FIGURE 14.17(a). PDF and CCDF of received signal for Stockholm at satellite elevation of 13 . in .NET

Paint QR-Code in .NET FIGURE 14.17(a). PDF and CCDF of received signal for Stockholm at satellite elevation of 13 .
FIGURE 14.17(a). PDF and CCDF of received signal for Stockholm at satellite elevation of 13 .
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FIGURE 14.17(b). PDF and CCDF of received signal for Copenhagen at satellite elevation of 18 .
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FIGURE 14.17(c). PDF and CCDF of received signal for Munich at satellite elevation of 24 .
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FIGURE 14.17(d). PDF and CCDF of received signal for Barcelona at satellite elevation of 34 .
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FIGURE 14.17(e). PDF and CCDF of received signal for Cadiz at satellite elevation of 43 .
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with Saunders model described above. All three approaches were compared with measured data obtained for various elevation angles and different urban environments. To compare the measured data with the three different models, the probabilities Pgg and Pbb were changed to best t the measured data. Five tests were run: Simulation 1: Pgg 0:7, 0.92, 0.9, 0.9, 0.7) and Pbb 0:05, 0.1, 0.08, 0.2, 0.4). Simulation 2: Pgg 0:8, 0.95, 0.85, 0.83, 0.7) and Pbb 0:08, 0.15, 0.25, 0.22, 0.5) Simulation 3: Pgg 0:87, 0.85, 0.8, 0.75, 0.65) and Pbb 0:17, 0.22, 0.25, 0.3, 0.35) Simulation 4: Pgg 0:86, 0.82, 0.79, 0.75, 0.7) and Pbb 0:15, 0.2, 0.17, 0.2, 0.3) Simulation 5: Pgg 0:9, 0.89, 0.85, 0.8, 0.77) and Pbb 0:13, 0.2, 0.25, 0.3, 0.35) The results of such comparisons, for ve different cities and, therefore, for ve elevation angles are presented in Figures 14.18(a) (e). From the results of these simulations, we can conclude that the pure statistical model does not match the measured data. A better t can be found by using both the Saunders model and the multiparametric model. Let us now examine all three models with measurements to try and de ne which one presented the best t to the measured data and also the simplest one. In such a
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FIGURE 14.18(a). CCDF of normalized signal for Stockholm at satellite elevation of 13 for different bad and good states.
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FIGURE 14.18(b). CCDF of normalized signal for Copenhagen at satellite elevation angle of 18 for different bad and good status.
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FIGURE 14.18(c). CCDF of normalized signal for Munich at satellite elevation angle of 24 for different bad and good states.
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comparison we use the Lutz statistical model simulation with Pgg 0:8, 0.95, 0.85, 0.83, 0.7) and Pbb 0:08, 0.15, 0.25, 0.22, 0.5). These results are shown in Figures 14.19(a) (e). The standard deviation, s, was taken not more than 2.6 dB, obtained from our estimations of each built-up pro le. Nevertheless, in Reference [16] the authors took s 3 4 dB, which is not a realistic case when the NLOS regime is very small compared with the LOS component of the total led strength. We also checked this
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FIGURE 14.18(d). CCDF of normalized signal for Barcelona at satellite elevation of 34 for different bad and good states.
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FIGURE 14.18(e). CCDF of normalized signal for Cadiz at satellite elevation angle of 43 for different bad and good states.
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situation in our numerical evaluations. Thus, in Figure 14.20, the CCDF of the received signal for the city Stockholm [20], at a satellite elevation angle of 13 , for all three different models is shown for s 4 dB. It is clearly seen that the results of fading estimation obtained from the multiparametric model are closer to the experimental data compared to the other two models, the statistical and physicalstatistical.
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FIGURE 14.19(a). CCDF of normalized signal for Stockholm at satellite elevation angle of 13 for three different models.
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FIGURE 14.19(b). CCDF of normalized signal for Copenhagen at satellite elevation angle of 18 for three different models.
14.6. MEGA-CELL CONCEPT FOR LAND SATELLITE COMMUNICATION LINKS To give full radio coverage of the Earth and the corresponding mega-cell map, a net of satellites, assembled into global satellite networks with speci c constellations, was developed. Modern global satellite systems were built both for personal and
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FIGURE 14.19(c). CCDF of normalized signal for Munich at satellite elevation angle of 24 for three different models.
FIGURE 14.19(d). CCDF of normalized signal for Barcelona at satellite elevation angle of 34 for three different models.
mobile communications. Presently, a strong effort is being made toward the assessment of main speci cations for the IMT-2000 system for mobile and personal multimedia communications worldwide, which in Europe is named UMTS (Universal Mobile Telecommunication System). IMT-2000 is intended as a family of interoperable systems capable of assisting the roaming/desired user in any mobile network where it may be temporarily present. This system is called a thirdgeneration (3G) system, after the rst-generation (1G) incompatible analog cellular