The optimization theory has been extensively applied to mechanical engineering and the solution of inverse problems in structural mechanics, but its use in electromagnetism is much more recent. This is the first book to explore optimal design in electricity and magnetism. Besides filling this gap in the literature, it also provides a comprehensive reference book for applied mathematicians and researchers, offering a broad view of the subject from theory to computer implementations.
Preface Acknowledgements I: Mathematical methodology 1. Mathematical preliminaries 2. Variational methods in potential theory 3. Integral equation method in potential theory 4. Regularization 5. Numerical methods for systems of equations 6. Unconstrained optimization 7. Constrained optimization 8. Linear least squares II: Fundamentals of electromagnetism 10. Introduction 11. Maxwell's equations 12. Potential equations of electricity and magnetism 13. Further key-points of electromagnetic theory 14. Numerical methods in electromagnetics III: Optimal design and inverse problems 15. Introduction 16. Synthesis of sources 17. Synthesis of boundary conditions 18. Synthesis of material properties 19. Optimal shape synthesis 20. Survey of solved problems 21. References IV: Computational methodology 22. Introduction 23. Implementation of the finite element method 24. Methods for shape design 25. Optimization and regularization algorithms and text examples 27. Subroutine libraries
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