230 |
Hybrid (12m) [13][13] F. M. Costa, L. A. R. Ramirez, M. H. C. Dias, “Modelo Híbrido para Perda de Propagação em Radioenlaces sobre Terrenos Irregulares com Floresta”, (in Portuguese), in MOMAG 2020 – 19° Simpósio Brasileiro de Microondas e Optoeletrônica e 14° Congresso Brasileiro de Eletromagnetismo , Niterói, Brazil, 2020, pp. 1–4. |
6.23 |
4.46 |
3.03 |
Luebbers (12 m) [7][7] M. Meeks, “VHF propagation over hilly, forested terrain”, IEEE Transactions on Antennas and Propagation , vol 31, no. 3, pp. 483–489, 1983. |
12.63 |
12.21 |
2.99 |
Luebbers [5][5] R. J. Luebbers, “Finite conductivity uniform GTD versus knife edge diffraction in prediction of propagation path loss”, IEEE Transactions on Antennas and Propagation , vol 32, no. 1, pp. 70–76, 1984. |
11.31 |
10.37 |
3.01 |
UTD [4][4] R. G. Kouyoumjian, P. H. Pathak, “A uniform geometrical theory of diffraction for an edge in a perfectly conducting surface”, Proceedings of the IEEE , vol. 62, no 11, pp. 1448–1461, 1974. |
12.83 |
11.98 |
3.00 |
410 |
Hybrid (12m) [13][13] F. M. Costa, L. A. R. Ramirez, M. H. C. Dias, “Modelo Híbrido para Perda de Propagação em Radioenlaces sobre Terrenos Irregulares com Floresta”, (in Portuguese), in MOMAG 2020 – 19° Simpósio Brasileiro de Microondas e Optoeletrônica e 14° Congresso Brasileiro de Eletromagnetismo , Niterói, Brazil, 2020, pp. 1–4. |
5.73 |
3.63 |
2.61 |
Luebbers (12 m) [7][7] M. Meeks, “VHF propagation over hilly, forested terrain”, IEEE Transactions on Antennas and Propagation , vol 31, no. 3, pp. 483–489, 1983. |
10.18 |
9.20 |
2.60 |
Luebbers [5][5] R. J. Luebbers, “Finite conductivity uniform GTD versus knife edge diffraction in prediction of propagation path loss”, IEEE Transactions on Antennas and Propagation , vol 32, no. 1, pp. 70–76, 1984. |
10.37 |
7.42 |
2.61 |
UTD [4][4] R. G. Kouyoumjian, P. H. Pathak, “A uniform geometrical theory of diffraction for an edge in a perfectly conducting surface”, Proceedings of the IEEE , vol. 62, no 11, pp. 1448–1461, 1974. |
11.93 |
9.12 |
2.60 |
751 |
Hybrid (12m) [13][13] F. M. Costa, L. A. R. Ramirez, M. H. C. Dias, “Modelo Híbrido para Perda de Propagação em Radioenlaces sobre Terrenos Irregulares com Floresta”, (in Portuguese), in MOMAG 2020 – 19° Simpósio Brasileiro de Microondas e Optoeletrônica e 14° Congresso Brasileiro de Eletromagnetismo , Niterói, Brazil, 2020, pp. 1–4. |
3.84 |
-0.54 |
2.40 |
Luebbers (12 m) [7][7] M. Meeks, “VHF propagation over hilly, forested terrain”, IEEE Transactions on Antennas and Propagation , vol 31, no. 3, pp. 483–489, 1983. |
5.69 |
4.19 |
2.77 |
Luebbers [5][5] R. J. Luebbers, “Finite conductivity uniform GTD versus knife edge diffraction in prediction of propagation path loss”, IEEE Transactions on Antennas and Propagation , vol 32, no. 1, pp. 70–76, 1984. |
5.40 |
2.79 |
2.69 |
UTD [4][4] R. G. Kouyoumjian, P. H. Pathak, “A uniform geometrical theory of diffraction for an edge in a perfectly conducting surface”, Proceedings of the IEEE , vol. 62, no 11, pp. 1448–1461, 1974. |
6.93 |
4.43 |
2.92 |
910 |
Hybrid (12m) [13][13] F. M. Costa, L. A. R. Ramirez, M. H. C. Dias, “Modelo Híbrido para Perda de Propagação em Radioenlaces sobre Terrenos Irregulares com Floresta”, (in Portuguese), in MOMAG 2020 – 19° Simpósio Brasileiro de Microondas e Optoeletrônica e 14° Congresso Brasileiro de Eletromagnetismo , Niterói, Brazil, 2020, pp. 1–4. |
6.64 |
-3.54 |
4.18 |
Luebbers (12 m) [7][7] M. Meeks, “VHF propagation over hilly, forested terrain”, IEEE Transactions on Antennas and Propagation , vol 31, no. 3, pp. 483–489, 1983. |
6.17 |
1.06 |
4.21 |
Luebbers [5][5] R. J. Luebbers, “Finite conductivity uniform GTD versus knife edge diffraction in prediction of propagation path loss”, IEEE Transactions on Antennas and Propagation , vol 32, no. 1, pp. 70–76, 1984. |
6.64 |
-0.81 |
4.18 |
UTD [4][4] R. G. Kouyoumjian, P. H. Pathak, “A uniform geometrical theory of diffraction for an edge in a perfectly conducting surface”, Proceedings of the IEEE , vol. 62, no 11, pp. 1448–1461, 1974. |
7.21 |
0.69 |
4.25 |
1846 |
Hybrid (12m) [13][13] F. M. Costa, L. A. R. Ramirez, M. H. C. Dias, “Modelo Híbrido para Perda de Propagação em Radioenlaces sobre Terrenos Irregulares com Floresta”, (in Portuguese), in MOMAG 2020 – 19° Simpósio Brasileiro de Microondas e Optoeletrônica e 14° Congresso Brasileiro de Eletromagnetismo , Niterói, Brazil, 2020, pp. 1–4. |
7.48 |
-5.64 |
3.89 |
Luebbers (12 m) [7][7] M. Meeks, “VHF propagation over hilly, forested terrain”, IEEE Transactions on Antennas and Propagation , vol 31, no. 3, pp. 483–489, 1983. |
6.04 |
-1.09 |
3.98 |
Luebbers [5][5] R. J. Luebbers, “Finite conductivity uniform GTD versus knife edge diffraction in prediction of propagation path loss”, IEEE Transactions on Antennas and Propagation , vol 32, no. 1, pp. 70–76, 1984. |
7.17 |
-2.97 |
3.97 |
UTD [4][4] R. G. Kouyoumjian, P. H. Pathak, “A uniform geometrical theory of diffraction for an edge in a perfectly conducting surface”, Proceedings of the IEEE , vol. 62, no 11, pp. 1448–1461, 1974. |
7.89 |
-1.47 |
4.07 |