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[32] Kouyoumjian, R. G., and P. H. Pathak, A uniform geometrical theory of diffraction for an edge in a perfectly conducting surface, Proc. IEEE, vol. 62, No. 9, 1974, pp. 1448 1469. [33] Russel, S. T. A., C. W. Boston, and T. S. Rappaport, A deterministic approach to predicting microwave diffraction by buildings for microcellular systems, IEEE Trans. Anten. and Propag., vol. 41, No. 12, 1993, pp. 1640 1649. [34] Dougherty, H. T., and L. J. Maloney, Application of diffraction by convex surfaces to irregular terrain situations, Radio Phone, vol. 68B, Feb. 1964, p. 239. [35] Anderson, L. J., and L. G. Trolese, Simpli ed method for computing knife edge diffraction in the shadow region, IRE Trans. Anten. Propagat., vol. AP-6, July 1958, pp. 281 286. [36] Vogler, L. E., The attenuation of electromagnetic waves by multiple knife-edge diffraction, NTIA Report, 1981, pp. 81 86. [37] Vogler, L.E., An attenuation function for multiple knife-edge diffraction, Radio Sci., vol. 17, No. 9, 1982, pp. 1541 1546. [38] Andersen, J. B., UTD multiple-edge transition zone diffraction, IEEE Trans. Anten. Propagat., vol. 45, No. 7, 1997, pp. 1093 1097. [39] Lee, S. W., Path integrals for solving some electromagnetic edge diffraction problems, J. Math. Phys., vol. 19, No. 10, 1978, pp. 1414 1422. [40] Bertoni, H. L., and J. Wal sch, A theoretical model of UHF propagation in urban environment, IEEE Trans. Anten. Propagat., vol. 36, No. 12, 1988, pp. 1788 1796. [41] Bullington, K., Radio propagation at frequencies about 30 Mc, Proc. IRE, vol. 35, No. 10, 1947, pp. 1122 1136. [42] Epstein, J., and D. W. Peterson, An experimental study of wave propagation at 850 Mc, Proc. IRE, vol. 41, No. 5, 1953, pp. 595 611. [43] Atlas of Radio Wave Propagation Curves for Frequencies Between 30 and 10,000 Mc/s, Radio Research Lab., Ministry of Postal Services, Tokyo, Japan, 1957, pp. 172 179. [44] Deygout, J., Multiple knife-edge diffraction of microwaves, IEEE Trans. Anten. Propagat., vol. 14, No. 4, 1966, pp. 947 949. [45] LaGrone, A. H., and C. W. Chapman, Some propagation characteristics of high UHF signals in the immediate vicinity of trees, IRE Trans. Anten. Propagat, vol. AP-9, 1961, pp. 957 963. [46] Tamir, T., On radio-wave propagation in forest environments, IEEE Trans. Anten. Propagat., vol. AP-15, Nov. 1967, pp. 806 817. [47] Sachs, D. L., and P. J. Wyatt, A conducting-slab model for electromagnetic propagation of lateral waves in an inhomogeneous jungle, Radio Science, vol. 3, Feb. 1968, pp. 125 134. [48] Dence, D., and T. Tamir, Radio loss of lateral waves in forest environments, Radio Science, vol. 4, 1969, pp. 307 318. [49] Reudink, D. O., and M. F. Wazowicz, Some propagation experiments relating foliage loss and diffraction loss at X-band and UHF frequencies, IEEE Trans. on Commun., vol. COM-21, Nov. 1973, pp. 1198 1206. [50] Tamir, T., Radio wave propagation along mixed paths in forest environments, IEEE Trans. Anten. Propagat., vol. AP-25, 1977, pp. 471 477. [51] Swarup, S., and R. K. Tewari, Depolarization of radio waves in jungle environment, IEEE Trans. Anten. Propagat., vol. AP-27, Jan. 1979, pp. 113 116.
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