광신 추적법을 이용한 마이크로셀 전파환경 예측모델 개발

References

1. 42 IEEE Veh. Technol. Conf. v.2 A ray tracing method for predicting path loss and delay spread in microcellular environments K. R. Schaubach;N. J. Davis;T. S. Rappaport
2. IEEE Trans, Electromagn. Compat. v.37 A theory for propagation path loss characteristics in a city street-grid S. Y. Tan;H. S. Tan
3. Electron. Left. v.31 Improved three-dimensional ray tracing technique for microcellular propagation models S. Y. Tan;H. S. Tan
4. IEEE Trans. Antennas Propagat. v.32 Finite conductivity uniform GTD versus knife edge diffraction in prediction of propagation path loss R. J. Luebbers
5. Introduction to the Uniform Geometrical Theory of Diffraction D. A. McNamara;C. W. I. Pistorius;J. A. G. Malherbe
6. IEEE Trans. Antennas Propagat. v.20 Delay Doppler Characteristics of Multipath Propagation at 910 MHz in a Suburban Mobile Radio Environment D. C. Cox
7. IEEE Trans. Veh. Technol. v.43 Path Loss. Delay Spread and Outage Models as Functions of Antenna Height for Microcellular System Design M. J. Feuerstein;K. L. Blackard;T. S. Rappaport;S. Y. Seidel;H. H. Xia
8. Proc. Inst. Elec. Eng. Monogr., 507E Double Knife-Edge Diffraction in Field Strength Predictions G. Millington;R. Hewitt;F. S. Immirzi
9. J. Math. Phys. v.19 Path Integrals for Solving Some Electromagnetic Edge Diffraction Problems S. W. Lee
10. Radio Sci. v.17 An Attenuation Function for Multiple Knife-Edge Diffaction L. E. Vogler
11. Radio Sci. v.19 Near-Field Ray Calculation for Multiple Knife-Edge Diffraction J. H. Whitteker
12. 한국통신학회논문지 v.23 no.9B 마이크로셀 전파전파 모델을 위한 결정적인 레이 튜브 방법 손해원;명노훈