% Config File for scenario "BERLIN_UMi_Campus_LOS" % BERLIN Urban Micro-Cell Campus Line Of Sight % % The channel model parameterization given below, is a result of a measurement campaign conducted at 3.675 GHz in Berlin, Germany. % More details about the campaign were presented at the 50th Asilomar Conference on Signals, Systems and Computers in November 2016 and will be published in the conference proceedings. % Reference: % Leszek Raschkowski, Stephan Jaeckel, Fabian Undi, Lars Thiele, Wilhelm Keusgen, Boonsarn Pitakdumrongkija, Masayuki Ariyoshi, % "Directional Propagation Measurements and Modeling in an Urban Environment at 3.7 GHz", % 50th Asilomar Conference on Signals, Systems and Computers, Nov 2016 % % ================================================================================================== % Channel model parameters % ================================================================================================== DS_mu = -7.61 % Delay Spread (DS) / [log10([s])] mu DS_sigma = 0.28 % Delay Spread (DS) / [log10([s])] sig AS_D_mu = 1.7 % Azimuth Angle of Departure Spread (ASD) / [log10([degrees])] mu AS_D_sigma = 0.18 % Azimuth Angle of Departure Spread (ASD) / [log10([degrees])] sig ES_D_mu = 0.95 % Azimuth Angle of Departure Spread (ASD) / [log10([degrees])] mu ES_D_sigma = 0.2 % Azimuth Angle of Departure Spread (ASD) / [log10([degrees])] sig AS_A_mu = 1.8 % Azimuth Angle of Arrival Spread (ASA) / [log10([degrees])] mu AS_A_sigma = 0.20 % Azimuth Angle of Arrival Spread (ASA) / [log10([degrees])] sig ES_A_mu = 1.2 % Elevation Angle of Arrival Spread (ESA) / [log10([degrees])] mu ES_A_sigma = 0.20 % Elevation Angle of Arrival Spread (ESA) / [log10([degrees])] sig % Assuming: ES_D / AS_D = ES_A / AS_A SF_sigma = 3.3 % Shadow fading (SF) / [dB] sig KF_mu = 2.3 % K-factor (KF) / [dB] mu -> taken from Winner KF_sigma = 3.4 % K-factor (KF) / [dB] sig -> taken from Winner % Cross-Correlations asD_ds = 0.71 % ASD vs DS asA_ds = 0.15 % ASA vs DS asA_sf = -0.16 % ASA vs SF asD_sf = -0.33 % ASD vs SF ds_sf = -0.35 % DS vs SF asD_asA = 0.12 % ASD vs ASA asD_kf = -0.65 % ASD vs KF asA_kf = -0.13 % ASA vs KF ds_kf = -0.57 % DS vs KF sf_kf = 0.47 % SF vs KF esD_sf = -0.58 % ESD vs SF esA_sf = -0.3 % ESA vs SF (Guessed from ASD-SF, ESD-SF, ASA-SF) esD_kf = -0.48 % ESD vs KF esA_kf = -0.2 % ESA vs KF (Guessed from ASD-KF, ESD-KF, ASA-KF) esD_ds = 0.40 % ESD vs DS esA_ds = 0.15 % ESA vs DS (Guessed from ASD-DS, ESD-DS, ASA-DS) esD_asD = 0.41 % ESD vs ASD esA_asD = 0.1 % ESA vs ASD esD_asA = 0.1 % ESD vs ASA esA_asA = 0.4 % ESA vs ASA (Same as ESD-ASD) esD_esA = 0.1 % ESD vs ESA % Delay distribution: exponential % AoD and AoA distribution: Wrapped Gaussian r_DS = 2.15 % Delay scaling parameter rTau xpr_mu = 9 % XPR / [dB] mu xpr_sigma = 3 % XPR / [dB] sig NumClusters = 12 % Number of clusters PerClusterAS_D = 10 % Cluster ASD / [deg] PerClusterES_D = 5 % Cluster ESD / [deg] PerClusterAS_A = 10 % Cluster ASA / [deg] PerClusterES_A = 5 % Cluster ESA / [deg] LNS_ksi = 3 % Per cluster shadowing std / [dB] % Correlation distance in the horizontal plane DS_lambda = 10 % DS correlation distance / [m] AS_D_lambda = 14 % ASD correlation distance / [m] AS_A_lambda = 8 % ASA correlation distance / [m] SF_lambda = 10 % SF correlation distance / [m] KF_lambda = 10 % KF correlation distance / [m] ES_A_lambda = 5 % ESA correlation distance / [m] ES_D_lambda = 7 % ESD correlation distance / [m] % ================================================================================================== % ================================================================================================== % Path Loss Model % ================================================================================================== % valid frequency range: 3.675 [GHz] % valid distance range: 20 < d < 500 [m] % valid BS antenna height: 3 < hBS < 6 [m] % valid MS antenna height: 1.5 m % valid mobility range: 0-20 [km/h] % % B = 0.5*(125.2+123)-35.3*log10(1000) PL_model = logdist_simple PL_A = 35.3 PL_B = 23.8 % ==================================================================================================