Maciej Balajewicz
 

Publications


Peer Reviewed Journals

  1. Balajewicz, M., Tezaur, I., and Dowell, E. “Minimal subspace rotation on the Stiefel manifold for stabilization and enhancement of projection-based reduced order models for the compressible Navier-Stokes equations,” Journal of Computational Physics. Submitted April 2015. (PDF) (arXiv)

  2. Balajewicz, M., Amsallem, D., and Farhat, C. “Projection-based model reduction for contact problems,” International Journal for Numerical Methods in Engineering. Accepted for publication. (html) (PDF) (arXiv)

  3. Balajewicz, M., and Farhat, C. “Reduction of nonlinear embedded boundary models for problems with evolving interfaces,” Journal of Computational Physics. 274:489-504 (2014). (html) (PDF) (arXiv)

  4. Balajewicz, M., Dowell, E., and Noack, B. “Low-dimensional modeling of high-Reynolds-number shear flows incorporating constraints from the Navier-Stokes equation,” Journal of Fluid Mechanics. 729:285-308. (2013). (html) (PDF) (arXiv)

  5. Cordier, L., Noack, B., Tissot, G., Lehnasch, G., Delvile, J., Balajewicz, M., Daviller, G., and Niven, R.K. “Identification strategies for model-based control,” Experiments in Fluids. 54(8):1-21. (2013). (html) (PDF)

  6. Balajewicz, M., and Dowell, E. “Reduced order modeling of flutter and limit-cycle oscillations using the sparse Volterra series,” Journal of Aircraft, 49(6):1803-1812. (2012). (html) (PDF)

  7. Balajewicz, M., and Dowell, E. “Stabilization of projection-based reduced order models of the Navier-Stokes equations, ” Nonlinear Dynamics, 70(2):1619-1632. (2012). (html)

  8. Balajewicz, M., Nitzsche, F., and Feszty, D. “Application of multi-input Volterra theory to nonlinear, multi-degree-of-freedom aerodynamic systems,” AIAA Journal, 48(1):56-62. (2010). (html) (PDF)


Conferences, Meetings and Presentations

  1. Tezaur, I., and Balajewicz, M. “Minimal subspace rotation approach for obtaining stable and accurate low-order projection-based reduced order models for nonlinear compressible flow,” WCCM, World Congress on Computational Mechanics, 24-29, July 2016.

  2. Tezaur, I., and Balajewicz, M. “Minimal subspace rotation approach for obtaining stable and accurate low-order projection-based reduced order models for nonlinear compressible flow,” ECCOMAS Congress, European Congress on Computational Methods in Applied Sciences and Engineering, 5-10, June 2016.

  3. Toivanen, J., and Balajewicz, M. “Reduced order models for pricing American options under stochastic volatility and jump-diffusion models,” International Conference on Computational Science, 6-8, June 2016.

  4. Tezaur, I., and Balajewicz, M. “A minimal subspace rotation approach for stabilizing and fine-tuning projection-based reduced order models for fluid applications,” West Coast ROM Workshop, November 19, 2015.

  5. Balajewicz, M., and Tezaur, I. “A subspace projection-based method for stabilization and enhancement of projection-based ROMs of the Navier-Stokes equations,” MoRePaS 2015, Model Reduction of Parametrized Systems, October 13-16, 2015.

  6. Balajewicz, M., and Tezaur, I. “Stabilization and fine-tuning of projection-based reduced order models for compressible flow via minimal subspace rotation on the Stiefel manifold,” International Congress on Industrial and Applied Mathematics, August 10-14, 2015.

  7. Balajewicz, M., Amsallem, D., and Farhat, C. “Projection-based model reduction for contact problems,” 1st. Pan-American Congress on Computational Mechanics, April 27-29, 2015.

  8. Balajewicz, M., Dowell, E., and Noack, B. “Constrained orthogonal decomposition for reduced-order modeling of high-Reynolds-number shear flows,” SIAM Conference on Uncertainty Quantification, March 31-April 3, 2014.

  9. Balajewicz, M., Dowell, E., and Noack, B. “ Low-dimensional modeling of high-Reynolds-number shear flows incorporating constraints from the Navier-Stokes equation,” 66th Annual Meeting of the APS Division of Fluid Dynamics, November 24-26, 2013.

  10. Balajewicz, M., and Farhat, C. “Nonlinear reduction of embedded boundary computational fluid dynamics,” 66th Annual Meeting of the APS Division of Fluid Dynamics, November 24-26, 2013.

  11. Farhat, C., and Balajewicz, M. “Reduction of nonlinear embedded boundary models for fluid-structure interaction,” Keynote, 2nd International Workshop on Reduced Basis, POD and PGD model reduction techniques, November 3-6, 2013.

  12. Balajewicz, M., and Dowell, E. “Recent Progress in Volterra series based system identification of nonlinear aerodynamics,” 12th U.S. National Congress on Computational Mechanics, July 22-25, 2013.

  13. Balajewicz, M., and Farhat, C. “Nonlinear reduction of embedded boundary models for fluid-structure interaction,” 12th U.S. National Congress on Computational Mechanics, July 22-25, 2013.

  14. Balajewicz, M., Dowell, E., and Noack, B. “Stabilization of projection-based reduced order models of the Navier-Stokes equations,” SIAM Conference on Computational Science and Engineering, February 25-March 1, 2013.

  15. Balajewicz, M., Dowell, E., and Noack, B. “A new approach to model order reduction of the Navier-Stokes equations,” 65th Annual Meeting of the APS Division of Fluid Dynamics, November 18-20, 2012.

  16. Balajewicz, M. “Reduced order modeling of transonic flutter and limit-cycle oscillations using the pruned Volterra series,” 51st AIAA Structures, Structural Dynamics, and Materials Conference, April 12-15, 2010.

  17. Balajewicz, M., Nitzsche, F., and Feszty, D. “Reduced order modeling of nonlinear transonic aerodynamics using a pruned Volterra series,” 50th AIAA Structures, Structural Dynamics, and Materials Conference, May 4-7, 2009.

  18. Balajewicz, M., Nitzsche, F., and Feszty, D. “Application of multi-input Volterra theory to nonlinear multi-degree-of-freedom aerodynamic systems,” 49th AIAA Structures, Structural Dynamics, and Materials Conference, April 7-10, 2008.

  19. Balajewicz, M., Nitzsche, F., and Feszty, D. “A computationally efficient, Volterra series based, model reduction approach for aeroelastic systems with strong aerodynamic nonlinearities,” RTO-MP-AVT-154 NATO Specialists Meeting on Advanced Methods in Aeroelasticity, 2008.