John van de Lindt
John W. van de Lindt, Ph.D F. ASCE
Editor-in-Chief, Journal of Structural Engineering
Harold H. Short Endowed Chair Professor
Co-Director, Center for Risk-Based Community Resilience Planning
Colorado State University
Department of Civil and Environmental Engineering
Fort Collins, CO 80523-1372 USA
Colorado State University

Dr. John W. van de Lindt is the Harold H. Short Endowed Chair in the Department of Civil and Environmental Engineering at Colorado State University. He formerly was as the George T. Abell Distinguished Professor in Infrastructure at CSU and as a Professor at the University of Alabama he held the Garry Neil Drummond Endowed Chair in Civil Engineering. He has also previously served on the faculty at Colorado State University and Michigan Technological University. Over the last two decades Dr. van de Lindt’s research program has sought to improve the built environment by making structures and structural systems perform to the level expected by their occupants, government, and the public. This has been primarily through the development of performance-based engineering and test bed applications of building systems for earthquakes, hurricanes, tsunamis, tornadoes and floods. To accomplish this has necessitated coupling nonlinear dynamics, including stochastic approaches in both time and space with structural reliability during extreme loading events. His work includes both the development of new nonlinear numerical models and experimental investigations to calibrate those models and support hypotheses. Over the last twenty years he has successfully procured/led federal, state, and industry sponsored projects totaling approximately $50M. As a result of these projects he has published approximately 450 technical publications including more than 200 peer reviewed journal papers in scholarly journals such as the Journal of Structural Engineering, Journal of Performance of Constructed Facilities, Engineering Structures, Structural Safety, Natural Hazard Review,the Journal of Earthquake Engineering, Wind and Structures, and presents work frequently at both national and international conferences. Professor van de Lindt has given a number of keynotes and invited talks around the world including Japan, China, India, Italy, Canada, and New Zealand.

Dr. van de Lindt has served as the Chair of the Technical Administrative Committee on Wood which oversees four national wood committees, and remains a control group member of the wood TAC while serving as Chair of the Executive Committee for the Infrastructure Resilience Division of the American Society of Civil Engineers (ASCE). He continues to contribute to ASCE’s mission as Chief Editor of the Journal of Structural Engineering where he manages approximately 65 Associate and Section Editors to handle 1200 paper/year. He is a regular organizer and chair of sessions at the ASCE/SEI Structures Congress. as well as numerous international conferences and workshops. Professor van de Lindt has led multiple very large projects involving management of up to 80 people successfully and producing Ph.D. graduates that have gone on to successful academic careers. Personnel management has been key to the success of those projects. He also served as the designer of millions of dollars of lab equipment and coordinated discussions between the design consultants and facilities while on the faculty at the University of Alabama.

Professor van de Lindt believes and actively seeks to promote the mission of diversity and ensuring that everyone is given an equal chance to succeed in engineering and all areas of study and profession. He has worked with a number of undergraduate, M.S., and Ph.D. student researchers over the last 21 years from diverse backgrounds including women, Latinx, and other underrepresented groups in the STEM disciplines. Dr. van de Lindt has mentored more than 20 students from underrepresented groups such as women and minorities through the Colorado PEAKS Alliance Summer Program at Colorado State University and has hosted six interns from technical universities in France. He is the past chair of the Education and Outreach Committee for the Network for Earthquake Engineering Simulation. He previously chaired CSU’s Civil and Environmental Engineering Graduate Instruction Committee, Department Tenure Committee, and Department Promotion Committee. Additionally, he has assisted with applications of numerous students resulting in graduate Fellowships from NSF, AISC, and energy-related organizations and writes approximately ten tenure recommendations for tenure and promotion and two to three promotion letters to full professor of faculty around the U.S. each year. In 2009 he applied for and received an NSF supplement to bring 10 Assistant Professors to Miki, Japan to participate in a CSU-led test program and provided a mechanism for US-Japan networking by planning and hosting a three-day program. Of those funded, more than half were from historically underrepresented groups in engineering. Most recently, he sponsored seven NSF-REU’s for two large CSU-led test programs of which four were Latinx and/or women.

Honors and Awards

2019 Elected Fellow, Structural Engineering Institute, American Society of Civil Engineers.

2018 Best Paper Award, ASCE Journal of Architectural Engineering; with Christine Standohar-Alfano (Lead authorP, and Eric Holt.

2018 Harold H. Short Endowed Chair, Department of Civil and Environmental Engineering, Colorado State University

2017 Ernest E. Howard Award, American Society of Civil Engineers, "For his influential work to advance the understanding of the performance of wood buildings under extreme hazard loading".

2017 Outstanding Faculty Award, Department of Civil and Environmental Engineering, Colorado State University

2015 Outstanding Faculty Award, Department of Civil and Environmental Engineering, Colorado State University

2015 Raymond C. Reese Research Prize, American Society of Civil Engineers; Awarded for tsunami loading on woodframe walls experimental work

2014 Faculty Excellence in Research Award, Department of Civil and Environmental Engineering, Colorado State University

2014 Elected Fellow, American Society of Civil Engineers.

2013 Outstanding Dissemination of NEES Research Award, George E. Brown Jr. Network for Earthquake Engineering Simulation (NEES), NEEScomm.

2012 Raymond C. Reese Research Prize, American Society of Civil Engineers; Awarded for full-scale six-story woodframe shake table testing work in Miki, Japan.

2012-Present George T. Abell Distinguished Professor, College of Engineering, Colorado State University.

2011 Guest of Honor, Opening Ceremonies, International Conference on Earthquake Analysis and Design of Structures, Coimbatore, India, December 1-3.

2010-2012 Garry Neil Drummond Endowed Chair, The University of Alabama.

2010 Outstanding Contribution to Research Award, George E. Brown Jr. Network for Earthquake Engineering Simulation (NEES), NEEScomm.

2008 George T. Abell Outstanding Mid-Career Faculty Award, College of Engineering, Colorado State University

2008 Outstanding Faculty Award, Department of Civil and Environmental Engineering, Colorado State University

2007 Foreign Expert in Seismic/Wood Structures, National Institute for Earth Science and Disaster Prevention, Japan., Visitor

2006 Faculty Excellence in Research Award, Department of Civil Engineering, Colorado State University

Current Projects and Centers (See below for a list of all projects)

NIST Center of Excellence for Risk-Based Community Resilience Planning

Webpage: http://resilience.colostate.edu

Experimental and Numerical Study to Improve Damage and Loss Estimation due to Overland Wave and Surge Hazards on Near-Coast Structures

Collaborative Research: Development and Validation of A Resilience-based Seismic Design Methodology for Tall Wood

Stacked 2-story Conventional Shear Wall Test

Post Doctoral Fellow at FPL

Collaborative Research: EAGER CoPe: Coastal Community Resilience Bonds to Enable Coupled Socio-Physical Recovery

Cooperative Research to Enable Mass Timber Multi-Family Housing Technologies

Joint Documentation of Research Efforts under Decision Frameworks for Multi-Hazard Resilient and Sustainable Buildings

Other Projects

NIST Center of Excellence: Center for Risk-Based Community Resilience Planning, 2/1/15-1/31/20, Department of Commerce- National Institute of Standards and Technology, (PI – van de Lindt, co-PI – Ellingwood, 26 additional investigators across 13 additional universities)

CRISP Type 2: Collaborative Research: Scalable Decision Model to Achieve Local and Regional Resilience of Interdependent Critical Infrastructure Systems and Communities, 10/1/16-9/30/20, (Co-PI – van de Lindt, PI – Ellingwood). Collaborative grant with Texas A&M University (PI: Peacock), University of Illinois (PI: Gardoni), and Eastern Caroline University (PI: Kruse).

Development of Seismic Performance Factors for Cross Laminated Timber: Phase III, 5/1/14-12/31/15, USDA-FPL, (PI – van de Lindt, Co-PI – D. Rammer)

Development of Seismic Performance Factors for CLT: Phase II, 3/6/13-8/31/14, USDA-FPL, (PI – van de Lindt, Co-PI – D. Rammer)

Collaborative Research: Fundamental Mechanics and Conditional Probabilities for Prediction of Hurricane Surge and Wave Forces, 6/1/13-5/31/16, NSF-CMMI, (PI-van de Lindt); Collaborator: D. Cox, OSU, with separate funding.

Utilization of CLT as Soft Story Retrofit within NEES-Soft Shake Table Test, 6/1/13-8/31/14, USDA-FPL, (PI – van de Lindt, Co-PI – D. Rammer).

Quantitative Uncertainty Modeling for Performance Based Earthquake Engineering, 8/1/13-7/30/15, (Co-PI – van de Lindt, PI – Pei, CSM), NSF-CMMI.

Quantifying Sustainability Metrics for TrucklineBridges in the Mountain Plains, 11/1/12-11/30/15, MPC, (PI – van de Lindt; Co-PI – B. Senior, CSU).

Development of Seismic Response Factors for Cross Laminated Timber– Phase I, 9/15/2012-9/14/2013, USDA-FPL, (PI – van de Lindt, CO-PI's – D. Rammer, FPL; Shiling Pei, CSM)

Integration of Aftershock Seismic Hazard Into Performance-Based Earthquake Engineering using Publicly Available NEEShub Data. 10/1/10-9/30/13, NSF, $280,000 (Co-PI – van de Lindt, PI – Li, MTU)

Seismic Risk Assessment for Trunkline Bridges in the I-25/I-70 Corridor of the Mountain Plains Region of the U.S., Mountain Plains Consortium (PI – van de Lindt)

Collaborative Research: NEESR Planning: Massive Timber Structural Systems for Seismically Resilient Tall Buildings, NSF-NEES, (PI-van de Lindt); Collaborators: S. Pei, CSM; J. D. Dolan, WSU; J. Berman, UW; J. Ricles and R. Sause, Lehigh; with separate funding.

Seismic Design and Behavior of Cross Laminated Timber Buildings 8/1/11-7/31/12, USDA-FPL, (PI – van de Lindt; Co-PI – Pei, SDSU; D. Rammer, FPL)

The Prescient Companies: Phase I, 8/1/10-9/30/11, (PI – van de Lindt).

Reliability-Based Analysis and Design of Slender Long-Span Bridges, NSF, (Co-PI – van de Lindt; PI– Chen, CSU).

Feasibility Study for Highway Traffic Noise Barriers from a Spray Dryer Ash and Used Rubber Composite, Colorado Department of Public Health and the Environment, (PI – van de Lindt; Co-PI – Heyliger)

Rapid Load Rating of Short Rural Bridges, (PI – van de Lindt)

Innovative and Economical Steel Bridge Design Alternatives for Colorado: Hybrid Girders, Double-Composites, Epoxy FRP covers plates, and External Post Tensioning (Phase-II), CDOT, (PI – van de Lindt)

Financial Support for Six-Story Wood Building Tests in Japan, Government of British Columbia (PI – van de Lindt).

Financial Support for NEESWood Tests in Japan, (CAD), FPInnovations (PI – van de Lindt)

Understanding the Behavior of Mid-Rise Light-Frame Wood Buildings, U.S. Forest Products Lab (PI's– van de Lindt and Rammer, FPL)

International Travel Support for US Researchers to attend E-Defense Testing in Japan, NSF-CMMI, (PI-van de Lindt)

Performance-Based Wind Engineering: Interaction of Hurricanes with Residential Buildings, 6/01/08-5/30/10, NSF, (Co-PI – van de Lindt, PI – Prevatt, Florida, Co-PI – Gupta, OSU

Developing Damage Potential Indicators through Coupling Intrinsic Mode Functions and Structural Characteristics for Improvement in Synthetic Ground Motion Generation: Collaborative Research with Colorado State University and USGS, 12/1/08-11/30-09, Department of the Interior – USGS, (PI –van de Lindt).

NEESR II: Mitigating the risk of coastal infrastructure through understanding tsunami-structure interaction and modeling, 10/108-9/30/11, (Co-PI – van de Lindt, PI – Cox, OSU, Co-PI's – Gupta, OSU; Aquiniga, TAMU-Kingsville)

Major Research Instrumentation: Acquisition of an Infrastructure for Real-Time Testing of Wind Effects on Structures, 10/01/05-9/30/09, NSF, (Co-PI – van de Lindt, PI- Bienkiewicz).

NEESR Payload: Wave Loading on Residential Structures with Earthquake and Hurricane Applications, NSF, (PI: van de Lindt; Co-PI: Gupta, OSU)

Innovative applications of Fly Ash: Roof Tiles, Colorado Commission on Higher Education, (Co PI – van de Lindt; PI - Heyliger; Co-PI - Atadero).

Time History Analysis of Mid-Rise Light-Frame Wood Buildings in British Columbia, FPInnovations, 11/1/08-3/31/09 (PI – van de Lindt)

Enabling Innovative Plate Girder Bridges: Simples Spans Made Continuous, MPC (UTC), (PI – van de Lindt).

Statistical Charaterization of Wind Distributions for fatigue Assessment of Structural Supports in Colorado, CDOT.

Investigation of the use of Fly Ash for Light-frame Wood wall Insulation, APPA, (PI: van de Lindt; CO PI's: Cararro, Heyliger).

Innovative Steel Design Alternatives for Bridges in Colorado, CDOT, 4/15/06-3/30/09, (PI: van de Lindt; Co-PI:Chen).

Collection of Perishable Data on Woodframe Residential Structures in the Wake of Hurricane Katrina, 10/01/05-09/30/06, NSF, (PI – van de Lindt, Co-PI – Graettinger, University of Alabama)

LRFD Load Calibration for State of Michigan Trunkline Bridges – Phase III, Michigan Department of Transportation, 10/21/05 – 12/21/05, (Co-PI –van de Lindt, PI- Fu, Wayne State Univ.).

Development of a Reliability-Based Design Procedure for High mast Lighting Structural Supports in Colorado, 10/01/04-9/30/05, Colorado Department of Transportation, (PI – van de Lindt)

LRFD Load Calibration for State of Michigan Trunkline Bridges, Michigan Department of Transportation, 09/15/03 – 4/30/05, (PIÕs – van de Lindt and Fu, Wayne State Univ.).

Planning of the NEES/E-Defense International Collaboration, National Science Foundation, 10/15/03—1/31/05, (PI – van de Lindt, Co-PI – Rosowsky, Oregon State Univ.).

Development of Steel Beam End Deterioration Guidelines, Michigan Department of Transportation, 03/01/03-07/31/04, (PI – van de Lindt).

Re-Evaluation of LRFD for Engineered Wood Products: Keeping Pace with Changes in ASCE 7, 06/01 – 12/03, (ASCE/SEI Special Project carried out by the Committee on the Reliability –Based Design of Wood Structures.)

Investigation of the Adequacy of Current Bridge Design Loading in the State of Michigan, Michigan Department of Transportation, 02/14/01-04/05/02, (PI's – van de Lindt and Fu, Wayne State Univ.).

Identification of the Ground Motion Parameters that Control Structural Damage using a Slepian Process Model, United States Geological Survey, 05/15/02-08/31/03, (PI – van de Lindt; Co-PI – Niedzwecki, Texas A&M Univ.).

Development of a Composite Shear Wall for Resisting High Wind Loads, Federal Emergency Management Agency Hazard Mitigation Grant Program through the Michigan State Police, 11/15/01-05/15/03, (PI – van de Lindt).

Comparison of Steel Overhead Sign Support Structures, Michigan Department of Transportation, 03/19/03-08/31/03, (PI – van de Lindt).

Optimization of Cost and Performance of Overhead Sign Structures, Michigan Department of Transportation, 05/11/02-08/10/03, (Co-PI – van de Lindt; PI – Ahlborn).

Experimental Comparison of the Behavior of In-Flange Connectors for use in Precast Concrete Double-Tee Systems, Progress Industries Inc., 08/01/02-12/20/02, (PI – van de Lindt).

Journal Papers

Nofal, O.M., J.W. van de Lindt, T.Q. Do, G. Yan, S. Hamideh, D. T Cox, and J.C. Dietrich. (2021). “Methodology for Regional Multi-Hazard Hurricane Damage and Risk Assessment.”, Journal of Structural Engineering, In Press.

Furley, J., J.W. van de Lindt, S. Pei, S. Wichman, H. Hasani, J.W. Berman, K. Ryan, J.D. Dolan, R.B. Zimmerman, and E. McDonnell. (2021). “Time-to-Functionality Fragilities for Performance Assessment of Buildings.”, Journal of Structural Engineering, In Press.

Wang, W(L)., J.W. van de Lindt, N. Rosenheim, H. Cutler, B. Hartman, J.S. Lee, and D. Calderon. (2021). “Effect of Residential Building Wind-Retrofit Strategies on Social and Economic Community Resilience Metrics.”, Journal of Infrastructure Systems, In Press.

Anandan, Y., J.W. van de Lindt, M.O. Amini, T.N. Dao, and S. Aaeleti. (2021). “Experimental Dynamic Testing of Full-Scale Light-Frame-CLT Wood Shear Wall System.”, ASCE Journal of Architectural Engineering, Special Issue on Mass Timber, Vol 27(1), doi.org/10.1061/(ASCE)AE.1943-5568.0000443.

Wang, W(L). and J.W. van de Lindt. (2021). “Quantitative modeling of residential building disaster recovery and effects of pre- and post-event policies.”, International Journal of Disaster Risk Reduction, 59 (2021) 102259.

Peek L, J. Tobin, J.W. van de Lindt, and A. Andrews. (2021). “Getting Interdisciplinary Teams into the Field: Institutional Review Board Preapproval and Multi-Institution Authorization Agreements for Rapid Response Disaster Research.”, Risk Analysis Journal, 10.1111/risa.13740. PMID: 33960513.

Amini, M.O., J. W. van de Lindt, D. Rammer, and S. Pei. (2021). “Rocking Behavior of High Aspect Ratio Cross Laminated Timber Shear Walls: Experimental and Numerical Investigation.”, Journal of Architectural Engineering, 27(3), doi.org/10.1061/(ASCE)AE.1943-5568.0000473.

Nofal, O. and J.W. van de Lindt. (2021). “High-resolution flood risk approach to quantify the impact of policy change on flood losses at community-level.”, International Journal of Disaster Risk Reduction, 62 (2021) 102429.

Mugabo, I., A.R. Barbosa, A. Sinha, C. Higgins, M. Riggio, S. Pei, J.W. van de Lindt, and J.W. Berman. (2021). “System Identification of a UCSD-NHERI Shake-Table Test of a Two-Story Structure with Cross-Laminated Timber Rocking Walls.”, ASCE Journal of Structural Engineering, 147(4).

Kode, A., M.O. Amini, J.W. van de Lindt, and P. Line. (2021). “Lateral Load Testing of a Full-Scale Cross-Laminated Timber Diaphragm.”, ASCE Practice Periodical on Structural Design and Construction, Vol 26(2), doi.org/10.1061/(ASCE)SC.19435576.0000566.

Roohi, M., J.W. van de Lindt, N. Rosenheim, Y. Hu, and H. Cutler. (2020). “Implication of building inventory accuracy on physical and socio-economic resilience metrics for informed decision-making in natural hazards.”, Structure and Infrastructure Engineering, doi.org/10/1080/15732479.2020.1845753.

Mugabo, I., A. R. Barbosa, A. Sinha, C. Higgins, M. Riggio, S. Pei, J. W. van de Lindt, and J. W. Berman. (2021). “System Identification of a UCSD-NHERI Shake-Table Test of a Two-Story Structure with Cross-Laminated Timber Rocking Walls.”, Journal of Structural Engineering, Vol 147(4), doi.org/10.1061/(ASCE)ST.1943541X.0002938.

Pilkington, S., A. Curtis, H. Mahmoud, J.W. van de Lindt, S. Smith, J. Ajayakumar. (2020). “Preliminary Documented Recovery Patterns and Observations from Video Catalogued Data of the 2011 Joplin, Missouri, Tornado.”, Natural Hazards Review, Vol 22(1), doi.org/10.1061/(ASCE)NH.1527-6996.0000425.

Nofal, O.M. and J.W. van de Lindt. (2020). “High-Resolution Approach to Quantify the Impact of Building-Level Flood Mitigation and Adaptation Measures on Flood Losses at the Community-Level.”, International Journal of Disaster Risk Reduction, Volume 51, December 2020, 101903.

Barbosa, A. R., L.G. Rodrigues, A. Sinha, C. Higgins, R. Zimmerman, S. Breneman, S. Pei, J.W. van de Lindt, J. Berman, and E. McDonnell. (2021). “Shake table Experimental testing and Performance of Cross-Laminated Timber Diaphragms.”, ASCE Journal of Structural Engineering, Vol 147(4), doi.org/10.1061/(ASCE)ST.1943-541X.0002914.

Aghababaei, M., C. Okamoto, M. Koliou, T. Nagae, C. Pantelides, K. L. Ryan, A. R. Barbosa, S. Pei, J. W. van de Lindt, and S. Dashti. (2020). “Full-Scale Table Test Damage Data Collection Using Terrestrial Laser-Scanning Techniques.”, ASCE Journal of Structural Engineering, Vol 147(3), doi.org/10.1061/(ASCE)ST.1943-541X.0002905.

Nofal, O.M. and J.W. van de Lindt. (2020). “Minimal Building Flood Fragility and Loss Function Portfolio for Resilience Analysis at the Community-Level.”, Water 2020, 12(8), 2277, doi.org/10.3390/w12082277.

Perry, B., Y. Guo, R. Atadero, and J.W. van de Lindt. (2020). “Streamlined Bridge Inspection System Utilizing Unmanned Aerial Vehicles (UAVs) and Machine Learning Measurement.”, Measurement, 164 (2020), 108048.

Attary, N., H. Cutler, M. Shields, and J.W. van de Lindt. (2020). “The Economic Effects of Financial Relief Delays Following a Natural Disaster.”, Economic Systems Research, Vol 32(3), doi.org/10.1080/09535314.2020.1713729.

van de Lindt, J.W., M. O. Amini, D. Rammer, S. Pei, P. Line, and M. Popovski. (2020). “Seismic Performance Factors for Cross Laminated Timber Shear Wall Systems in the United States.”, ASCE Journal of Structural Engineering, Vol 146(9), doi.org/10.1061/(ASCE)ST.1943541X.0002718.

Nofal, O., J.W. van de Lindt, and T.Q. Do. (2020). “Multi-variate and Single-Variable Flood Fragility and Loss Approaches for Wood Frame Buildings.”, Reliability Engineering and System Safety, DOI: 10.1016/j/ress.2020.106971.

Aghababaei, M., M. Koliou, S. Pilkington, H. Mahmoud, J.W. van de Lindt, A. Curtis, S. Smith, J. Ajayakumar, and M. Watson. (2020). “Validation of Time-Dependent Repair Recovery of the Building Stock following the 2011 Joplin Tornado.”, ASCE Natural Hazards Review, Vol 21(4). doi.org/10.1061/(ASCE)NH.1527-6996.0000408.

Crawford, P. S., A.M. Hainen, A. J. Graettinger, J.W. van de Lindt, and L. Powell. (2020). “Discrete Outcome Analysis of Tornado Damage Using Deep Learning Data Acquisition.”, ASCE Natural Hazards Review, Vol 21(4), doi.org/10.1061/(ASCE)NH.1527-6996.0000396.

Koliou, M. and J.W. van de Lindt. (2020). “Development of Building Restoration Functions for use in Community Recovery Planning to Tornadoes.”, ASCE Natural Hazards Review, Vol 21(2) doi.org10.1061/(ASCE)NH.1527-6996.0000361.

Bahmani, P., J.W. van de Lindt, S.E. Pryor, and G. Mochizuki. (2020). “Performance-Based Seismic retrofit Procedure with Shake table Validation.”, Engineering Structures, 205 (2020) 110012.

Nofal, O. and J.W. van de Lindt. (2020). “Understanding Flood Risk in the Context of Community Resilience: Current Research Needs and Future Research Trends.”, Sustainable and Resilient Infrastructure, doi.org/10.1080/23789689.2020.1722546.

van de Lindt, J.W., W. G. Peacock, J. Mitrani-Reiser, N. Rosenheim, D. Deniz, M. Dillard, T. Tomiczek, M. Koliou, A. Graettinger, P. S. Crawford, K. Harrison, A. Barbosa, J. Tobin, J. Helgeson, L. Peek, M. Memari, E. J. Sutley, S. Hamideh, D. Gu, S. Cauffman, and J. Fung. (2020). “Community Resilience-Focused Technical Investigation of the 2016 Lumberton, North Carolina Flood: An Interdisciplinary Approach.”, ASCE Natural Hazards Review, Vol 21 (3). doi.org/10.1061/(ASCE)NH.1527-6996.0000387.

Granello, G., A. Palermo, S. Pampanin, S. Pei, and J.W. van de Lindt. (2020). “Post-Tensioned Timber Buildings: State of the Art.”, Journal of Structural Engineering, 146(6).

Nofal, O. and J.W. van de Lindt. (2020). “Probabilistic Flood Loss Assessment at the Community Scale: A Case Study of 2016 Flooding in Lumberton, NC.”, ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering, Vol 6(2), doi.org/10.1061/AJRUA6.0001060.

Pilkington, S.F., H.N. Mahmoud, J. W. van de Lindt, M. Koliou, and S. Smith. (2020). “Hindcasting Loss and Evaluating Track Implications of Track Location for the 2011 Joplin, MO Tornado.”, Journal of Risk and Uncertainty in Engineering Systems, Part B: Mechanical Engineering, 6(2), doi.org/10.1115/1.4046326.

Blomgren, H-E, S. Pei, J. Zhibin, J. Powers, J.D. Dolan, J.W. van de Lindt, A. Barbosa and D. Huang. (2019). “Full-scale Shake Table Testing of Cross-Laminated Timber Rocking Shear Walls with Replaceable Components.”, Journal of Structural Engineering, 145 (10), 10.1061/(ASCE)ST.1943-541X.0002388.

Masoomi, H. and J.W. van de Lindt. (2019). “Community-Resilience-Based Design of the Built Environment.”, ASCE-ASME J. Risk Uncertainty Eng. Syst., Part A: Civ. Eng., 2019, 5(1): 04018044.

Deng, P., S. Pei, J.W van de Lindt, M. O. Amini, and H. Liu. (2019). “Lateral behavior of panelized CLT wall: A pushover analysis based on minimal resistance assumption.”, Engineering Structures, Vol 191, pp 469-478, doi.org/10.1016/j.engstruct.2019.04.080.

Pei, S., J.W. van de Lindt, A. Barbosa, J. Berman, E. McDonnell, J.D. Dolan, H-E Blomgren, R. Zimmerman, D. Huang, and S. Wichman. (2019). “Experimental seismic response of a resilient two-story mass timber building with post-tensioned rocking walls.”, ASCE Journal of Structural Engineering, 145(11) 10.1061/(ASCE)ST.1943-541X.0002382.

Attary N., J.W. van de Lindt, A.R. Barbosa, D.T. Cox and V.U. Unnikrishnan. (2019). “Performance-Based Tsunami Engineering for Risk Assessment of Structures Subjected to Multi-Hazards: Tsunami following Earthquake.”, Journal of Earthquake Engineering, doi.org/10.1080/13632469.2019.1616335.

Ameri, M. Reza and J.W. van de Lindt. (2019). “Seismic Performance and Recovery Modeling of Natural Gas Networks at the Community Level using Building Demand.”, ASCE Journal of Performance of Constructed Facilities, 33(4), DOI: 10.1061/(ASCE)CF.1943-5509.0001315.

Do, T., J.W. van de Lindt, and D.T. Cox. (2019). “Hurricane surge-wave building fragility methodology for use with the HAZUS-MH.”, Journal of Structural Engineering, 146146(1), DOI: 10.1061/(ASCE)ST.1943-541X.002472.

Farokhnia, K., J.W. van de Lindt, and M. Koliou. (2019). “Selection of Residential Building Design Requirements to Achieve Community Functionality Goals under Tornado Loading.”, Practice Periodical on Structural Design and Construction, 25(1), doi.org/10.1061/(ASCE)SC.1943-5576.0000464.

Guo, Y. and J.W. van de Lindt. (2019). “Simulation of Hurricane Wind Fields for community Resilience Applications: A Data-Driven Approach Using Integrated Asymmetric Holland Models for Inner and Outer Core Regions.”, ASCE Journal of Structural Engineering, 145(9), DOI: 10.1061/(ASCE)ST.1943-541X.002366.

Kameshwar, S., H. Park, S. Alam, K. Farokhnia, A. Barbosa, D. Cox, and J.W. van de Lindt. (2019). “Probabilistic decision-support framework for community resilience: Incorporating multi-hazards, infrastructure interdependencies, and resilience goals in a Bayesian network.”, Reliability Engineering and System Safety, 191, doi.org/10.1016/j.ress.2019.106568.

Park, H., M.S. Alam, D.T. Cox, A.R. Barbosa, and J.W. van de Lindt. (2019). “Probabilistic seismic and tsunami damage analysis (PSTDA) for the Cascadia Subduction Zone applied to Seaside, Oregon.”, International Journal of Disaster Risk Reduction, 135, DOI: 10.1016/j.ijdrr.2019.101076.

Aaleti, S., J.W. van de Lindt, T. Dao, T. Nguyen, and K. Fridley. (2018). “Seismic Assessment of a Three-Story Wood Building with an Integrated CLT-Lightframe System using RTHS.”, Engineering Structures, 167167, DOI: 10.1016/j.engstruct.2018.01.025.

Bolvardi, V., S. Pei, J.W. van de Lindt, and J.D. Dolan. (2018). “Design of Tall Cross Laminated Timber Platform Buildings with Inter-Story Isolation.”, Engineering Structures, https://doi.org/10.1016/j.engstruct.2017.09.054.

Tannert, T., D. Moroder, J.W. van de Lindt, M. Fragiacomo, M. Follesa, and H. Isoda. (2019). “Seismic Design of Cross-Laminated Timber Buildings.”, Wood and Fiber Science, 50 (Special Issue).

Masoomi, H., J.W. van de Lindt, M.R. Ameri, T.Q. Do, and B.M. Webb. (2018). “Combined Wind-Wave-Surge Hurricane-Induced Damage Prediction for Buildings.”, ASCE Journal of Structural Engineering, 145(1): 04018227, DOI: 10.1061/(ASCE)ST.1943-541X.0002241.

Attary, N., J.W. van de Lindt, H. Mahmoud, and S. Smith. (2018). “Hindcasting Community Level Damage for the Joplin MO 2011 EF5 Tornado: Buildings-Electric Power Network.”, ASCE Natural Hazards Review, 2019, 20(1): 04018027, DOI: 10.1061/(ASCE)NH.1527-6996.0000317.

Amini, M.O., J.W. van de Lindt, D. Rammer, S. Pei, P. Line, and M. Popovski. (2018). “Systematic Experimental Test Results in Support of Seismic Performance Factors for Cross Laminated Timber Shear Wall System.”, Engineering Structures, 172, 392-404, DOI:10.1016/j.engstruct.2018.06.021.

Park, H., T. Do, T. Tomiczek, D.T. Cox, and J.W. van de Lindt. (2018). “Numerical Modeling of Non-Breaking, Impulsive Breaking, and Broken Wave Interaction with Elevated Coastal Structures: Laboratory Validation and Inter-Model Comparison.”, Ocean Engineering, 158, 78-98. DOI:10.1016/j.oceaneng.2018.03.088.

Attary, N., J.W. van de Lindt, H. Mahmoud, S. Smith, C.M. Navarro, Y.W. Kim, and J.S. Lee. (2018). “Hindcasting Community Level Building Damage for the 2011 Joplin EF5 Tornado.”, Natural Hazards, doi.org/10.1007/s11069-018-3353-5.

Masoomi, H. and J.W. van de Lindt. (2018). “Fatality and Injury Prediction Model for Tornadoes.”, ASCE Natural Hazards Review, 19(3): 04018009, DOI: 10.1061/(ASCE)NH.1527-6996.0000295.

Koliou, M., J.W. van de Lindt, and R.O. Hamburger. (2018). “Nonlinear Modeling of Wood-Frame Shear Wall Systems for Performance-Based Earthquake Engineering: Recommendations for the ASCE 41 Standard.”, ASCE Journal of Structural Engineering, 144(8): 04018905, DOI: 10.1061/(ASCE)ST.1943-541X.0002083.

Koliou, M., J.W. van de Lindt, T.P. McAllister, B.R. Ellingwood, M. Dillard, and H. Cutler. (2018). “State of the Research in Community Resilience: Progress and Challenges.”, Sustainable and Resilient Infrastructure, DOI: 10.1080/23789689.2017.1418547.

>Masoomi, H., M.R. Ameri, and J.W. van de Lindt. (2018). “Wind Performance Enhancement Strategies for Woodframe Buildings.”, ASCE Journal of Performance of Constructed Facilities, 32 (3), 10.1061/(ASCE)CF.1943-5509.0001172.

Memari, M., N. Attary, H. Masoomi, H. Mahmoud, J.W. van de Lindt, S.F. Pilkington, and M. Ameri. (2018). “Minimal Building Fragility Portfolio for Damage Assessment of Communities Subjected to Tornadoes.”, ASCE Journal of Structural Engineering, 144 (7): DOI:10.1061(ASCE)ST.1943-541X.0002047.

Masoomi, H., J.W. van de Lindt, and L. Peek. (2018). “Quantifying Socioeconomic Impact of a Tornado by Estimating Population Outmigration as a Resilience Metric at the Community Level.”, ASCE Journal of Structural Engineering, 144 (5): 04018034, DOI: 10.1061/(ASCE)ST.1943-541X.0002019.

van de Lindt, J.W., J. Furley, M.O. Amini, S. Pei, G. Tamagnone, A.R. Barbosa, D. Rammer, P. Line, M. Fragiacomo, and M. Popovski. (2018). “Experimental Seismic Behavior of a two-story CLT platform building.”, Engineering Structures, 183 (2019), 408 – 422, DOI: 10.1016/j.engstruct.2018.12.079.

Amini, M.O., J.W. van de Lindt, D. Rammer, S. Pei, P. Line, and M. Popovski. (2018). “Systematic experimental investigation to support the development of seismic performance factors for cross laminated timber shear wall systems.”, Engineering Structures, 172 (2018) 392- 404, doi.org/10.1016/j.engstruct.2018.06.021.

Tannert, T., D. Moroder, J.W. van de Lindt, M. Fragiacomo, M. Follesa, and H. Isoda. (2018). “Seismic Design of Cross-Laminated Timber Buildings.”, Wood and Fiber Science, 50 (Special Issue), 2018, pp. 3-26.

Alam, M.S., A.R. Barbosa, M.H. Scott, D.T. Cox, and J.W. van de Lindt. (2017). “Development of Physics-based Tsunami Fragility Functions considering Structural Member Failures.”, ASCE Journal of Structural Engineering, DOI: 10.1061/(ASCE)ST.1943-541X.0001953.

Masoomi, H. and J. van de Lindt. (2017). “Restoration and Functionally Assessment of a Community Subjected to Tornado Hazard.”, Structure and Infrastructure, DOI: 10.1080/15732479.2017.1354030.

Sutley, E.J., J.W. van de Lindt, and L. Peek. (2017). “Multihazard Analysis: Integrated Engineering and Social Science Approach.”, Journal of Structural Engineering, DOI: 10.1061(ASCE)ST.1943-541X.0001846.

Tomiczek, T., H. Park, D.T. Cox, J.W. van de Lindt, and P. Lomonaco. (2017). “Experimental Modeling of Horizontal and Vertical Wave Forces on an Elevated Coastal Structure.”, Coastal Engineering, 128, 58-74.

Standohar-Alfano, C.D., J. van de Lindt, and E. Holt. (2017). “Comparative Residential Property Loss Estimation for the April 25-28, 2011 Tornado Outbreak.”, ASCE Journal of Architectural Engineering, DOI: 10.1061/(ASCE)AE.1943-5568.0000283.

Masoomi, H. and J.W. van de Lindt. (2017). “Tornado Community-Level Spatial Damage Prediction Including Pressure Deficit Modeling.”, Journal of Sustainable and Resilient Infrastructure, DOI: 10.1080/23789689.2017.1345254.

Akbas, T., R. Sause, J. M. Ricles, R. Ganey, J. Berman, S. Loftus, J.D. Dolan, S. Pei, J.W. van de Lindt, and H-E Blomgren. (2017). “Analytical and Experimental Lateral Load Response of Self-Centering CLT Walls.”, Journal of Structural Engineering, 143(6): 04017019.

Dao, T. N., J.W. van de Lindt, and T.X. Ho. (2017). “New Nonlinear Lateral-Vertical Coupled Shear Element Model for Use in Finite Element Structural Analysis Applications.”, Engineering Structures, 140 (2017) p 98-109.

Deng, P., S. Pei, J.W. van de Lindt, and C. Zhang. (2017). “Experimental Investigation of Seismic Uncertainty Propagation through Shake Table Tests.”, ASCE Journal of Structural Engineering, 06017009-1.

Bahmani, P., J.W. van de Lindt, A. Iqbal, and D. Rammer. (2017). “Mass Timber Rocking Panel Retrofit of a Four-Story Soft-Story Building with Full-Scale Shake Table Validation.”, Buildings 2017, 7, 48; doi:10.3390/buildings7020048.

Ganey, R., J. Berman, T. Akbas, S. Loftus, J.D. Dolan, R. Sause, J. Ricles, S. Pei, J. van de Lindt, and H-E Blomgren. (2017). “Experimental Investigation of Self-Centering Cross Laminated Timber Walls.”, Journal of Structural Engineering, DOI: 10.1061/(ASCE)ST.1943-541X.0001877.

Deng, P., S. Pei, J.W. van de Lindt, and C. Zhang. (2017). “Uncertainty Quantification for Seismic Responses of Bilinear SDOF Systems: A Semi-Closed Form Estimation.”, Soil Dynamics and Earthquake Engineering, 93, 18-28.

Koliou, M., H. Masoomi, and J.W. van de Lindt. (2017). “Performance Assessment of Tilt-Up Big-Box Buildings Subjected to Extreme Hazards: Tornadoes and Earthquakes.”, ASCE Journal of Performance of Constructed Facilities, DOI: 10.1061/(ASCE)CF.1943-5509.0001059.

Dao, T.N., J.W. van de Lindt, and T.X. Ho. (2017). “New Nonlinear Lateral-Vertical Coupled Shear Element Model for Use in Finite Element Structural Analysis Applications.”, Engineering Structures, 140, 98-109, doi.org/10.1016/j.engstruct.2017.02.064.

Standohar-Alfano, C.D., J.W. van de Lindt, and B.R. Ellingwood. (2017). “Vertical Load Path Failure Risk Analysis of Residential Wood-Frame Construction in Tornadoes.”, ASCE Journal of Structural Engineering, 143(7), 04017045.

Deng, P., S. Pei, J.W. van de Lindt, H. Liu, and C. Zhang. (2017). “An Approach to Quantify Ground Motion Uncertainty for Elastoplastic System Acceleration in Incremental Dynamic Analysis.”, Advances in Structural Engineering, 1369433217693630.

Sutley, E., J.W. van de Lindt, and L. Peek. (2016). “Community Level Framework for Seismic Resiliency I: Coupling Socioeconomic Characteristics and Engineering Building Systems.”, ASCE Natural Hazards Review, 10.1061/(ASCE)NH.1527-6996.0000239.

Sutley,E., J.W. van de Lindt, and L. Peek. (2016). “Community Level Framework for Seismic Resiliency II: Multi-Objective Optimization and Illustrative Examples.”, ASCE Natural Hazards Review, 10.1061/(ASCE)NH.1527-6996.0000230.

Unnikrishnan, V.U. and J.W. van de Lindt. (2016). “Probabilistic Framework for Performance Assessment of Electrical Power Networks to Tornadoes.”, Journal of Sustainable and Resilient Infrastructure, 1:3-4, 137-152.

Ho, T., T. Dao, S. Aaelti, J. van de Lindt, and D. Rammer. (2016). “Hybrid System of Unbonded Post-Tensioned CLT Panels and Light-Frame Wood Shear Walls.”, J. Struct. Eng., 10.1061/(ASCE)ST.1943-541X.0001665, 04016171.

Ellingwood, B.R., H. Cutler, P. Gardoni, W.G. Peacock, J.W. van de Lindt, and N. Wang. (2016). “The Centerville Virtual Community: A Fully Integrated Decision Model of Interacting Physical and Social Infrastructure Systems.”, Journal of Sustainable and Resilient Infrastructure, 1:3-4, 95-107.

Sutley, E. and J. van de Lindt. (2016). “Evolution of Predicted Seismic Performance for Wood-Frame Buildings.”, ASCE J. of Architectural Eng., 10.1061/(ASCE).1943-5568.0000212, B401604.

Koliou, M., J. van de Lindt, and A. Filiatrault. (2016). “Evaluation of an alternative seismic design approach for rigid wall flexible wood roof diaphragm buildings through probabilistic loss estimation and disaggregation.”, Engineering Structures, 127 (11), 31-39.

Attary, N., J. van de Lindt, V.U. Unnikrishnan, A.R. Barbosa, and D.T. Cox. (2016). “Methodology for Development of Physics-Based Tsunami Fragilities.”, Journal of Structural Engineering, 10.1061/(ASCE)ST.1943-541X.0001715. JSE’s 2017 Best Paper in Structural Hazards Award.

Masoomi, H., and J. van de Lindt. (2016). “Tornado fragility and risk assessment of an archetype masonry school building.”, Engineering Structures, 128 (2016), 26-43.

Do, T.Q., J.W. van de Lindt, and D. Cox. (2016). “Performance-Based Design Methodology for Inundated Elevated Coastal Structures Subjected to Wave Load.”, Engineering Structures, j.engstruct.2016.02.046.

Guidotti, R., H. Chmielewski, V.U. Unnikrishnan, P. Gardoni, T. McAllister, and J.W. van de Lindt. (2016). “Modeling the Resilience of Critical Infrastructure: The Role of Network Dependencies.”, Journal of Sustainable and Resilient Infrastructure, 1:3-4, 153-168.

Standohar-Alfano, C.D. and J.W. van de Lindt. (2016). “Risk Analysis for Residential Woodframe Roof Systems to Tornadoes Across the U.S..”, Journal of Structural Engineering, 142(1), 04015099.

Shao, X., W. Pang, C. Griffith, E. Ziaei, and J.W. van de Lindt. (2016). “Development of a Hybrid Controller for Full-Scale Experimental Investigation of Seismic Retrofits for Soft-Story Woodframe Buildings.”, Earthquake Engineering and Structural Dynamics, 45 (8), 1233-1249.

Bright, C., R. Atadero, and J. van de Lindt. (2016). “Concept Development and Evaluation of a New GFRP Reinforcement Geometry for Concrete Beams.”, J. Compos. Constr., 10.1061/(ASCE)CC.1943-5614.0000615,04015049.

Tian, J., M.D. Symans, W. Pang, E. Ziaei, and J.W. van de Lindt. (2015). “Application of Energy Dissipation Devices for Seismic Protection of Soft-Story Woodframe Buildings in Accordance with FEMA P-807 Retrofit Philosophy.”, ASCE Journal of Structural Engineering, 10.1061/(ASCE)ST.1943-541X.0001269 , E4015009. 10.1061/(ASCE)ST.1943-541X.0001269, E4015009.

Jennings, E.N., J.W. van de Lindt, E. Ziaei, P. Bahmani, S. Park, X. Shao, W. Pang, D. Rammer, G. Mochizuki, and M. Gershfeld. (2015). “Full-Scale Experimental Verification of the Soft-Story-Only Woodframe Building Retrofits using Hybrid Testing.”, Journal of Earthquake Engineering, 19 (3).

Nazari, N., J.W. van de Lindt, and Y. Li. (2015). “Quantifying Changes in Structural Design Needed to Account for Aftershock Hazard.”, ASCE Journal of Structural Engineering, 141 (11), 04015035.

Jennings, E.N., E. Ziaei, W. Pang, J.W. van de Lindt, X. Shao, and P. Bahmani. (2015). “Full-Scale Experimental Investigation of an Over-Retrofitted Soft-Story Woodframe Building.”, ASCE Journal of Performance of Constructed Facilities, 10.1061/(ASCE)CF.1943-5509.0000736 , 04015004. 10.1061/(ASCE)CF.1943-5509.0000736, 04015004.

Pei, S., J.W van de Lindt, M. Popovski, J. W Berman, J.D. Dolan, J. M Ricles, R. Sause, H-E Blomgren and D.R Rammer. (2015). “Cross Laminated Timber for Seismic Regions: Progress and Challenges for Research and Implementation.”, Journal of Structural Engineering, 10.1061/(ASCE)ST.1943-541X.0001192 , E2514001. 10.1061/(ASCE)ST.1943-541X.0001192, E2514001.

Bahmani, P., J.W. van de Lindt, G. Mochizuki, M. Gershfeld, and S.E. Pryor. (2014). “Experimental Seismic Collapse Study of a Full-Scale Four-Story Soft-Story Woodframe Building.”, ASCE Journal of Architectural Engineering, 10.1061/(ASCE)AE.1943-5568.0000166 , B4014009. 10.1061/(ASCE)AE.1943-5568.0000166, B4014009.

Song, R., Y. Li, and J.W. van de Lindt. (2014). “Impact of Earthquake Ground Motion Characteristics on Collapse Risk of Post-Mainshock Buildings Considering Aftershock.”, Engineering Structures, 81 (12), 349-361, 10.1016/j.engstruct.2014.09.047. 10.1016/j.engstruct.2014.09.047.

Bahmani, P., J.W. van de Lindt, M. Gershfeld, G. Mochizuki, S.E. Pryor, M., D. Rammer. (2013). “Experimental Seismic Behavior of a Full-Scale Four-Story Soft-Story Woodframe Building I: Building Design and Retrofit Methodology.”, ASCE Journal of Structural Engineering, 10.1061/(ASCE)ST.1943-541X.0001207, E4014003.

Nazari, N.J, J.W. van de Lindt, and Y. Li, (2014). “Effect of Aftershock Intensity on Building Collapse Estimates.”, International Journal of Reliability and Safety, 10.1504/IJRS.2014.069526.

Han, R., Y. Li, and J.W. van de Lindt. (2014). “Assessment of Seismic Performance of Buildings with incorporation of Aftershocks.”, Journal of Performance of Constructed Facilities, 10.1061/(ASCE)CF.1943-5509.0000596 , 04014088. 10.1061/(ASCE)CF.1943-5509.0000596, 04014088.

van de Lindt, J.W., P. Bahmani, G. Mochizuki, S.E. Pryor, M. Gershfeld, J. Tian, D. Rammer, and M.D. Symans. (2013). “Experimental Seismic Behavior of a Full-Scale Four-Story Soft-Story Woodframe Building II: Shake Table Test Results.”, ASCE Journal of Structural Engineering, 10.1061/(ASCE)ST.1943-541X.0001206 , E4014004.

Jennings, E.N., J.W. van de Lindt, E. Ziaei, G. Mochizuki, W. Pang, and X. Shao. (2014). “Retrofit of a Soft-Story Woodframe Building using SMA Devices with Full-Scale Hybrid Test Verification.”, Engineering Structures, 80 (1), 469-485.

Li, Y., R. Song, and J.W. van de Lindt. (2014). “Collapse Fragility of Steel Structures Subjected to Earthquake Mainshock-Aftershock Sequences.”, Journal of Structural Engineering, 140 (12), 04014095.

Do, T., J.W. van de Lindt, and H. Mahmoud. (2014). “Fatigue Life Estimates and Performance-Based Design of Wind Turbine Towers Bases.”, ASCE Journal of Structural Engineering, 10.1061/(ASCE)ST.1943-541X.0001150 , 04014183. 10.1061/(ASCE)ST.1943-541X.0001150, 04014183.

Park, S. and J.W. van de Lindt. (2014). “Genetic Optimization for Seismic Retrofit of Soft-Story Woodframe Buildings using FEMA P-807 Methodology.”, ASCE Journal of Performance of Constructed Facilities, 10.1061/(ASCE)CF.1943-5509.0000637 , 04014153. 10.1061/(ASCE)CF.1943-5509.0000637, 04014153.

Bahmani, P.and J.W. van de Lindt. (2014). “Experimental Study of Layering Sheathing for Woodframe Walls.”, ASCE Journal of Structural Engineering; Special Issue on Seismic Resistant Timber Structures, 10.1061/(ASCE)ST.1943-541X.0001134 , E4014001. 10.1061/(ASCE)ST.1943-541X.0001134, E4014001.

Dao, T. and J. van de Lindt. (2014). “Numerical Seismic Performance of an Innovative CFS Midrise Building Designed Using DDD.”, Journal of Performance Constructed Facilities, Vol 28 (5), 04014018.

Han, R., Y. Li, and J.W. van de Lindt. (2014). “Seismic Risk of Base Isolated Non-Ductile Reinforced Concrete Buildings Considering Uncertainties and Mainshock-Aftershock Sequences.”, Structural Safety, 50 (9), 39–56.

Do, T., H. Mahmoud, and J.W. van de Lindt. (2014). “Sensitivity of Wind Turbine Tower Base Fatigue Life to Locations in Colorado.”, ASCE Journal of Performance of Constructed Facilities, 10.1061/(ASCE)CF.1943-5509.0000612 , 04014109. 10.1061/(ASCE)CF.1943-5509.0000612, 04014109.

Shao, X., J.W. van de Lindt, P. Bahmani, W. Pang, E. Ziaei, M.D. Symans, J. Tian, and T. Dao. (2014). “Real Time Hybrid Simulation of a Multi-Story Wood Shear Wall with First-Story Experimental Substructure Incorporating a Rate-Dependent Seismic Energy Dissipating Device.”, Special Issue on Real Time Hybrid Testing in Smart Structures and Systems, Vol 14, No. 6 (2014) 1031-1054.

Song, R., Y. Li, and J.W. van de Lindt. (2014). “Assessment of Seismic Performance of Buildings with Incorporation of Aftershocks.”, ASCE Journal of Performance of Constructed Facilities, 10.1061/(ASCE)CF.1943-5509.0000596 , 04014088. 10.1061/(ASCE)CF.1943-5509.0000596, 04014088.

van de Lindt, J.W. and Y. Jiang. (2014). “Regressive Model for Friction Pendulum Isolation Bearing Selection Based on Woodframe Building Performance.”, ASCE Structural Design and Construction, 19 (3), 04014010.

Standohar-Alfano, C. and J.W. van de Lindt. (2014). “An Empirically-Based Probabilistic Tornado Hazard Analysis of the U.S. using 1973-2011 Data.”, ASCE Natural Hazards Review, 10.1061/(ASCE)NH.1527-6996.0000138 , 16 (1), 04014013. 10.1061/(ASCE)NH.1527-6996.0000138, 16 (1), 04014013.

Nazari, N., J.W. van de Lindt, and Y. Li. (2013). “Effect of Mainshock-Aftershock Sequences on Woodframe Building Damage Fragilities.”, ASCE Journal of Performance of Constructed Facilities, 10.1061/(ASCE)CF.1943-5509.0000512 , 29 (1), 04014036. 10.1061/(ASCE)CF.1943-5509.0000512, 29 (1), 04014036.

Jennings, E. and J.W. van de Lindt. (2014). “Numerical Seismic Retrofit Study of Light-frame Wood Buildings using Shape Memory Alloy Devices for Response Modification.”, ASCE Journal of Structural Engineering, 140 (7), 04014041.

Pei, S., J.W. van de Lindt, S. Hartzell, and N. Luco. (2014). “Variability in Woodframe Building Damage using Broadband Synthetic Ground Motion: A Comparative Numerical Study with Recorded Motions.”, Journal of Earthquake Engineering, 10 (3), 389-406.

Amini, M.O. and J.W. van de Lindt. (2014) “Quantitative Insight into a Rational Tornado Design Wind Speed for Woodframe Residential Design using a Fragility Approach.”, ASCE Journal of Structural Engineering, 140 (7), 04014033.

Linton, D., R. Gupta, D. Cox, and J.W. van de Lindt. (2013). “Load Distribution in Light-Frame Wood Buildings under Experimentally Simulated Tsunami Loads.”, ASCE Journal of Performance of Constructed Facilities, 10.1061/(ASCE)CF.1943-5509.0000487 , 29 (1), 04014030. 10.1061/(ASCE)CF.1943-5509.0000487, 29 (1), 04014030.

Bahmani, P., J. van de Lindt, and T.N. Dao. (2014). “Displacement-Based Design of Buildings with Torsion: Theory and Verification.”, ASCE Journal of Structural Engineering, Vol 140 (6), 04014020.

Park, S., J.W. van de Lindt, and Y. Li. (2014). “ABV Hybrid Procedure for Hurricane Wind-Surge Loss Analysis.”, Journal of Performance of Constructed Facilities, 28 (2), 206-215.

Pei, S., J.W. van de Lindt, M. Popovski. (2013). “Approximate R-Factor for Cross Laminated Walls in Multi-Story Buildings.”, ASCE Journal of Architectural Engineering, 19 (4), 245-255.

Pei, S., M. Popovski, and J.W. van de Lindt. (2013). “Analytical Study on Seismic Force Modification Factors for Cross Laminated Timber Buildings for NBCC.”, Canadian Journal of Civil Engineering, 40 (9), 887-896.

Park, S., J.W. van de Lindt, D. Cox, and R. Gupta. (2013). “Concept of Community Survival Fragilities for Tsunami Coastal Inundation.”, ASCE Natural Hazards Review, 14 (4), 220-228.

Li, Y., R. Song, J.W. van de Lindt, and N. Luco. (2013). “Collapse Fragility of Steel Structures Subjected to Earthquake Mainshock-Aftershock Sequences.”, Journal of Structural Engineering, DOI:10.1061/(ASCE)ST.1943-541X.0001019.

Park, S., J.W. van de Lindt, and Y. Li. (2013). “Application of the Hybrid ABV Procedure for Assessing Community Risk to Hurricanes Spatially.”, Natural Hazards, 68 (2), 981-1000.

Pei, S., J. W van de Lindt, N. Wehbe, and H. Liu. (2013). “Experimental Study of Collapse Limits for Woodframe Shear Walls.”, ASCE Journal of Structural Engineering, 139 (9); 1489-1497.

Linton, D., R. Gupta, D. Cox, J.W. van de Lindt, M.E. Oshnack, and M. Clauson. (2013). “Tsunami Wave Forces on a Wood Wall at Full-Scale.”, ASCE Journal of Structural Engineering, 139 (8), 1318-1325. 2015 ASCE Raymond C. Reese Research Prize.

Dao, T.N. and J.W. van de Lindt. (2013). “Seismic Performance of an Innovative Light-Frame Cold-Formed Steel Frame for Mid-Rise Construction.”, ASCE Journal of Structural Engineering, 139 (5), Special Issue: Cold-Formed Steel Structures, 837-848.

Lucksiri, K., T.H. Miller, R. Gupta, S, Pei, and J.W. van de Lindt. (2013). “Rapid Screening for Plan Irregularity in Single-Family, Wood-Frame Dwellings.”, Journal of Earthquake Engineering, 17 (2013); 497-516.

van de Lindt, J.W., S. Pei, T.N. Dao, A. Graettinger, D.O. Prevatt, R. Gupta, and W. Coulbourne. (2013). “Dual Objective-Based Tornado Design Philosophy.”, ASCE Journal of Structural Engineering, 139 (2); 251-263.

Vengala, J. and J.W. van de Lindt. (2013). “Seismic Performance of Single Family Dwellings Constructed using Bamboo-Mortar Composite.”, Asian Journal of Civil Engineering, 14 (1), 33-45.

van de Lindt, J.W., D.V. Rosowsky, W. Pang, and S. Pei. (2013). “Performance-Based Seismic Design of Mid-Rise Woodframe Buildings.”, ASCE Journal of Structural Engineering, 139 (8), 1294-1302.

Prevatt, D.O., J.W. van de Lindt, E.W. Back, A.J. Graettinger, S. Pei, R. Gupta, W, Coulbourne, D. James, and D. Agdas. (2012). “Making the Case for Improved Structural Design: The Tornado Outbreaks of 2011.”, ASCE Journal of Leadership and Management in Engineering, 12 (4), 254-270.

van de Lindt, J.W., M.O. Amini, C. Standohar-Alfano, and T.N. Dao. (2012). “Systematic Study of the Loss of a Residential Roof System in a Tornado.”, Buildings, 2012 (2); 519-533.

Park, S., J.W. van de Lindt, R. Gupta, and D. Cox. (2012). “Method to Determine Location for Tsunami Vertical Evacuation Shelters.”, Natural Hazards, 63 (2), 891-908.

Li, Y. and J.W. van de Lindt. (2012). “Loss-Based Formulation for Multiple Hazards with Application to Residential Buildings.”, Engineering Structures, 38 (2012), 123-133.

Park, S., J.W. van de Lindt, D. Cox, R. Gupta, and F. Aguiniga. (2012). “Successive earthquake-tsunami analysis to develop collapse fragilities.”, Journal of Earthquake Engineering, 16 (2012); 851-863.

Dao, T.N., J.W. van de Lindt, D. Prevatt, and R. Gupta. (2012). “Probabilistic Procedure for Wood-frame Roof Sheathing Panel Debris Impact to Windows in Hurricanes.”, Engineering Structures, 35 (2), 178-187.

Dao, T.N. and J.W. van de Lindt. (2012). “Loss Analysis for Woodframe Buildings During Hurricanes I: Structure and Hazard Modeling.”, ASCE Journal of Performance of Constructed Facilities, 26 (6), 729-738.

van de Lindt, J.W. and T.N. Dao. (2012). “Loss Analysis for Woodframe Buildings During Hurricanes. II: Loss Estimation.”, ASCE Journal of Performance of Constructed Facilities, 26 (6), 739-747.

Lucksiri, K., T.H. Miller, R. Gupta, S. Pei, and J.W. van de Lindt. (2012). “Effect of Plan Configuration on the Seismic Performance of Wood-Frame, Single Family Dwellings.”, Natural Hazards Review, 13 (1).

Li, Y., J.W. van de Lindt, T.N. Dao, S. Bjarnadottir, and A. Ahuja. (2012). “Loss Analysis for Combined Wind and Surge in Hurricanes.”, ASCE Natural Hazards Review, 13 (1), 1-10.

Martin, K., R. Gupta, D. Prevatt, P.L. Datin, J.W. van de Lindt. (2012). “Evaluation of System Effects and Structural Load Paths in a Wood Framed Structure.”, ASCE Journal of Architectural Engineering, J. Archit. Eng., 17, 134.

van de Lindt, J.W., S. Pei, W. Pang, and S. Sharazi. (2012). “Collapse testing and Analysis of a Light-Frame Wood garage Wall.”, 138(4), 492-501.

Wu, J., S. Chen, and J.W. van de Lindt. (2012). “Fatigue Assessment of Slender Long Span Bridges: A Reliability Approach.”, Journal of Bridge Engineering, 17 (1), 47-57.

van de Lindt, J.W., R. Gupta, S. Pei, K. Tachibana, Y. Araki, D. Rammer, and H. Isoda. (2012). “Damage assessment of a Full-Scale Six-Story Light-Frame Wood Building Following Tri-Axial Shake Table Tests.”, ASCE Journal of Performance of Constructed Facilities, 26 (1), 1-9.

Pei, S. and J.W. van de Lindt. (2011). “Numerical Modeling of a Six-Story Light-Frame Wood Building: Comparison with Experiments.”, Journal of Earthquake Engineering, 15 (2011); 924-941.

van de Lindt, J.W. and R.K. Rechan. (2011). “Seismic Performance Comparison of a High Content SDA Frame and Standard RC Frame.”, Advances in Civil Engineering, Volume 2011 (2011), Article ID 478475.

van de Lindt, J.W., S.E. Pryor, and S. Pei. (2011). “Shake Table Testing of a Full-Scale Seven-Story Steel-Wood Apartment Building.”, Engineering Structures, 33 (3), 757-766.

Riley, C.E., R. A. Atadero, J.W. van de Lindt, and P. R. Heyliger. (2011). “Cementitous SDA-Tire Fiber Material for Maximizing Waste Product Diversion.”, Advances in Civil Engineering, Volume 2011 (2011), Article ID 354305.

Goode, J.S. and J.W. van de Lindt. (2011). “Reliability-Based Design of Medium Mast Lighting Structural Supports.”, Structure and Infrastructure Engineering, DOI: 10.1080/15732479.2011.598170.

Mensah, A.F., P.L. Datin, D.O. Prevatt, R. Gupta, and J.W. van de Lindt. (2011). “Database-Assisted Design Methodology to Predict Wind-Induced Structural Behavior of a Light-Framed Wood Building.”, Engineering Structures, 33 (2), 674-684.

Liu, S. and J.W. van de Lindt. (2011). “Prescriptive Approach to the Performance-Based Seismic Design of Low-Rise Residential Buildings.”, ASCE Journal of Performance of Constructed Facilities, 25 (4), 268-276.

Pei, S., J.W. van de Lindt, C. Ni, and S.E. Pryor. (2011). “Seismic Behavior of a Five-Story Double-Midply Wood Shear Wall Stack within a Full-Scale Building.”, Canadian Journal of Civil Engineering, 37 (9), 1261-1269.

Ni, C., S. Pei, J.W. van de Lindt, S. Kuan, and M. Popovski. (2011). “Nonlinear Time History Analysis of Six-Story Wood Platform Frame Buildings in Vancouver, B.C..”, Earthquake Spectra, 28 (2), 621-637.

van de Lindt, J.W., H. Liu, M.D. Symans, and J. Shinde. (2010). “Seismic Performance of a Half-Scale Base Isolated Wood Frame Building.”, Journal of Earthquake Engineering, 15 (3), 469-490.

van de Lindt, J.W., S. Pei, S.E. Pryor, H. Shimizu, and H. Isoda. (2010). “Experimental Seismic Response of a Full-Scale Six-Story Light-frame Wood Building.”, ASCE Journal of Structural Engineering, 13 (10), 1262-1272. American Society of Civil Engineers Raymond C. Reese Research Prize.

van de Lindt, J.W., S. Pei, W. Pang, and D.V. Rosowsky. (2010). “IDA Comparison of an IBC-Designed and the DDD Six-Story NEESWood Building.”, ASCE Journal of Performance of Constructed Facilities, 25 (2), 138-142.

van de Lindt, J.W. and T.N. Dao. (2010). “Construction Quality Issues in Performance-Based Wind Engineering: Effect of Missing Fasteners.”, Wind and Structures, 13(3), 221-234.

Black, G., R.A. Davidson, S. Pei, and J.W. van de Lindt. (2010). “Empirical Loss Analysis to Support Selection of Seismic Performance Objectives in Woodframe Building Design.”, Structural Safety, 32 (3), 209-219.

van de Lindt, J.W. and A. Stone. (2010). “Rapid Girder Selection and Cost Estimation for Simple Made Continuous Steel Bridge Design.”, ASCE Practice Periodical on Structural Design and Construction, 15 (4), 287-293).

Pang, W., D.V. Rosowsky, S, Pei, and J.W. van de Lindt. (2010). “Simplified Direct Displacement Design of a Six-Story Woodframe Building and Pre-Test Performance Assessment.”, Journal of Structural Engineering, 136 (7), 813-825.

Dao, T.N. and J.W. van de Lindt. (2010). “Methodology for Probabilistic Modeling and Quantification of Wind-Driven Rain Water Intrusion to Roof Systems During Hurricanes.”, ASCE Journal of Structural Engineering, 136 (6), 700-706.

van de Lindt, J.W., S. Pei, H. Liu, and A. Filiatrault. (2010). “Seismic Response of a Full-Scale Light-Frame Wood Building: A Numerical Study.”, ASCE Journal of Structural Engineering, 136 (1), 56-65.

Filiatrault, A, I. Christovasilis, A. Wanitkorkul, and J.W. van de Lindt. (2010). “Experimental Seismic Response of a Full-Scale Light-Frame Wood Building.”, ASCE Journal of Structural Engineering, 136 (3), 246-254.

Pei, S. and J.W. van de Lindt. (2010). “Influence of Structural Properties and Hazard Level in Seismic Loss Estimation.”, Engineering Structures: The Journal of Earthquake, Wind, and Ocean Engineering, 32 (8), 2183-2191.

Stone, A., J.W. van de Lindt, and S. Chen. (2010). “Design and Costs for Rolled Section Simple-Made-Continuous Steel Bridges: A Literature Review.”, ASCE Practice Periodical on Structural Design and Construction, 15 (3), 231-235.

Oshnack, M.B., F. Aguiniga, D. Cox, R. Gupta, and J.W. van de Lindt. (2009). “Experimental Measure of the Effectiveness of Small Seawalls in Reducing Tsunami Forces.”, Journal of Disaster Research, 4 (6), 382-390.

van de Lindt, J.W., R. Gupta, D.T. Cox, and J.S. Wilson. (2009). “Wave Impact Study on a Residential Building.”, Journal of Disaster Research, 4 (6), 419-426.

van de Lindt, J.W. and T.N. Dao. (2009). “Performance-Based Wind Engineering for Woodframe Buildings.”, ASCE Journal of Structural Engineering, 135 (2), 169-177.

Wilson, J, R. Gupta, J.W. van de Lindt, M. Clauson, and R. Garcia. (2009). “Behavior of a One-Sixth Scale, Wood-Framed Residential Structure Under Wave Loading.”, ASCE Journal of Performance of Constructed Facilities, 23 (5), 336-345.

Pei, S. and J.W. van de Lindt. (2009). “Methodology for Long-Term Seismic Loss Estimation: An Application to Woodframe Buildings.”, Structural Safety, 31 (2009), 31-42.

Park, S. and J.W. van de Lindt. (2009). “Seismic Fragilities for Light-Frame Wood Buildings Based on Visually Determined Damaged Indices.”, ASCE Journal of Performance of Constructed Facilities, 23 (5), 346-352.

van de Lindt, J.W., R. Gupta, R. Garcia, and J. Wilson. (2009). “Tsunami Bore Forces on a Compliant Residential Building Model.”, Engineering Structures, 31 (2009), 2534-2539.

van de Lindt, J.W. and M. Taggart. (2009). “Fragility Analysis Framework for Performance-Based Analysis of Wood Frame Buildings for Flood.”, ASCE Natural Hazards Review, 10 (3), 113-123.

Pei S. and J.W. van de Lindt. (2009). “Coupled Shear-Bending Formulation for Seismic Analysis of Stacked Shear Wall Systems.”, Earthquake Engineering and Structural Dynamics, 38 (2009), 1631-1647.

van de Lindt, J.W., Y. Li, W.M. Bulleit, R. Gupta, and P. I. Morris. (2009). “The Next Step for ASCE 16 : Performance-Based Design of Wood Structures.”, ASCE Journal of Structural Engineering, 135 (6), 611-618.

Pei S. and J.W. van de Lindt. (2009). “Systematic seismic design of woodframe structures for manageable loss.”, Earthquake Spectra, 25 (4), 851-868.

Taggart, M. and J.W. van de Lindt. (2009). “Design of Residential Buildings for Flood Based on Manageable Loss.”, ASCE Journal of Performance of Constructed Facilities, 23 (2), 56-64.

van de Lindt, J.W., J.A.H. Cararro, P.R. Heyliger, and C. Choi. (2008). “Application and Feasibility of Coal Fly Ash for Wood Wall Insulation in Residential Buildings.”, Resources, Conservation & Recycling, Vol 52 (10), 1235-1240.

van de Lindt, J.W. and A. Potts. (2008). “Shake Table Testing of a Superelastic Shape Memory Alloy Response Modification Device in a Wood Shearwall.”, ASCE Journal of Structural Engineering, 134 (4), 1343-1352.

Dao, T.N. and J.W. van de Lindt. (2008). “New Roof Sheathing Nail Model for use in FE Wind Applications.”, ASCE Journal of Structural Engineering, 134 (10), 1668-1674.

van de Lindt, J.W. and R. Atadero. (2008). “Shake Table Test Results for a Half-Scale Indonesian RC House with and without Economical Base Isolation.”, The Asian Journal of Civil Engineering, 9 (1), 1-14.

van de Lindt, J.W. (2008). “Experimental Investigation of the Effect of Multiple Earthquakes on Woodframe Structural Integrity.”, ASCE Practice Periodical on Structural Design and Construction, 13 (3), 111-117.

van de Lindt and J.W., S. Pei, and H. Liu. (2008). “Performance-Based Seismic Design of Woodframe Buildings using a System Identification Concept.”, ASCE Journal of Structural Engineering, 134 (2), 240-247.

van de Lindt, J.W. (2008). “Energy-Based Similitude for Dynamic Scaling of Woodframe Structures.”, Journal of Earthquake Engineering, 12 (2), 281-292.

van de Lindt, J.W. and T.N. Dao. (2007). “Evolutionary Algorithm for Performance-Based Shearwall Design in Buildings Subjected to Multiple Load Types.”, ASCE Journal of Structural Engineering, 133 (8), 1156-1167.

van de Lindt, J.W. (2007). “Experimental Behavior of Mechanical In-Flange Connectors.”, The Open Civil Engineering Journal, 2007 (1), 13-24.

Pang, W., D.V. Rosowsky, S. Pei, and J.W. van de Lindt. (2007). “Evolutionary Parameter hysteretic Model for PBSD Applications.”, ASCE Journal of Structural Engineering, 133 (8), 1118-1129.

Agarwal, V.K., J.M. Niedzwecki, and J.W. van de Lindt. (2007). “Earthquake Induced Pounding in Friction Varying Base Isolated Buildings.”, Engineering Structures: The Journal of Earthquake, Wind, and Ocean Engineering, 2007 (29), 2825-2832.

Goode, J.S. and J.W. van de Lindt. (2007). “Development of a Semi-Prescriptive Selection Procedure for Reliability-Based Fatigue Design of High Mast Lighting Structural Supports.”, ASCE Journal of Performance of Constructed Facilities, 21 (3), 193-206.

van de Lindt J.W. and H. Liu. (2007). “Non-Structural Elements in Performance-Based Seismic Design of Woodframe Structures.”, ASCE Journal of Structural Engineering, 133 (3), 432-439.

van de Lindt, J.W., H. Liu, and S. Pei. (2007). “Performance of a Woodframe Structure During Full-Scale Shake Table Tests: Drift, Damage, and Effect of Partition Wall.”, ASCE Journal of Performance of Constructed Facilities, 21 (1), 35-43.

van de Lindt, J.W., A. Graettinger, R. Gupta, T. Skaggs, S. Pryor, and K. Fridley. (2007). “Performance of Woodframe Structures During Hurricane Katrina.”, ASCE Journal of Performance of Constructed Facilities, 21 (2), 108-116. Nominated for the Journals 2007 Outstanding Paper Award.

van de Lindt, J.W. and M.W. Drewek. (2007). “Inverse-FORM Modeling for Initial Seismic Retrofit.”, International Journal of Modeling and Simulation, 27 (3), 1-11.

van de Lindt, J.W. and S. Pei. (2006). “Buckling Reliability of Deteriorating Steel Beam Ends.”, Electronic Journal of Structural Engineering, 2006 (6), 1- 7.

van de Lindt, J.W. and R. Gupta. (2006). “Damage and Damage Prediction for Wood Shearwalls Subjected to Simulated Earthquake Loads.”, ASCE Journal of Performance of Constructed Facilities, 20 (2), 176-184.

van de Lindt, J.W. (2005). “Modeling Earthquake Risk Based on Approximate Nonlinear Reliability Estimates.”, International Journal of Modeling and Simulation, 25 (3), 202-209.

van de Lindt, J.W., T.M. Ahlborn, and S. Kethu. (2005). “Alternate Approach to Approximate Deteriorated Steel Beam End Capacity.”, Transportation Research Record: Journal of the Transportation Research Board, 2005.

van de Lindt, J.W., J.N. Huart and D.V. Rosowsky. (2005). “Strength-Based Seismic Reliability of Wood Shearwalls.”, ASCE Journal of Structural Engineering, 131 (8), 1307-1312.

van de Lindt, J.W., T.M. Ahlborn, and M.E. Lewis. (2005). “Practical Fatigue/Cost Assessment of Steel Overhead Sign Support Structures Subjected to Wind Load.”, Wind and Structures, an International Journal, 8 (5), 343-356.

van de Lindt, J.W. and H.A. de Melo e Silva. (2005). “Uniform Serviceability Load Limits for Mechanical Flange Connectors.”, ASCE Practice Periodical on Structural Design and Construction, 10 (1), 34-39.

van de Lindt, J.W., G. Fu, Y. Zhou, and R.M. Pablo Jr. (2005). “Locality of Truck Loads and Adequacy of Bridge Design Loads.”, ASCE Journal of Bridge Engineering, 10 (5), 622-629.

van de Lindt, J.W. (2005). “Damage-Based Seismic Reliability Concept for Woodframe Structures.”, ASCE Journal of Structural Engineering, 131 (4), 668-675.

van de Lindt, J.W. and D.V. Rosowsky. (2005). “Strength-Based Reliability of Wood Shearwalls Subjected to Wind Load.”, ASCE Journal of Structural Engineering, 131 (2), 359-363.

van de Lindt, J.W. and J.M. Niedzwecki (2005). “Structural Response and Reliability Estimates: A Slepian Model Approach.”, ASCE Journal of Structural Engineering, 131 (10), 1620-1628.

van de Lindt, J.W. and G-H Goh. (2004). “Effect of Total Earthquake Duration on Structural Reliability.”, Engineering Structures, 26 (2004), 1585-1597.

van de Lindt, J.W. and G. Goh. (2004). “An Earthquake Duration Effect on Structural Reliability.”, Journal of Structural Engineering, 130 (5), 821-826.

van de Lindt, J.W. (2004). “Evolution of Wood Shear Wall Testing, Modeling, and Reliability Analysis: A Bibliography.”, ASCE Practice Periodical on Structural Design and Construction, 9 (1), 44-53.

Ahlborn, T.M., J.W. van de Lindt, and M.E. Lewis. (2004). “Cost and Performance Comparison of the Nation’s Overhead Sign Support Structures.”, Transportation Research Record: Journal of the Transportation Research board, 2004.

van de Lindt, J.W. and M.A. Walz. (2003). “Development and Application of a Wood Shear Wall Reliability Model.”, ASCE Journal of Structural Engineeringi, 129 (3), 405-413.

van de Lindt, J.W. and J. M. Niedzwecki. (2002). “An Inverse-Reliability Approach to Generating Composite Seismic Response Spectra.”, International Journal of Modeling and Simulation, 22 (1), 47-56.

van de Lindt, J.W. and J.M. Niedzwecki. (2000). “Methodology for Reliability-Based Design Earthquake Identification.”, ASCE Journal of Structural Engineering, 126 (12), 1420-1426.

van de Lindt, J.W. and J.M. Niedzwecki. (2000). “Environmental Contour Analysis in Earthquake Engineering.”, Engineering Structures, 2000 (12), 1661-1676.

Niedzwecki, J.M., J.W. van de Lindt, J.H. Gage, and P.S. Teigen. (2000). “Design Estimates of Surface Wave Interaction with Compliant Deepwater Platforms.”, Journal of Ocean Engineering, 2000 (27), 867-888.

van de Lindt, J.W. and J.M. Niedzwecki. (1999). “Reliability Estimates for Multi-peaked Random Seas.”, International Journal of Offshore and Polar Engineering, 9 (3), 12-17.

Niedzwecki, J.M., J.W. van de Lindt, and E.W. Sandt. (1999). “Characterizing Random Wave Surface Elevation Data.”, Journal of Ocean Engineering, 1999 (26), 401-430.

Niedzwecki, J.M., J.W. van de Lindt, and J.T.P. Yao. (1998). “Estimating Extreme Tendon Response Using Environmental Contours.”, Engineering Structures, 1998 (7), 601-607.