Abbreviations
Chapter 1Introduction
1.2 Related issues to the modeling of mounted antennas
1.3Definition of the Key Concepts of the Problem
1.3.2Notion of Variable Problem
1.4Context of application
1.4.2 Scenario devoted to the study of the transmission antenna and EMC
1.4.3International Recommendation for The Protection of the Human Bodies in The Military Workspaces
1.5Survey On the Deferent Methods Applicable for the Simulation of Mounted Antennas on a Complex Platform
1.5.1Traditional rigorous methods
1.5.2Methods for the Multi-Scale problems
1.6Main content of the dissertation
Chapter 2Basic FDTD and Its Limits for Multi-Scale Problems
2.3Principle of the FDTD method
2.3.1Numerical Constraints
2.3.2Special treatments, post-treatment and used models
2.4Exploitation of the FDTD for EMC simulation of a vehicular radio transmission antenna
2.4.1The EM model of the vehicle and the mounted antenna
2.4.2Numerical results
2.5Summary
Chapter 3Human exposure to Electromagnetic Fields and SAR Computation
3.1Introduction
3.2Basic features of the numerical simulation
3.2.2Electromagnetic characterization of the human tissues
3.3Frequency-Dependent FDTD schemes
3.3.1Formulation of the PLRC-FDTD
3.3.2Numerical Validation
3.4Simulation results
3.5Summary
Chapter 4High Order Staggered FDTD for Dispersive Media
4.2Formulation of the High-Order Staggered FDTD
4.3The Stability Analysis
4.4Numerical Validation
4.4.1Simulation In The Free Space
4.4.2Simulation in The Debye Dispersive Media
4.5Summary
Chapter 5A New Multi-Levels Huygens Sub-Gridding FDTD Based on a Tree Structure and Object-Oriented Programming
5.2The principle of the Huygens Sub-Gridding Method
5.3Huygens sub-gridding algorithm
5.4Numerical Experiments
5.5Application of the Huygens Sub-gridding for the Dosimetry and the Interference between antennas
5.6Summary
Conclusion
Innovations
Scope for the future work
参考文献
List of Publications
声明
致谢
