We devised a first order time stepping ensemble hybridizable discontinuous Galerkin (HDG) method for a group of parameterized convection diffusion PDEs with different initial conditions, body forces, boundary conditions and coefficients in our earlier work [3]. We obtained an optimal convergence rate for the ensemble solutions in L∞(0,T;L2(Ω)) on a simplex mesh; and obtained a superconvergent rate for the ensemble solutions in L2(0,T;L2(Ω)) after an element-by-element postprocessing if polynomials degree k≥1 and the coefficients of the PDEs are independent of time. In this work, we propose a new second order time stepping ensemble HDG method to revisit the problem. We obtain a superconvergent rate for the ensemble solutions in L∞(0,T;L2(Ω)) without an element-by-element postprocessing for all polynomials degree k≥0. Furthermore, our mesh can be any polyhedron, no need to be simplex; and the coefficients of the PDEs can dependent on time. Finally, we present numerical experiments to confirm our theoretical results.
@article{arxiv.1910.10295,
title = {A New Ensemble HDG Method for Parameterized Convection Diffusion PDEs},
author = {Gang Chen and Liangya Pi and Yangwen Zhang},
journal= {arXiv preprint arXiv:1910.10295},
year = {2019}
}