ISAPE 2008

In order to provide a more substantial and extensive forum to exchange recent progress and new ideas in antennas, propagation, and EM theory, the two previous series of ISAE and ISRP meetings, both sponsored by the Chinese Institute of Electronics (CIE), were combined in 2000 into the new ISAPE series of meetings. ISAPE2008 will be held in Kunming, China, on Nov.2-6 2008. You are welcome to submit papers and to participate in ISAPE2008. The working language in all documents and at the symposium is English. The accepted/published papers will be indexed by EI.

Relevant topics of interest include, but not limited to the following:

A. Antennas A1. Microstrip and Printed Antennas A2. Active and Integrated Antennas A3. Array Antennas, Phased Arrays and Feeding Circuits A4. Small Antennas A5. Adaptive and Smart Antennas A6. Multiband/wideband Antennas A7. Wire and Slot Antennas A8. Millimeter Wave and Sub-Millimeter Wave Antennas A9. Aperture Antennas and Feeds A10. Optical Technology in Antennas A11. Antennas for Wireless Communications A12. Antenna Measurements A13. FSS, polarizers and radomes A14. Reconfigurable Antennas and Arrays A15. Reflector Antennas

B. Propagation B1. Mobile and Indoor Propagation B2. Mobile Channel Characterization and ? Modeling B3. Millimeter and Optical Wave Propagation B4. Earth-Space and Terrestrial Propagation B5. Radio Meteorology and Radio Astronomy B6. Remote Sensing B7. SAR Polarimetry and Interferometry B8. Tunnel Propagation B9. Ionospheric Propagation

C. EM Theory C1. Bio-electromagetics C2. EM fields in complex media C3. Geo-electromagnetics C4.Theoretical Electromagnetics and Analytical Methods C5 Transient EM fields C6. High-Frequency Techniques C7. Non-linear electromagnetics C8. Random Media and Rough Surfaces C9. Waveguiding Structures C10. Time Domain Techniques C11. Inverse Problems and Imaging C12. Scattering, Diffraction, and RCS C13. Metamaterials and Electromagnetic Bandgap Structures C14. Measurement Techniques C15. Nano-electromagnetics C16. Seismo-Electromagnetics

D. Computational Electromagnetics D1. Integral Equation Mehtods D2. Differential Equation Methods D3. Hybrid Techniques D4. Optimization Techniques for CEM D5. Asymptotic and High Frequency Techniques D6. Low Frequency Electromagnetics D7. Computational Bio-Electromagnetics D8. Pre and Post processing D9. Non Destructive Techniques D10. NEC Modeling and Analysis D11. FEKO Modeling and Analysis D12. CST Modeling and Analysis D13. HFSS Modeling and Analysis D14. Object Oriented Computational Electromagnetics D15. Transmission Line Theory

E. Electromagnetic Compatibility E1. Probe & Sensor E2. Absorbing Materials E3. Test Chambers E4. EMC Test & Measurement E5. Coupling & Crosstalk E6. EMC Standards E7. EM Environment E8. Automotive EMC E9. EM Bioeffect E10. EMC in Communications E11. EMC in Power Engineering E12. Lightning, ESD & EMP E13. EMC in Computer & PCBs E14. Shielding, Filtering & Grounding E15. EMC in Microelectronics E16. Immunity & Susceptibility E17. Spectrum Management E18. EMI Prediction Analysis, Reduction Technique E19. EMC Education

F. Others F1. High Power Microwave Applications F2. UWB and Impulse Applications F3. Ubiquitous Network Systems F4. Satellite Communication Systems F5. Radio Technologies for Intelligent Transport Systems F6. Subsurface Sensing F7. MEMS-NEMS and MMIC F8. Passive and Active Circuits F9. Power Amplifiers, Linearization, and Active Component F10. Millimeter-Wave and Sub-Millimeter-Wave Components, Circuits and Systems F11. Signal Processing for Communications F12. Advanced Process, Packaging and Integration Technologies F13. 3D RF Technology F14. New Materials This CfP was obtained from WikiCFP