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Announcement and Call for
Papers
The 15th International Symposium on Antennas, Propagation and EM Theory
Oct. 22–25, 2026, Haikou, China
ISAPE (International Symposium on Antenna, Propagation and EM Theory) is a series of symposia focuses on antennas, propagation, and electromagnetic theory. It serves as an active forum for professors, researchers, engineers, and outstanding students worldwide to exchange the latest research advances in the fields of antennas, propagation, and electromagnetic theory. The ISAPE 2026 will be held in Haikou, China. Experts and scholars in the fields of antennas, propagation, electromagnetic theory, computational electromagnetics, electromagnetic compatibility, and related areas are cordially invited to submit their contributions.
Conference Proceedings: Accepted papers that meet the scope and quality requirements of IEEE Xplore will be submitted for inclusion in IEEE Xplore. The ISAPE electronic conference proceedings will be provided on USB drives to all delegates attending the conference. The proceedings of all past ISAPE conferences have been indexed by EI Compendex.
Manuscript Requirements:
1. Authors must submit the full manuscript in PDF format through the online paper submission system before the deadline.
2. Submitted papers should present original, unpublished research results.
3. All papers must be written in English and limited to 2–4 pages, including text, figures, tables, and references.
4. The final version of accepted papers must be submitted in either Word or LaTeX format. Please refer to the IEEE conference paper templates at Manuscript Templates for Conference Proceedings | IEEE
SUGGESTED TOPICS
A. Antennas, Antenna Applications and Emerging Technologies
A1. Antenna Theory
A2. Antenna Feeds and Matching Circuit
A3. Microstrip Antennas, Arrays and Circuits
A4. Phased-array Antennas
A5. Electrically Small Antennas
A6. Adaptive, Active, and Smart Antennas
A7. Multi-Band Antennas
A8. Broadband/Ultra-wideband Antennas
A9. Guided and Leaky Wave Antennas
A10. Dielectric Resonator Antennas
A11. Mutual Coupling in Antenna Arrays
A12. Reconfigurable Antennas and Arrays
A13. Reflector and Reflectarray Antennas
A14. Antenna Measurements
A15. FSS, Polarizers and Radomes
A16. Biomedical Applications
A17. MIMO Implementations and Applications
A18. Mobile and PCS Antennas
A19. Vehicular Antennas and Electromagnetics
A20. Software-defined/Cognitive Radio
A21. On-chip Antennas
A22. Wireless Power Transmission and Harvesting
A23. 3D Printed Antennas and Structures
A24. Millimeter-wave and Sub-mm-wave Antennas
A25. Terahertz, infrared, and Optical Antennas
A26. Other types of antennas
B. Propagation & Related Topics
B1. Mobile & Indoor Propagation & Modeling
B2. Millimeter & Optical Wave Propagation
B3. Propagation at THz Band
B4. Earth-Space & Terrestrial Propagation
B5. Radio Meteorology
B6. Remote Sensing
B7. SAR Polarimetry & Interferometry
B8. Tunnel Propagation
B9. Propagation in Ionized and Non-Ionized Media
B10. Radio Astronomy
B11. Ionospheric Modification
B12. Earth Space Sounding
B13. New Concept SAR
B14. Propagation in Random and Complex Media
B15. Propagation in Deep Space and Deep Sea
B16. Propagation with Big Data and Artificial Intelligence
C. Electromagnetic Theory
C1. Theoretical electromagnetics
C2. Nonlinear electromagnetics
C3. Transient fields and effects
C4. Ultra-wideband electromagnetics
C5. Bio-electromagnetics
C6. Geo-electromagnetics
C7. THz electromagnetics
C8. Nano-electromagnetics
C9. Electromagnetic interaction and coupling
C10. Electromagnetic radiation, scattering and diffraction
C11. Guided waves and wave-guiding structures
C12. Frequency-selective surfaces and filters
C13. Metamaterials and metasurfaces
C14. 2D materials based structures
C15. Electromagnetic bandgap materials
C16. Electromagnetic absorbing materials
C17. Electromagnetic imaging, inverse scattering and sensing applications
C18. Electromagnetic stealth techniques
C19. Electromagnetic measurements
C20. Electromagnetic education
D. Computational Electromagnetics
D1. Integral Equation Methods
D2. Differential Equation Methods
D3. Domain Decomposition Methods
D4. Hybrid Techniques
D5. Optimization Methods in EM Designs
D6. Asymptotic & High-Frequency Techniques
D7. Fast Direct Methods
D8. Time Domain/Frequency Domain Methods;
D9. Multiscale and Multiphysics Computation;
D10. Low-Frequency Electromagnetics
D11. Computational Bioelectromagnetics
D12. Pre- & Post-Processing
D13. Learning Methods in CEM;
D14. High Performance Computing, Parallel and GPU Computations;
D15. Inverse Scattering and Imaging
D16. Novel Methods in CEM
E. Electromagnetic Environment Effects (E3), Electromagnetic Compatibility (EMC) & Protection
E1. Electromagnetic environment effects (E3)
E2. Electromagnetic noise and interference sources
E3. Computational electromagnetics & multiphysics in electromagnetic compatibility and protection
E4. Model Validation
E5. Electromagnetic radiation hazards
E6. Intentional electromagnetic interferences
E7. Lightning electromagnetic pulse (LEMP)
E8. High power microwave (HPM)
E9. High-power electromagnetics
E10. Crosstalk
E11. Signal integrity
E12. Immunity and susceptibility
E13. EMC standards
E14. EMC design
E15. EMC test and measurement technologies
E16. Electromagnetic protection materials and devices
E17. On-chip EMC and protection
E18. EMC & protection in 3D integrated and packaging micro-systems
E19. EMC & protection in wireless communication and radar systems
E20. EMC& protection of warship platforms
E21. EMC & protection of space platforms
E22. EMC in automotive and high-speed trains
E23. EMC in power transmission systems
E24. Emerging EMC technologies
F. Wireless communication and related topics
F1. 5G and 6G terrestrial channel measurement and models
F2. 6G space-air-ground channel measurement and models
F3. RIS channel measurement and models
F4. Satellite channel measurement and models
F5. High-speed train channel measurements and models
F6. Vehicular to vehicular propagation and models
F7. IoT scenario channel propagation and models
F8. UAV scenario channel propagation and models
F9. Massive MIMO channel propagation and models
F10. Indoor, urban, terrestrial, tropospheric and ionospheric propagation
F11. Millimeter-wave, sub-mm-wave, terahertz, optical propagation and antennas
F12. Submarine channel measurement and models
F13. Channel sounding and parameter estimation techniques
F14. Channel emulation and test techniques
F15. Vehicular antennas and electromagnetics
F16. 5G and 6G multi-band and multiple-element antennas
F17. Radar, localization and sensing
F18. Standards progress and channel methodology
F19. Intelligent radio environment using reconfigurable intelligent surfaces
G. Others
G1. High-Power Microwave Applications
G2. UWB & Impulse Applications
G3. Ubiquitous Network Systems
G4. Radio Technologies for Intelligent Transport Systems
G5. Subsurface Sensing
G6. MEMS-NEMS & MMIC
G7. Passive & Active Circuits
G8. Power Amplifiers, Linearization, & Active Components
G9. Millimeter Wave & Sub- Millimeter Wave Components, Circuits & Systems
G10. Signal Processing for Communications
G11. Advanced Process, Packaging & Integration Technologies
G12. 3D RF Technology
G13. Electromagnetic Materials
G14. Earthquake Precursors & Monitoring
G15. integrated Communications and Sensing System
G16. Other Related Topics