Faculty Profile

Dr. Mudassar Razzaq

Assistant Professor

Department Of Mathematics

Dr. Razzaq obtained his Ph.D. in Applied Mathematics from the Technical University of Dortmund, Germany in 2011. His research primarily bridges the area of Computational Fluid Dynamics (CFD) and Computational Solid Mechanics (CSM), namely Fluid-Structure Interaction (FSI). He is involved in cross-disciplinary collaborative scientific research encompassing a diverse and challenging set of problems spread over the fields of Mathematics, Physics, Biology, and Computer Science e.g., in Bioengineering. His recent research publications contribute to the scientific literature on FSI, Optimization, Benchmark, proposals, and Hemodynamics; while his teaching credentials and experience fall primarily within the basic and advanced areas of Mathematics in crossdisciplinarity disciplines at undergrad and graduate level. Prior to joining LUMS, he was associated with TU Dortmund and CIIT Islamabad.

His research interests include:

  • Numerical Analysis and scientific computing
  • Finite Element Methods
  • Fluid-Structure Interaction for Hemodynamics
  • Optimization
  • Financial Mathematics
Title Publication Author Year
Multi-objective optimization of a fluid structure interaction benchmarking CMES - Computer Modeling in Engineering and Sciences 2013
Simulation of intra-aneurysmal blood flow by different numerical methods Computational and Mathematical Methods in Medicine Weichert F., Walczak L., Fisseler D., Opfermann T., Razzaq M., Munster R., Turek S., Grunwald I., Roth C., Veith C., Wagner M. 2013
FEM multigrid techniques for fluid-structure interaction with application to hemodynamics Applied Numerical Mathematics Razzaq M., Damanik H., Hron J., Ouazzi A., Turek S. 2012
Numerical simulation of laminar incompressible fluid-structure interaction for elastic material with point constraints Advances in Mathematical Fluid Mechanics - Dedicated to Giovanni Paolo Galdi on the Occasion of His 60th Birthday Razzaq M., Hron J., Turek S. 2010
Numerical simulation of laminar incompressible fluid-structure interaction for elastic material with point constraints Advances in Mathematical Fluid Mechanics: Dedicated to Giovanni Paolo Galdi on the Occasion of his 60th Birthday Razzaq M., Hron J., Turek S. 2010
Numerical benchmarking of fluid-structure interaction: A comparison of different discretization and solution approaches Lecture Notes in Computational Science and Engineering Turek S., Hron J., Razzaq M., Wobker H., Schafer M. 2010
Numerical simulation and benchmarking of a monolithic multigrid solver for fluid-structure interaction problems with application to hemodynamics Lecture Notes in Computational Science and Engineering 2010