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

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WINNER D5.4 v. 1.4 r AS 10% 2 2 50% 4 3.5 90% 8 6 1 Empirical CDF 1 Empirical CDF CDF 0.5 CDF 0.5 0 0 5 10 15 0 0 2 4 6 r AS r AS (a) LOS case (b) NLOS Figure 5.41: Angle proportionality factor at the BS. Table 5.20: The percentiles for the CDF of the angle proportionality factor in scenario B1 at the BS. Link end BS Propagation condition LOS NLOS 10% 2 0.9 r AS 50% 4 1.1 90% 7 2.2 5.4.6.3 Scenario B3 The angle proportionality factor (r AS ) has been extracted for signals arrive at (or depart from) the MS both in LOS and NLOS propagation conditions for B3 scenario. Figure 5.42 shows the results at the MS and BS for LOS. The corresponding results for the NLOS are shown in Figure 5.43. The percentiles for the CDF of the angle proportionality factor in B3 scenario are shown in Table 5.21 for LOS and NLOS. 1 1 Prob(r-factor @BS < Abscissa) 0.8 0.6 0.4 0.2 Prob(r-factor @BS < Abscissa) 0.8 0.6 0.4 0.2 0 0 2 4 6 8 10 r-factor @BS 0 0 2 4 6 8 10 r-factor @BS (a) (b) Figure 5.42: Angle proportionality factor at the (a) BS and (b) MS under LOS. Page 86 (167)
WINNER D5.4 v. 1.4 1 1 Prob(r-factor @BS < Abscissa) 0.8 0.6 0.4 0.2 Prob(r-factor @MS < Abscissa) 0.8 0.6 0.4 0.2 0 0 2 4 6 8 10 r-factor @BS 0 0 2 4 6 8 10 r-factor @MS (a) (b) Figure 5.43: Angle proportionality factor at the (a) BS and (b) MS under NLOS. Table 5.21: The percentiles for the CDF of the angle proportionality factor in scenario B3 at the BS and the MS, LOS and NLOS. Link end BS MS Propagation condition Percentile (degrees) LOS NLOS LOS NLOS 10 0.6 0.7 1.0 0.8 50 1.2 1.2 1.5 1.1 90 2.3 2.7 2.8 1.8 mean 1.5 1.6 1.9 1.3 5.4.6.4 Scenario D1 The angle proportionality factor for a rural (D1) environment is shown in the Table 5.22 below for the LOS and NLOS propagation conditions. Table 5.22: The percentiles for the CDF of the angle proportionality factor. Rural Tyrnävä LOS NLOS BS, MS, r φ r ϕ 10% 0.00 0.00 50% 0.74 0.62 90% 1.58 2.85 mean 1.17 2.11 10% 0.00 0.00 50% 3.66 2.32 90% 10.4 13.1 mean 6.70 8.84 5.4.7 Modelling of PDP Power Delay Profile (PDP) is the distribution of the power of the multipath components versus delay time. Power delay profiles for LOS and NLOS propagation conditions have been fitted to the exponential function P −bτ ( τ ) e = (5.18) where τ is the excess delay and b is a time constant. Excess delay is difference between delays of the multipath components and the delay of the first multipath component. Page 87 (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 respectively, wh
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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 13 65 -5.4 8.39
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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 ⎡χ ms1, c1 χ
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WINNER D5.4 v. 1.4 PathLossModel An
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WINNER D5.4 v. 1.4 MsGainAnglesAz M
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WINNER D5.4 v. 1.4 periods. Path-lo
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WINNER D5.4 v. 1.4 7. Test and Veri
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WINNER D5.4 v. 1.4 3.2.C Ricean wit
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WINNER D5.4 v. 1.4 [FBR+94] [FDS+94
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WINNER D5.4 v. 1.4 [SCME] [SDD00] [
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WINNER D5.4 v. 1.4 9. Appendix 9.1
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WINNER D5.4 v. 1.4 results show no
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WINNER D5.4 v. 1.4 Under LOS condit
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WINNER D5.4 v. 1.4 10% 4.4 50% 4.5
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WINNER D5.4 v. 1.4 0.05 0.04 0.03 P
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WINNER D5.4 v. 1.4 LNS (m) ζ (dB)
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WINNER D5.4 v. 1.4 9.4 Literature r
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Final report on link level and system level channel models - Winner

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