Final report on link level and system level channel models - Winner

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WINNER D5.4 v. 1.4 a Figure 5.52: a) Distributions of the path delays for the different sub-scenarios. b 5.4.9.2 Scenario B1 Figure 5.53 shows the empirical probability density function of the differential delays of the ZDSCs in LOS and NLOS cases. It can be seen that the distribution of ZDSC delays follows exponential shape for LOS case and follows uniform distribution shape in NLOS up to about 400 ns and after 400 ns it has exponential shape. (a) LOS (b) NLOS Figure 5.53: Empirical probability density functions of the ZDSC delays. 5.4.9.3 Scenario B3 In Figure 5.54 distributions of the ZDSC delays for the scenario B3 for LOS and NLOS environments are presented. As expected, in NLOS case probability of ZDSC with higher delays is higher as in the LOS case. Page 94 (167)
WINNER D5.4 v. 1.4 0.35 PDF 0.3 0.25 0.2 0.15 0.1 0.05 0 0 20 40 60 80 100 ZDSC delays [ns] PDF 0.25 0.2 0.15 0.1 0.05 0 0 20 40 60 80 100 ZDSC delays [ns] (a) LOS (b) NLOS Figure 5.54: Distributions of the ZDSC delays for the different sub-scenarios, a) LOS, b) NLOS. 5.4.9.4 Scenario C1 The percentiles of the distribution of the path delays is shown in the Table 5.31. Table 5.31: Percentiles of the distribution of the path delays in a suburban C1 LOS scenario. Path delay (ns) 10% 50% 90% mean Suburban macro 9.0 175 1525 528 Also now the distribution of the path delays fits well with the exponential distribution. 5.4.9.5 Scenario D1 The percentiles of the CDF of the path delays are shown in Table 5.32. The measured probability density functions of the path delays are shown in the Figure 5.55. The distributions can be fitted to an exponential distribution as can be seen in the figure. Table 5.32: The 10, 50 and 90 % percentiles for the cumulative distribution function of the path delays for an outdoor LOS and NLOS environments at 5.25 GHz. Path delay (ns) Percentile LOS NLOS 10% 0 0 50% 100 80 90% 403 294 mean 165 124 The time constants are 140 ns for LOS and 110 ns for NLOS conditions. Page 95 (167)
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WINNER D5.4 v. 1.4 IST-2003-507581
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WINNER D5.4 v. 1.4 Authors Partner
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WINNER D5.4 v. 1.4 Partner Name Pho
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WINNER D5.4 v. 1.4 4.3.2 Sum-of-Sin
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WINNER D5.4 v. 1.4 List of Acronyms
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WINNER D5.4 v. 1.4 PART I The deliv
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WINNER D5.4 v. 1.4 the models defin
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WINNER D5.4 v. 1.4 Figure 2.1: Layo
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WINNER D5.4 v. 1.4 2.1.7 Scenario D
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WINNER D5.4 v. 1.4 ∆ τ (m) 6.0 5
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WINNER D5.4 v. 1.4 (dB) XPR H (dB)
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WINNER D5.4 v. 1.4 9,10 ± 1.9718 O
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WINNER D5.4 v. 1.4 3.1.6.1 Scenario
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WINNER D5.4 v. 1.4 G ( ϕ ,m ) is t
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WINNER D5.4 v. 1.4 3.2.3.2 NLOS ZDS
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WINNER D5.4 v. 1.4 Shadow-fading s
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WINNER D5.4 v. 1.4 PART II This sec
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Final report on link level and system level channel models - Winner

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