PM Mohamed Abubacker Siddique

The code development of the Discontinuous Galerkin Method for solving time-dependent Maxwell equation and to study its performance by application over RCS reduction methodologies. The DGM is Modal based instead of the frequently used Nodal-based DGM. A thorough understanding of DGM and its formulation is presented. The code is validated with standard test cases and verified results. Initially, 1D code is developed, and results are obtained for different boundary conditions, followed by 2D code simulation. Slope limiters are also implemented to improve the stability of the system. Finally, RCS computation is carried out for 2D cases for different illuminated geometries. Simulation is carried out for different waves and different material properties. Extension to 3D is considered for future work as well.

Publications

P.M.Mohamed Abubacker Siddique, L. Prince Raj, Sensitivity analysis of geometric parameters on the aerodynamic performance of a multi-element airfoil, Aerospace Science and Technology, 2023

PM Mohamed Abubacker Siddique, Charana GS, Prince Raj Lawrence Raj, Koustuv Debnath, Joydeep Bhowmik, Investigation of Geometric Parameters on Flap and Slat Aerodynamics in a Three-Element Airfoil, 52(1), 53-71, International Journal of Fluid Mechanics Research, 2024

L. Prince Raj, P. M. Mohamed Abubacker Siddique, G. S. Charana, Sensitivity analysis for aerospace engineering applications, Computational Fluid Flow and Heat Transfer, 2024