TY  - BOOK
AU  - Davidson,David B.
TI  - Computational electromagnetics for RF and microwave engineering
SN  - 9780521518918 (hardback)
U1  - 621.384 22
PY  - 2011///
CY  - Cambridge, United Kingdom, New York, United States
PB  - Cambridge University Press
KW  - Electromagnetic fields
KW  - Mathematical models
KW  - Radio
KW  - Mathematics
KW  - Microwave devices
KW  - Electronic apparatus and appliances
KW  - ENGELC
KW  - January2015
KW  - reading book
N1  - Includes appendixes; Index : p. 498-505; Includes bibliographical references; Machine generated contents note : 1. An overview of computational electromagnetics for RF and microwave applications ; 2. The finite difference time domain method : a one-dimensional introduction ; 3. The finite difference time domain method in two and three dimensions ; 4. A one-dimensional introduction to the method of moments: thin-wire modelling ; 5. The application of the FEKO and NEC-2 codes to thin-wire antenna modelling ; 6. The method of moments for surface modelling ; 7. The method of moments and stratified media: theory ; 8. The method of moments and stratified media: practical applications of a commercial code ; 9. A one-dimensional introduction to the finite element method ; 10. The finite element method in two dimensions-scalar and vector elements ; 11. The finite element method in three dimensions ; 12. A selection of more advanced topics in full-wave computational electromagnetics ; Appendices
N2  - "This hands-on introduction to computational electromagnetics (CEM) links theoretical coverage of the three key methods - the FDTD, MoM and FEM - to open source MATLAB codes (freely available online) in 1D, 2D and 3D, together with many practical hints and tips gleaned from the author's 25 years of experience in the field. Updated and extensively revised, this second edition includes a new chapter on 1D FEM analysis, and extended 3D treatments of the FDTD, MoM and FEM, with entirely new 3D MATLAB codes. Coverage of higher-order finite elements in 1D, 2D and 3D is also provided, with supporting code, in addition to a detailed 1D example of the FDTD from a FEM perspective. With running examples through the book and end-of-chapter problems to aid understanding, this is ideal for professional engineers and senior undergraduate/graduate students who need to master CEM and avoid common pitfalls in writing code and using existing software"
ER  -