Jorge X. Santiago-Hernandez, Anaira Román Santiago, Ryan A. Catarelli, Brian M. Phillips, Luis D. Aponte-Bermúdez, Forrest J. Masters (2022). Predicting topographic effect multipliers in complex terrain with shallow neural networks,Frontiers in Built Environment. 8 doi: 10.3389/fbuil.2022.762054
Lu, Wei-Ting, Phillips, Brian M., and Jiang, Zhaoshuo (2023). Effects of side and corner modification on the aerodynamic behavior of high-rise buildings considering serviceability and survivability,Journal of wind Engineering and Industrial Aerodynamics. https://doi.org/10.1016/j.jweia.2023.105324
Tang, Z., Wu, L., Zuo, D. and James, D.L. (2022). A comparison of internal pressure of low-rise building models tested in a boundary layer wind tunnel and a tornado simulator.,Journal of Wind Engineering and Industrial Aerodynamics. https://doi.org/10.1016/0167-6105(90)90116-T
Whiteman, M.L., Fernández-Cabán, P.L., Phillips, B.M., Masters, F.J., Davis, J.R., Bridge, J.A. (2021). Cyber-physical aerodynamic shape optimization of a tall building in a wind tunnel using an active fin system,Journal of Wind Engineering and Industrial Aerodynamics. https://doi.org/10.1016/j.jweia.2021.104835
Tian, J., Gurley, K., Diaz, M., Fernandez-Caban, P., Masters, F., Gurley, K., Fang, R. (2020). Low-rise gable roof buildings pressure prediction using deep neural networks,Journal of Wind Engineering and Industrial Aerodynamics. 196(104026) https://doi.org/10.1016/j.jweia.2019.104026
Fernández-Cabán, P.L., Whiteman, M.L., Phillips, B.M., Masters, F.J., Bridge, J.A., and Davis, J.R. (2020). Cyber-physical design and optimization of tall building dynamics using aeroelastic wind tunnel modeling,Journal of Wind Engineering and Industrial Aerodynamics. 198(104092) https://doi.org/10.1016/j.jweia.2020.104092
Catarelli, R.A., Fernández-Cabán, P.L., Phillips, B., Bridge, J.A., Masters, F.J., Gurley, K.R., Prevatt, D.O. (2020). Automation and New Capabilities in the University of Florida NHERI Boundary Layer Wind Tunnel,Frontiers in Built Environment. 6(166) https://doi.org/10.3389/fbuil.2020.558151
Catarelli, R.A., Fernández-Cabán, P.L., Masters, F.J., Bridge, J.A., Gurley, K.R., and Matyas, C.J. (2020). Automated terrain generation for precise atmospheric boundary layer simulation in the wind tunnel,Journal of Wind Engineering and Industrial Aerodynamics. 207(104276) https://doi.org/10.1016/j.jweia.2020.104276
Zhao, H., Grigoriu, M. and Gurley, K.R. (2019). Translation processes for wind pressures on low-rise buildings,Journal of Wind Engineering and Industrial Aerodynamics. 184(405-416) https://doi.org/10.1016/j.jweia.2018.12.007
DeMello, N.J, Bridge, J.A., Consolazio, G.R., Gurley, K. and Smith, J. (2019). Investigation of Aerodynamic Shielding between Traffic Control Attachments and Mast-Arm Support Structures,Engineering Structures. 201(109784) https://doi.org/10.1016/j.engstruct.2019.109784
Whiteman, M.L., Fernández-Cabán, P.L., Phillips, B.M., Masters, F.J., Bridge, J.A., and Davis, J.R. (2018). "Multi-objective optimal design of a building envelope and structural system using cyber-physical modeling in a wind tunnel." Frontiers in Built Environment, March 22. https://doi.org/10.3389/fbuil.2018.00013
Whiteman, M.L., Phillips, B.M., Fernández-Cabán, P.L., Masters, F.J., Bridge, J.A., and Davis, J.R. (2018). "Optimal design of structures using cyber-physical wind tunnel experiments with mechatronic models." J. Wind Engineering and Industrial Aerodynamics. https://doi.org/10.1016/j.jweia.2017.11.013
Fernández-Cabán, P.L. and Masters, F.J. (2018). "Effects of Freestream Turbulence on the Pressure Acting on a Low-Rise Building Roof in the Separated Flow Region," Frontiers Built Environ. https://doi.org/10.3389/fbuil.2018.00017
Fernandez-Caban, P.L., Masters, F.J., Phillips, B. "Predicting roof pressures on a low-rise structure from freestream turbulence using artificial neural networks," Frontiers in Built Environment, November 27, 2018. https://doi.org/10.3389/fbuil.2018.00068
Fernández-Cabán, P.L., and Masters, F.J., (2017). "Near surface wind longitudinal velocity positively skews with increasing aerodynamic roughness length." Journal of Wind Engineering and Industrial Aerodynamics, 169, 94105. https://doi.org/10.1016/j.jweia.2017.06.007
Fernández-Cabán, P.L. and Masters, F.J. (2020). Experiments in a Large Boundary Layer Wind Tunnel: Upstream Terrain Effects on Surface Pressures Acting on a Low-Rise Structure,ASCE Journal of Structural Engineering. doi:10.17603/DS2W670
Lopez, J., Roueche, D., Prevatt, D., (2019). CAREER Tornado Resiliance Structural Retrofit for Sustainable Housing Communities,DesignSafe-CI.
Masters, Forrest, (2018-07-05), "1055744 CAREER: Behavior of Hurricane Wind and Wind-Driven Rain in the Coastal Suburban Roughness Sublayer", DesignSafe-CI, https://doi.org/10.17603/DS2110K
Wojtkiewicz, S.F., Christenson, S., (2020). Aeroelastic Real-Time Hybrid Simulation - A New Concept for Wind Engineering Testing,DesignSafe-CI. http:// 10.17603/ds2-zxwk-2f93
Jorge Santiago-Hernandez; Anaira Román Santiago; Edward Cruz Garcia; Ryan Catarelli; Brian Phillips; Luis Aponte-Bermudez; Forrest Masters (2022). Predicting Topographic Effect Multiplier Profiles Over Complex Terrain With Neural Networks,ACWE14. doi: 10.3389/fbuil.2022.762054
Mariel Ojeda-Tuz, Mohit Chauhan, Ryan Catarelli, Michael Shields,Kurtis Gurley (2022). Equivalent Turbulence Profiles from Randomized Terrain in a Boundary Layer Wind Tunnel,EMI/PMC 2022.
Mariel Ojeda-Tuz; Mohit Chauhan; Ryan Catarelli ; Michael Shields ; Kurtis Gurley (2022). Equivalent Turbulence Profiles From Randomized Terrain In A Boundary Layer Wind Tunnel,ACWE14.
Mohit Singh Chauhan, Mariel Ojeda-Tuz, Ryan Catarelli, Kurtis Gurley, Michael Shields (2022). Active Learning for Global Sensitivity Analysis,EMI/PMC 2022.
Mohit Chauhan; Mariel Ojeda-Tuz; Ryan Catarelli; Kurtis Gurley; Michael Shields (2022). Active Machine Learning In Large Scale Wind Tunnel Experiments,ACWE14. Publication
Nasrollah Alinejad; Sejin Kim; Sungmoon Jung (2022). Effect of Upwind Roughness Change On The Pressure of A Low-Rise Model In Wind Tunnel,ACWE14.
Pedro L. Fernández-Cabán, Ryan A. Catarelli (2022). Large-Scale Turbulence Modulation in the Wind Tunnel Using a Multi-Fan Flow Control Instrument,EMI/PMC 2022.
Ryan Catarelli, Forrest Masters, Brian Phillips, Jennifer Bridge, Kurtis Gurley, Tai-An Chen (2022). Advancements in the Physical Simulation of Non-Synoptic Extreme Wind Events in a Large Boundary Layer Wind Tunnel,EMI/PMC 2022.
Ryan Catarelli; Yutiwadee Pinyochotiwong; Tai-An Chen; Brian Phillips; Forrest Masters; Jennifer Bridge; Kurtis Gurley (2022). Automated Control of Stationary Non-Neutral Flow Fields In A Large Boundary Layer Wind Tunnel,ACWE14.
Sifat Raihan Khan, Pedro L. Fernández-Cabán (2022). Inflow turbulence effects on low-rise building peak wind load estimates: Comparison between LES and wind tunnel experiments,ACWE14.
Wei-Ting Lu, Brian Phillips, Zhaoshuo Jiang (2022). Aerodynamic Behavior of High-Rise Buildings With Systematic Combinations of Corner and Side Modifications,ACWE14.
Christenson, R.E., S. Lobo-Aguilar, Y. Yuan, J. Dong, S.F. Wojtkiewicz (2018). "Aerodynamic Real-Time Hybrid Substructuring (aeroRTHS): Validation of Vortex Induced Vibration of a Tall Building Structure." Advances in RTHS Workshop.
Whiteman, M.L., Fernández Cabán, P.L., Phillips, B.M., Masters, F.J., Bridge, J.A., and Davis, J.R. (2019). "Optimal Design of Tall Buildings Using Cyber-Physical Aeroelastic Wind Tunnel Experiments." ASCE EMI 2019, Pasadena, CA.
Whiteman, M.L., Fernández Cabán, P.L., Phillips, B.M., Masters, F.J., Bridge, J.A., and Davis, J.R (2019). "Design of an Active Fin System to Mitigate Tall Building Responses Using Cyber-Physical Testing in the Wind Tunnel." ASCE EMI, Pasadena, CA.
Wojtkiewicz, S.F., J. Dong, R.E. Christenson, S. Lobo-Aguilar, and Y. Yuan. (2019). Aerodynamic Real-Time Hybrid Substructuring (aeroRTHS): Investigation of Vibration Mitigation Devices,Joint ETH-MECHS Workshop: New Frontiers and Innovative Methods for Hybrid Simulation. Zurich Switzerland.
Sabharwal, C.L.; Guo, Y. (2019). "Tracking the 6-DOF Flight Trajectory of Windborne Debris Using Stereophotogrammetry." Infrastructures 2019, 4, 66. https://doi.org/10.3390/infrastructures4040066
Zuo, D., Tang, Z., Wu, L., and James, D. (2020). Internal pressure of a low-rise building model in tornado-like vortices,9th International Colloquium on Bluff Body Aerodynamics and Applications, University of Birmingham, UK, July 2020.
Catarelli, R., Masters, F.J., Gurley, K.R. and Rice, J.A. "Precise Simulation of Partial Boundary Layers in Wind Tunnels." 13th Americas Conference on Wind Engineering, May 21-24, 2017.
Whiteman, M.L., Phillips, B.M. Fernández Cabán, P.L., Masters, F.J., Rice, J.A. and Davis, J.R. (2017). "Cyber-Physical Systems Approach to Optimization in Wind Engineering: Parapet Wall Design." 13th Americas Conference on Wind Engineering, May 21-24, 2017.
Cabán, P.F. and F.J. Masters (2017). The Spatial Pressure Distribution on Low-Rise Buildings Varies with Surface Roughness,13th Americas Conference on Wind Engineering, 21-24 May 2017, Gainesville, FL.
Cabán, P.F. and F.J. Masters (2017). Near Surface Longitudinal Velocity Positively Skews with Increasing Aerodynamic Roughness Length,13th Americas Conference on Wind Engineering, 21-24 May 2017, Gainesville, FL.
Zhao, H., Grigoriu, M. and Gurley, K.R. (2017). "Probabilistic Model for Wind Pressure on Low-rise Buildings." 13th Americas Conference on Wind Engineering, May 21-24, 2017.