Wang, X., Remotigue, M., Arnoldus, Q.H.,
Janus, M.,
Luke, E., Thompson, D., Weed, R., & Bessette, G. (2016). High-fidelity Simulations of Blast Loadings in Urban Environments Using an Overset Meshing Strategy. In Alexey Podiaskin. Irina Krasovskaya (Eds.),
Shock Waves. The International Shock Wave Institute.
July 2016, 1-14.
DOI:10.1007/s00193-016-0680-x. [
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Parrish, J., Rais-Rohani, M., &
Janus, M. (2015). Reduced Order Techniques for Sensitivity Analysis and Design Optimization of Aerospace Systems.
AIAA Journal. AIAA.
53(12), 3567-3576.
Janus, M. (). Aviation Propeller-Airframe Integration Simulations.
AIAA Journal of Aircraft.
43(2), 390-394.
Parrish, J., Rais-Rohani, M., &
Janus, M. (2015). Application of Reduced Order Techniques for Sensitivity Analysis to Multidisciplinary Aerospace Systems.
56th AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference. Kissimmee, FL: AIAA.
Parrish, J., Rais-Rohani, M., &
Janus, M. (2014). Reduced Order Techniques for Sensitivity Analysis and Design Optimization of Aerospace Systems.
10th AIAA Multidisciplinary Design Optimization Specialist Conference. National Harbor, MD: AIAA.
Zope, A., &
Janus, M. (2013). Response Surface Analysis of Trapped-Vortex Augmented Airfoils.
31st AIAA Applied Aerodynamics Conference. SanDiego, CA: AIAA.
Ivancic, P.,
Janus, M.,
Luke, E., & Newman, J., III. (2013). A New Fluid-Structure Interaction Point-Projection Method.
MAESC. Oxford, MS.
Weed, R.,
Janus, M.,
Luke, E., Thompson, D., Olguin, A. T., & Ivancic, P. (2015). A Conformal, Fully-Conservative Approach for Predicting Structural Response to Blast Loading.
ASCE Structures Congress 2015, Apr 23-25, 2015. Portland, OR.
Ivancic, P.,
Janus, M.,
Luke, E., Thompson, D., & Weed, R. (2014). A Conformal, Fully-Conservative Approach for Predicting Blast Effects on Ground Vehicles.
NATO AVT-221/RSM-032: Design and Protection Technologies for Land and Amphibious NATO Vehicles. Copenhagen, Denmark.
Weed, R.,
Luke, E.,
Janus, M., Thompson, D., Wang, X., & Remotigue, M. (2012). Analysis of Underbody Blast and Blast in Urban Areas Using the MSU Loci/BLAST Code.
NDIA Physics Based Modeling in Design and Development for U.S. Defense. Denver, CO: NDIA.