University Of Zambia Online Public Access Catalogue
The international journal for computation and mathematics in electrical and electronic engineering:
- Emerald
- Quarterly
- Vol. 39 No. 5, 2020
IThis paper aims to explore the limitations of the conformal finite difference time-domain method (C-FDTD or Dey–Mittra) when modeling perfect electric conducting (PEC) and lossless dielectric curved surfaces in coarse meshes.
0332-1649
Electromagnetic field--Dey- mittra
https://www.emerald.com/insight/publication/issn/0332-1649/vol/39/iss/5
IThis paper aims to explore the limitations of the conformal finite difference time-domain method (C-FDTD or Dey–Mittra) when modeling perfect electric conducting (PEC) and lossless dielectric curved surfaces in coarse meshes.
0332-1649
Electromagnetic field--Dey- mittra
https://www.emerald.com/insight/publication/issn/0332-1649/vol/39/iss/5