building Response Applications. Poster Presentation at 2020 SCEC Annual Meeting. SCEC Contribution 10733
Bijelic, N., Lin, T., & Deierlein, G. (2018). Duration and sustained amplitude adjusted response spectra – RSx and Da spectra. Earthquake Spectra, (in preparation). SCEC Contribution 8042
Bijelic, N., Lin, T., & Deierlein, G. (2018). Influence of high-frequency components of hybrid-broadband and deterministic CyberShake ground motion simulations on nonlinear response analyses of buildings. Seismological Research Letters, (under review). SCEC Contribution 8038
Zhong, K., Yan, W., Lin, T., & Deierlein, G. (2017, 08). Demonstration of the efficacy of the BBP ground motions for nonlinear structural analysis and collapse assessment. Poster Presentation at 2017 SCEC Annual Meeting. SCEC Contribution 7832
Lin, T., Bijelic, N., & Deierlein, G. (2017, 08). Characterization of basin effects for seismic performance assessments of tall buildings using CyberShake simulations. Poster Presentation at 2017 SCEC Annual Meeting. SCEC Contribution 7734
Deierlein, G., Bijelic, N., & Lin, T. (2016, 09). Utilization of earthquake ground motions for nonlinear analysis and design of tall buildings. Oral Presentation at 2016 SCEC Annual Meeting. SCEC Contribution 6568
Bijelic, N., Lin, T., & Deierlein, G. (2020). Efficient intensity measures and machine learning algorithms for collapse prediction of tall buildings informed by SCEC CyberShake ground motion simulations. Earthquake Spectra, 36(3), 1188-1207. doi: 10.1177/8755293020919414. SCEC Contribution 8040
Zhong, K., Lin, T., Deierlein, G. G., Graves, R. W., Silva, F., & Luco, N. (2020). Tall building performance‐based seismic design using SCEC broadband platform site‐specific ground motion simulations. Earthquake Engineering & Structural Dynamics, 1-18. doi: 10.1002/eqe.3364. SCEC Contribution 10793
Lin, T., Deierlein, G., Zhong, K., & Yen, W. (2020, 09). SCEC Broadband Platform (BBP) ground motion simulations for tall building response analyses in San Francisco, Los Angeles downtown, and CyberShake sites. Oral Presentation at 17th World Conference on Earthquake Engineering (17WCEE). SCEC Contribution 10792
Bijelic, N., Lin, T., & Deierlein, G. (2020, 09). Sustained amplitude (RSx) and significant duration (Da) spectra for seismic risk assessment in sedimentary basins. Oral Presentation at 17th World Conference on Earthquake Engineering (17WCEE). SCEC Contribution 10022
Bijelic, N., Lin, T., & Deierlein, G. (2019). Quantification of the Influence of Deep Basin Effects on Structural Collapse Using SCEC CyberShake Earthquake Ground Motion Simulations. Earthquake Spectra, 35(4), 1845–1864. SCEC Contribution 8041
Bijelic, N., Lin, T., & Deierlein, G. G. (2019). Evaluation of Building Collapse Risk and Drift Demands by Nonlinear Structural Analyses Using Conventional Hazard Analysis versus Direct Simulation with CyberShake Seismograms. Bulletin of the Seismological Society of America, 109(5), 1812-1828. doi: 10.1785/0120180324. SCEC Contribution 8039
Bijelic, N., Lin, T., & Deierlein, G. (2018). Validation of the SCEC Broadband Platform simulations for tall building risk assessments considering spectral shape and duration of the ground motion. Earthquake Engineering and Structural Dynamics, 47(11), 2233-2251. SCEC Contribution 7999
Bijelic, N., Lin, T., & Deierlein, G. (2018, 6). Contrasting CyberShake simulations and conventional hazard analysis to assess collapse risk of tall buildings in the Los Angeles basin. Oral Presentation at 11th National Conference on Earthquake Engineering. SCEC Contribution 7998
Bijelic, N., Lin, T., & Deierlein, G. (2018, 6). Utilization of physics-based ground motion simulations for tall building risk assessment. Oral Presentation at 16th European Conference on Earthquake Engineering. SCEC Contribution 7997
Bijelic, N., Lin, T., & Deierlein, G. (2017, 01). Seismic response of a tall building to simulated long-period ground motions. Oral Presentation at 16th World Conference on Earthquake Engineering. SCEC Contribution 7151
Lin, T. (2017, 06). Virtual Reality of Earthquake Ground Motions for Emergency Response. Oral Presentation at 6th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering. SCEC Contribution 10883
Bijelic, N., Lin, T., & Deierlein, G. (2014, 05). Seismic response of a tall building to recorded and simulated ground motions. Oral Presentation at 10th National Conference of Earthquake Engineering. doi: 10.4231/D3VH5CJ72. SCEC Contribution 1930

Last updated Dec 01, 2020.