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

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WINNER D5.4 v. 1.4 3.2.1 Scenario A1 The number of different taps in the delay line has been selected according to the measurements data. The number selected is larger than the median value to represent an environment that is more demanding than average and also to provide a reasonably low frequency correlation. The offset angles of each ray within every ZDSC are calculated as shown in Table 3.10. The CDL parameters of LOS and NLOS condition are given in Table 3.13 and Table 3.14, respectively. 3.2.1.1 LOS ZDSC # delay [ns] Table 3.13: Scenario A1: LOS Clustered delay line model, indoor environment. Power [dB] AoD [º] AoA [º] K- factor [dB] MS speed = 1 m/s, direction U(0 o ,360 o ) 1 0 0 0 0 12.7 -0.23 * -22.9 ** 2 5 -1.7 4.25 -61.8 -10.7 3 10 -6.2 0.54 -42.8 -16.2 4 15 -7.7 -4.55 -33.9 -17.7 5 20 -9.3 0.78 -27.2 -19.3 6 25 -12.1 -3.14 16.6 -22.1 7 30 -12.7 3.74 41.2 -22.7 8 35 -12.7 -2.83 -15.6 -22.7 9 45 -14.7 2.01 2.54 -24.7 10 55 -16.3 5.83 -89.1 -26.3 11 65 -16.8 -10.9 40.9 -26.8 -∞ Number of rays /ZDSC = 10 + Ray Power [dB] ZDSC AS at MS [º] = 5 ZDSC AS at BS [º] = 5 Composite AS at MS [º] = 32.5 Composite AS at BS [º] = 5.1 12 75 -18.4 -13.4 124.0 -28.4 * ** + Power of dominant ray, Power of each other ray Clusters with high K-factor will have 11 rays. 3.2.1.2 NLOS ZDSC # Table 3.14: Scenario A1: NLOS Clustered delay line model, indoor environment. delay [ns] Power [dB] AoD [º] AoA [º] K- factor [dB] MS speed = 1 m/s, direction U(0 o ,360 o ) 1 0 0 0 0 0 2 5 -0.9 17.1 19.4 -10.9 3 10 -1.5 -2.09 33.2 -11.5 4 15 -1.6 4.99 15.2 -11.6 5 20 -2.0 -11.4 -20.7 -12.0 6 25 -2.6 -22.9 71.2 -12.6 7 30 -3.4 43.4 48.3 -13.4 8 35 -4.5 -32.2 92.6 -14.5 9 40 -5.5 -22.0 49.0 -15.5 10 45 -5.5 52.4 43.4 -15.5 11 50 -5.0 1.57 -66.1 -15.0 -∞ Number of rays /ZDSC = 10 Ray Power [dB] ZDSC AS at MS [º] = 5 ZDSC AS at BS [º] = 5 Composite AS at MS [º] = 39.1 Composite AS at BS [º] = 23.2 12 55 -4.7 37.8 -30.8 -14.7 Page 30 (167)
WINNER D5.4 v. 1.4 13 65 -5.4 8.39 -59.0 -15.4 14 75 -9.0 -27.5 14.1 -19.0 15 85 -11.3 -43.9 -7.76 -21.3 16 95 -12.5 13.7 -0.59 -22.5 17 105 -13.6 63.8 -13.4 -23.6 18 115 -15.1 2.31 3.29 -25.1 19 125 -16.8 8.77 4.22 -26.8 20 135 -18.7 31.1 15.9 -28.7 3.2.2 Scenario B1 The parameters of the CDL model have been extracted from measurements with chip frequency of 60 MHz at frequency range of 5.3 GHz. The number of ZDSCs is selected to be close to the median and provide low frequency correlation. The CDL parameters of LOS and NLOS condition are given in Table 3.15 and Table 3.16, respectively. 3.2.2.1 LOS Table 3.15: Scenario B1: LOS Clustered delay line model. ZDSC # delay [ns] Power [dB] AoD [º] AoA [º] K- factor [dB] MS speed = 50 km/h, direction U(0 o ,360 o ) 1 0 0 0 0 16 -0.11 * -26.11 ** 2 10 -1.2 -22 -10 9 -1.72 -20.7 3 25 -7.4 -12 20 3 -9.16 -22.16 4 30 -7.4 -12 20 -17.4 5 45 -8.4 -2 -123 -18.4 6 65 -13.0 10 -31 -23 7 85 -15.1 -4 161 -25.1 8 105 -16.1 8 -7 -26.1 -∞ Number of rays /ZDSC =10 + Ray Power [dB] ZDSC AS at MS [º] = =18 ZDSC AS at BS [º] =3 Composite AS at MS [º] =37.1 Composite AS at BS [º] = 5.6 * ** + Power of dominant ray, Power of each other ray Clusters with high K-factor will have 11 rays. 3.2.2.2 NLOS ZDSC # delay [ns] Power [dB] Table 3.16: Scenario B1: NLOS Clustered delay line model. AoD [º] AoA [º] K- factor [dB] MS speed = 50 km/h, direction U(0 o ,360 o ) 1 0 -1.25 4 0 9 -1.8 * -20.8 ** 2 10 0 40 25 6 -1 * -17 * 3 40 -0.38 -10. 29 -10.38 4 60 -0.10 48. -31 -10.10 5 85 -0.73 -36. 37 -10.73 6 110 -0.63 -40 21 -10.63 7 135 -1.78 -26 13 -∞ Number of rays /ZDSC = 10 + Ray Power [dB] -11.78 ZDSC AS at MS [º] =22 ZDSC AS at BS [º] =10 Composite AS at MS [º] =36.4 Composite AS at BS [º] =12.4 Page 31 (167)
Page 1 and 2: WINNER D5.4 v. 1.4 IST-2003-507581
Page 3 and 4: WINNER D5.4 v. 1.4 Authors Partner
Page 5 and 6: WINNER D5.4 v. 1.4 Partner Name Pho
Page 7 and 8: WINNER D5.4 v. 1.4 4.3.2 Sum-of-Sin
Page 9 and 10: WINNER D5.4 v. 1.4 List of Acronyms
Page 11 and 12: WINNER D5.4 v. 1.4 PART I The deliv
Page 13 and 14: WINNER D5.4 v. 1.4 the models defin
Page 15 and 16: WINNER D5.4 v. 1.4 Figure 2.1: Layo
Page 17 and 18: WINNER D5.4 v. 1.4 2.1.7 Scenario D
Page 19 and 20: WINNER D5.4 v. 1.4 respectively, wh
Page 21 and 22: WINNER D5.4 v. 1.4 ∆ τ (m) 6.0 5
Page 23 and 24: WINNER D5.4 v. 1.4 (dB) XPR H (dB)
Page 25 and 26: WINNER D5.4 v. 1.4 9,10 ± 1.9718 O
Page 27 and 28: WINNER D5.4 v. 1.4 3.1.6.1 Scenario
Page 29: WINNER D5.4 v. 1.4 G ( ϕ ,m ) is t
Page 33 and 34: WINNER D5.4 v. 1.4 3.2.3.2 NLOS ZDS
Page 35 and 36: WINNER D5.4 v. 1.4 Shadow-fading s
Page 37 and 38: WINNER D5.4 v. 1.4 12 815 -19.2 -17
Page 39 and 40: WINNER D5.4 v. 1.4 15 800 -5.1 12 8
Page 41 and 42: WINNER D5.4 v. 1.4 PART II This sec
Page 43 and 44: h WINNER D5.4 v. 1.4 the properties
Page 45 and 46: WINNER D5.4 v. 1.4 { } ( τφθϕϑ
Page 47 and 48: WINNER D5.4 v. 1.4 pdf as the doubl
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Page 51 and 52: WINNER D5.4 v. 1.4 A measurement ca
Page 53 and 54: WINNER D5.4 v. 1.4 Heigh_Gain dB =
Page 55 and 56: WINNER D5.4 v. 1.4 and choosing an
Page 57 and 58: WINNER D5.4 v. 1.4 system used by K
Page 59 and 60: WINNER D5.4 v. 1.4 Sampling frequen
Page 61 and 62: WINNER D5.4 v. 1.4 RX 1 RX module 1
Page 63 and 64: WINNER D5.4 v. 1.4 5.2.4 Scenario C
Page 65 and 66: WINNER D5.4 v. 1.4 GHz were conduct
Page 67 and 68: WINNER D5.4 v. 1.4 5.3 Description
Page 69 and 70: WINNER D5.4 v. 1.4 The equation for
Page 71 and 72: WINNER D5.4 v. 1.4 Figure 5.18: Sha
Page 73 and 74: WINNER D5.4 v. 1.4 Figure 5.21: Pat
Page 75 and 76: WINNER D5.4 v. 1.4 The measured dis
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Page 79 and 80: WINNER D5.4 v. 1.4 the behaviour is
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WINNER D5.4 v. 1.4 (a) LOS (b) NLOS
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WINNER D5.4 v. 1.4 5.4.5 Distributi
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WINNER D5.4 v. 1.4 5.4.6 Angle prop
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WINNER D5.4 v. 1.4 1 1 Prob(r-facto
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WINNER D5.4 v. 1.4 P [dB] 0 -2 -4 -
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WINNER D5.4 v. 1.4 a Figure 5.49: P
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WINNER D5.4 v. 1.4 90% 17 27 mean 1
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WINNER D5.4 v. 1.4 0.35 PDF 0.3 0.2
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WINNER D5.4 v. 1.4 (a) LOS (b) NLOS
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WINNER D5.4 v. 1.4 Figure 5.59: K-f
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WINNER D5.4 v. 1.4 Table 5.39: The
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WINNER D5.4 v. 1.4 Figure 5.64: Dis
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WINNER D5.4 v. 1.4 5.4.12.5 Scenari
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WINNER D5.4 v. 1.4 Figure 5.71: The
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WINNER D5.4 v. 1.4 Class F [GHz] Di
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WINNER D5.4 v. 1.4 5.5.2 Scenario B
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WINNER D5.4 v. 1.4 f ( γ ) cos( ϕ
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WINNER D5.4 v. 1.4 transmitter loca
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WINNER D5.4 v. 1.4 houses surrounde
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WINNER D5.4 v. 1.4 It is valid in d
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WINNER D5.4 v. 1.4 5.5.6 Scenario D
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WINNER D5.4 v. 1.4 5.6 Interpretati
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WINNER D5.4 v. 1.4 break-points or
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WINNER D5.4 v. 1.4 When adjusting t
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WINNER D5.4 v. 1.4 5.6.9 Frequency
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WINNER D5.4 v. 1.4 6. Channel Model
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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 Link end BS MS P
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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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