Publications

• T. Ben-Asher and D.E. Raveh, “Aeroelastic System Identification for Flutter Prediction via Multi-Output Autoregressive Modeling,” Journal of Aircraft, 2023.
• L. Poplingher and D.E. Raveh, “Shock Buffet and Associated Fluid–Structure Interactions of the Benchmark Supercritical Wing,” AIAA Journal, Vol. 61, No. 6,  2023
• T. Joels and D.E. Raveh, “Wing Dynamic Shape-Sensing From Fiber-Optic Strain Data Using the Kalman State Estimator,” Aerospace Science and Technology, Vol. 137, 2023
• L. Poplingher and D.E. Raveh, “Comparative Modal Study of the Two-Dimensional and Three-Dimensional Transonic Shock Buffet,” AIAA Journal, Vol. 61, No. 1, 2022.
• M. Simbuerger, D.E. Raveh, and M. Tur, “Aeroelastic Shape Optimization Using Fiber-Optic-Measured Strain Data and Multiple Control-Surfaces,” Journal of Aircraft, Vol. 59, No. 6, 2022
• A. Drachinsky, O. Avin, D.E. Raveh, Y. Ben-Shmuel, and M. Tur, “Flutter Tests of the Pazy Wing,” AIAA Journal, Vol. 60, No. 9, 2022
• A. Drachinsky, M. Freydin, and D.E. Raveh, “Large Deformation Shape Sensing Using a Nonlinear Strain to Displacement Method,” AIAA Journal, Vol. 60, No 9, 2022
• N. Goizueta, A. Wynn, R. Palacios, A. Drachinsky, and D.E. Raveh, “Flutter Predictions for Very Flexible Wing Wind Tunnel Test” Journal of Aircraft, Vol. 59, No. 4, 2022.
• O. Avin, D.E. Raveh, A. Drachinsky, Y. Ben-Shmuel, and M. Tur, “An Experimental Benchmark of a Very Flexible Wing,” AIAA Journal, Vol. 60, No. 3, 2022
• A. Drachinsky, and D.E. Raveh, “Nonlinear Aeroelastic Analysis of Highly Flexible Wings Using the Modal Rotation Method,” AIAA Journal, Vol. 60, No. 5, 2021
• S. Tiomkin and D.E. Raveh, “A Review of Membrane Wing Aeroelasticity,” Progress in Aerospace Sciences, Volume 126, 2021.
• W. Mallik, and D.E. Raveh, “Aerodynamic Damping Investigations of Light Dynamic Stall on a Pitching Airfoil via Modal Analysis,” Journal of Fluids and Structures, Vol. 98, 2020.
• W. Mallik, and D.E. Raveh, “Kriging-based Aeroelastic Gust Response Analysis at High Angles of Attack,” AIAA Journal, Vol. 58, No. 9, 2020
• A. Drachinsky, and D.E. Raveh, “Modal Rotations: A Modal-based Method for Large Structural Deformations,” AIAA Journal, Vol. 58, No. 7, 2020
• D. Kariv and D.E. Raveh, “Dynamic Response of an Elastic Aircraft to Ripple Store Ejection,”  Journal of Aircraft, Vol. 57, No. 4, 2020
• M. Freydin, M. Keren Rattner, D.E. Raveh, R. Davidi, M. Tur, and I. Kressel, “Fiber-Optics-Based Aeroelastic Shape Sensing,“, AIAA Journal, Vol. 57, No. 12, 2019
• S. Tiomkin, and D.E. Raveh, “On Membrane-wing Stability in Laminar Flow,” Journal of Fluids and Structures, Vol. 91, 2019
• W. Mallik, and D.E. Raveh, “Gust Response at High Angles of Attack,” AIAA Journal, Vol. 57, No. 8, 2019
• K. Cohen and D.E. Raveh, “Acoustic Testing Techniques for Replicating In-flight Dynamic Loads,” The Journal of the Acoustical Society of America, Vol. 145, No. 5, 2019
• L. Poplingher, D.E. Raveh, and E.H. Dowell “Modal Analysis of Transonic Shock Buffet on 2D Airfoil,” AIAA Journal, Vol. 57, No. 7, 2019
• T. Nahom, D.E. Raveh, and M. Iovnovich, “Wind-tunnel Study of the Autoregressive Moving-average Flutter Prediction Method,” Journal of Aircraft, Vol. 56, No. 4, 2019.
• E. Kantor, D.E. Raveh, and R. Cavallaro, “Nonlinear-Structural-Nonlinear-Aerodynamic Model for Static Aeroelastic Problems,” AIAA Journal, Vol. 57, No. 5, 2019.
• F. Roizner, M. Karpel, and D.E. Raveh, “Safe Flutter Tests Using Parametric Flutter Margins,” Journal of Aircraft, Vol. 56, No. 1, 2019, doi:https://doi.org/10.2514/1.C035045.
• M. Argaman, and D.E. Raveh, “Multi-output Autoregressive Aeroelastic System Identification and Flutter Prediction,” Journal of Aircraft, Vol. 56, No. 1, 2019, doi:https://doi.org/10.2514/1.C034789.
• M. Iovnovich, T. Nahom, M. Presman, D. Avsaid, T. Braier, and D.E. Raveh, “Validation of Advanced Flutter Flight Test Techniques and Flutter Boundary Prediction Methods,” Journal of Aircraft, Vol. 55, No. 5, 2018, doi:https://doi.org/10.2514/1.C034716.
• M. Franciolini, A. Da Ronch, J. Drofelnik, D.E. Raveh, and A. Crivellini, “An Efficient Infinite-swept Wing Solver for Steady and Unsteady Flow Problems,” Aerospace Science and Technology, Vol. 72, 2018, pp.217-229.
• D.E.Raveh, Y.Mor-Yossef, and Y. Levy, “Analyses for the Second Aeroelastic Prediction Workshop Using the EZNSS Code,” AIAA Journal, Vol. 56, No. 1, 2018, pp.387-402.
• L. Yagil, D.E. Raveh, and M. Idan, “Elastic Deformations Control of Highly Flexible Aircraft in Trimmed Flight and Gust Encounter,” Journal of Aircraft, Vol. 55, No. 2, 2018, pp. 829-840.
• S. Tiomkin, and D.E. Raveh, “On the stability of two-dimensional membrane wings,” Journal of Fluids and Structures, Vol.71, 2017, pp.143-163.
• M.Iovnovich, D.E.Raveh, M. Adar, and D. Michaels, “Computational Study of Transonic Limit Cycle Oscillation Phenomenon on the F-16 Fighter Aircraft,” Journal of Aircraft, Vol.54, No.2, 2017, pp.783-793.
• A. Drachinsky and D.E. Raveh “Limit-cycle Oscillations of a Pre-tensed Membrane
  Strip,” Journal of Fluids and Structures, Vol. 60, 2016, pp.1-22.
• M. Iovnovich and D.E. Raveh “Numerical Study of Shock-buffet on 3D Wings,” AIAA Journal, Vol. 53, No. 2, 2015, pp.449-463.
• D.E. Raveh and E.H. Dowell, “Aeroelastic Responses of Elastically Suspended Airfoil Systems in Transonic Buffeting Flows,” AIAA Journal, Vol. 52, No. 5, 2014, pp. 926-934.
• M. Iovnovich and D.E. Raveh “Reynolds-averaged Navier-Stokes Study of the Shock-buffet Instability Mechanism,” AIAA Journal, Vol. 50, No. 4, 2012, pp. 880-890.
• M. Iovnovich and D.E. Raveh “Transonic Unsteady Aerodynamics in the Vicinity of Shock-buffet Instability,” Journal of Fluids and Structures, Vol. 29, 2012, pp. 131-142.
• D.E. Raveh “Gust Response Analysis of Free Elastic Aircraft in the Transonic Flight Regime,” Journal of Aircraft, Vol. 48, No. 4, 2011, pp. 1204-1211.
• Y.C. Gal-Rom Cohen and D.E. Raveh “A Simplified Aero-Structural Model for Inflated Wings,” AIAA Journal, Vol. 49, No. 6, 2011, pp. 1180-1190.
• D.E. Raveh and E.H. Dowell “Frequency Lock-In Phenomenon in Oscillating Airfoils in Buffeting Flows,” Journal of Fluids and Structures, Vol. 27, 2011, pp. 89-104.
• D.E. Raveh, “CFD-Based Gust Response Analysis of Free Elastic Aircraft,” Journal of Aeroelasticity and Structural Dynamics, Vol. 2, No. 1, 2010, pp. 23-34.
• D.E. Raveh, “Numerical Study of an Oscillating Airfoil in Transonic Buffeting Flows,” AIAA Journal, Vol. 47, No. 3, 2009, pp 505-515
• D.E. Raveh, “Maneuver Load Analysis of Overdetermined Trim Systems,” Journal of Aircraft, Vol. 45, No. 1, 2008, pp. 119-129.
• D.E. Raveh, “CFD-Based Models of Aerodynamic Gust Response,” Journal of Aircraft, Vol. 44, No. 3, 2007, pp. 888-897.
• A. Zaide and D.E. Raveh, “Numerical Simulation and Reduced-Order Modeling of Airfoil Gust Response,” AIAA Journal, Vol. 44, No. 8, 2006, pp. 1826-1834.
• D.E. Raveh, “Computational-Fluid-Dynamics-Based Aeroelastic Analysis and Structural Design Optimization – A Researcher’s Perspective,” Computer Methods in Applied Mechanics and Engineering, special edition on Structural and Design Optimization, Vol. 194, Issues 30-33, 2005, pp. 3453-3471.
• D.E. Raveh, “Identification of Computational-Fluid-Dynamics Based Unsteady Aerodynamic Models for Aeroelastic Analysis,” AIAA Journal of Aircraft, Vol. 41, No. 3, 2004, pp. 620-632.
• G.W. Reich, D.E. Raveh, and P.S. Zink, “Application of Active-Aeroelastic-Wing Technology to a Joined-Wing Sensorcraft,” AIAA Journal of Aircraft, Vol. 41, No. 3, 2004, pp. 594-602.
• P.S. Zink, D.E. Raveh, and D.N. Mavris, “Robust Structural Design of an Active Aeroelastic Wing with Maneuver Load Inaccuracies,” AIAA Journal of Aircraft, Vol. 41, No. 3, 2004, pp. 585-593.
• P.S. Zink, D.E. Raveh, and D.N. Mavris, “Integrated Trim and Structural Design Process for Active Aeroelastic Wing Technology,” AIAA Journal of Aircraft, Vol. 40, No. 3, 2003, pp. 523-531.
• P.S. Zink, D.N. Mavris, and D.E. Raveh, “Maneuver Trim Optimization Techniques for Active Aeroelastic Wings,” AIAA Journal of Aircraft, Vol. 38, No. 6, 2001, pp. 1139-1146.
• D.E. Raveh, “Reduced Order Models for Nonlinear Unsteady Aerodynamics,” AIAA Journal, vol. 39, No. 8, 2001, pp. 1417-1429
•  D.E. Raveh, Y. Levy, and M. Karpel, “Efficient Aeroelastic Analysis Using Computational Unsteady Aerodynamics,” AIAA Journal of Aircraft, Vol. 38, No. 3, 2001, pp. 547-556.
•  D.E. Raveh, Y. Levy, and M. Karpel, “Structural Optimization Using Computational Aerodynamics,” AIAA Journal, Vol. 38, No. 10, 2000, pp. 1974-1982.
• D.E. Raveh, M. Karpel, and S. Yaniv, “Non-Linear Design Loads for Maneuvering Elastic Aircraft,” AIAA Journal of Aircraft, Vol. 37, No. 2, 2000, pp. 313-318.
• D.E. Raveh and M. Karpel, “Structural Optimization of Flight Vehicles with Computational-Fluid-Dynamics-Based Maneuver Loads,” AIAA Journal of Aircraft, Vol. 36, No. 6, 1999, pp. 1007-1015.
• M. Karpel and D.E. Raveh, “Fictitious Mass Element in Structural Dynamics,” AIAA Journal, Vol. 34, No. 3, 1996, pp. 607-613.
• M. Karpel, D.E. Raveh and S. Ricci, “Ground Modal Tests of Space-Structure Components Using Boundary Masses,” AIAA Journal of Spacecraft and Rockets, Vol. 33, No. 2, 1996, pp. 272-277.

• L. Poplingher and D.E. Raveh, “Computational Study of Stall Flutter of the Benchmark Supercritical Wing,” AIAA SciTech}, January 2024.
• L. Poplingher and D.E. Raveh, “Investigation of the Aeroelastic Response of a Compliant Panel,” AIAA SciTech, January 2024.
• P. Chwalowski, G. McHugh, S. Massey, L. Poplingher, D.E. Raveh, A. Jirasek, N. F. Giannelis, K. Venkatraman, M. Singh, B. Ahrabi, M. Hong, “Shock-Buffet Prediction Report in Support of the High Angle Working Group at the Third Aeroelastic Prediction Workshop,” AIAA SciTech, January 2024.
• P. Chwalowski, B. Stanford, K. Jacobson, L. Poplingher, D.E. Raveh, A. Jirasek, G. Pagliuca, M. Righi, “Flutter Prediction Report in Support of the High Angle Working Group at the Third Aeroelastic Prediction Workshop,” AIAA SciTech, January 2024.
• M Ritter et al., “Collaborative Pazy Wing Analyses for the Third Aeroelastic Prediction Workshop,”  AIAA SciTech, January 2024.
• L. Poplingher and D.E. Raveh “Stall Flutter of the Benchmark Supercritical Wing at High Angles of Attack,” AIAA SciTech, January 2023.
• T. Joels and D.E. Raveh, “Dynamic Shape Sensing of the A3TB Wind Tunnel Model Using Fiber Optics Strain Data and the Kalman State Estimator,” AIAA SciTech, January 2023.
• T. Ben-Asher and D.E. Raveh, “Improvements to Wind-Tunnel Flutter Prediction with Application to the Active Aeroelastic Aircraft Testbed Wind-Tunnel Model,” AIAA SciTech, January 2023.

• D.E. Raveh “Analysis and Testing of the Pazy Benchmark Wing” AR20+: Workshop on High Aspect Ratio Wing Technologies, Imperial College, October 2023.
• L. Poplingher and D.E. Raveh, Third Aeroelastic Prediction Workshop, Washington DC, January 2023.

PhD

• Poplingher Lior Ilan,  Two- and Three-Dimensional Buffet Flows Characterization and their Role in Aeroelastic Instabilities, 2023
• Drachinsky Ariel,  Moda Rotations: A Modal-based Method for Large Structural Deformations, 2022
• Freydin Maxim, PhD, Aero-Thermal-Elastic Modeling of Plates in Hypersonic Flow, 2021
• Sonya Tiomkin,  Membrane Wing Gust Response, 2018
• Michael Iovnovich,  A Study of the Shock-Buffet Phenomenon and Related Unsteady Aerodynamics on 2D and 3D Wings, 2014

MSc

• Ben Asher Tomer,  Experimental Study of Aeroelastic System Identification and Flutter Prediction using Multioutput Autoregressive Methods, 2023
• Noam Yechieli,  Synthesis of Linear Robust Controllers for Flutter Suppression with Performance and Uncertainty Specifications Tuned by Genetic Algorithms, 2023
• Tsoof Joels,  Dynamic Aeroelastic Shape Sensing from Fiber Optic Sensor Data, 2023
• Avin Or,  An Experimental Aeroelastic Benchmark of a Very Flexible Wing, 2022
• Simbuerger Michael,  Aeroelastic Deformation Control based on Fiber Optic Sensors, 2021
• Keren Rattner Miko,  Fiber-Optics-Based Aeroelastic Shape Sensing, 2020
• Raman Ramya,  Aeroelastic System Data Analysis using the Hilbert-Huang Transform, 2020
• Kariv Daniel Haim,  Dynamic Response of an Elastic Aircraft to Store Ejection, 2019
• Mizrahi Izhak,  Wing Elasticity Effects on Store Separation, 2019
• Tihomirov Dimitry,  Non-Linear Aerodynamic Effects on Static Aeroelasticity of Flexible Missiles, 2019
• Nahom Jidovetski Tzlil,  Wind-Tunnel Study of the ARMA Flutter Prediction Method, 2019
• Argaman Matan,  Multi-Output Autoregressive Aeroelastic System Identification and Flutter Prediction, 2018
• Kantor Etay,  Nonlinear Structural and Aerodynamic Modeling for Static Aeroelastic Analysis, 2018
• Cohen Jackob,  Comparison of Laboratory Testing Techniques for Airborne Store’s Dynamic Response to In-Flight Environmental Conditions, 2018
• Yagil Leeran,  Elastic Deformations Control of Highly Flexible Aircraft in Trimmed Flight and Gust Encounter, 2017
• Drachinsky Ariel,  Limit-Cycle Oscillation of a Pretensed Membrane Strip, 2016
• Tiomkin Sonya,  Analytical and Numerical Study of a 2D Membrane Wing in Subsonic Flow, 2012
• Gal-Rom Yaniv,  Aero-Structural Investigation of an Inflated Wing, 2009
• Shousterman Alexander,  Aeroelastic Loads Calculation for a Cascade Blade of Jet Engine Compressors and Gas Turbines, 2007
• Zaide Avraham,  CFD-Based Time-Domain Aeroelastic Gust-Response Model, 2007