Content for TS 36.101 Word version: 18.6.0
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B Propagation conditions
B.1 Static propagation condition
B.2 Multi-path fading propagation conditions
B.3 High speed train scenario
B.3A HST-SFN scenario
B.3B HST-SFN scenario for 500 km/h speed
B.3C HST scenario for 500 km/h speed
B.4 Beamforming Model
B.5 Interference models for enhanced performance requirements Type-A
B.6 Interference models for enhanced performance requirements Type-B
B.7 Interference models for enhanced downlink control channel performance requirements Type A and B
B.8 Burst transmission models for Frame structure type 3
B (Normative) Propagation conditions p. 1966
B.1 Static propagation condition p. 1966
B.1.1 UE Receiver with 2Rx p. 1966
B.1.2 UE Receiver with 4Rx p. 1966
B.1.3 UE Receiver with 8Rx p. 1967
B.2 Multi-path fading propagation conditions p. 1968
B.2.1 Delay profiles p. 1968
B.2.2 Combinations of channel model parameters p. 1969
B.2.3 MIMO Channel Correlation Matrices p. 1970
B.2.3.1 Definition of MIMO Correlation Matrices p. 1970
B.2.3.2 MIMO Correlation Matrices at High, Medium and Low Level p. 1976
B.2.3A MIMO Channel Correlation Matrices using cross polarized antennas p. 1979
B.2.3A.1 Definition of MIMO Correlation Matrices using cross polarized antennas p. 1980
B.2.3A.2 Spatial Correlation Matrices using cross polarized antennas at eNB and UE sides p. 1980
B.2.3A.2.1 Spatial Correlation Matrices at eNB side p. 1980
B.2.3A.2.2 Spatial Correlation Matrices at UE side p. 1981
B.2.3A.4 Beam steering approach p. 1984
B.2.3B MIMO Channel Correlation Matrices using two-dimension cross polarized antennas at eNB and cross polarized antennas at UE p. 1984
B.2.3B.1 Definition of MIMO Correlation Matrices using two-dimension cross polarized antennas at eNB and cross polarized antennas at UE p. 1985
B.2.3B.2 Spatial Correlation Matrices using two-dimension cross polarized antennas at eNB and cross polarized antennas at UE p. 1986
B.2.3B.2.1 Spatial Correlation Matrices at eNB side p. 1986
B.2.3B.2.2 Spatial Correlation Matrices at UE side p. 1986
B.2.3B.3 MIMO Correlation Matrices using two-dimension cross polarized antennas at eNB and cross polarized antennas at UE p. 1986
B.2.3B.4 Beam steering approach p. 1989
B.2.3B.4A Beam steering approach with dual cluster beams p. 1990
B.2.4 Propagation conditions for CQI tests p. 1991
B.2.5 Void
B.2.6 MBSFN Propagation Channel Profile p. 1991
B.3 High speed train scenario p. 1994
B.3A HST-SFN scenario p. 1995
B.3B HST-SFN scenario for 500 km/h speed p. 1999
B.3C HST scenario for 500 km/h speed p. 1999
B.4 Beamforming Model p. 1999
B.4.1 Single-layer random beamforming (Antenna port 5, 7, or 8) p. 1999
B.4.1A Single-layer random beamforming (Antenna port 7, 8, 11 or 13 with enhanced DMRS table configured) p. 2000
B.4.2 Dual-layer random beamforming (antenna ports 7 and 8) p. 2000
B.4.3 Generic beamforming model (antenna ports 7-14) p. 2001
B.4.4 Random beamforming for EPDCCH distributed transmission (Antenna port 107 and 109) p. 2001
B.4.5 Random beamforming for EPDCCH localized transmission (Antenna port 107, 108, 109 or 110) p. 2002
B.4.6 Beamforming model for CRI test p. 2002
B.5 Interference models for enhanced performance requirements Type-A p. 2003
B.5.1 Dominant interferer proportion p. 2004
B.5.2 Transmission mode 3 interference model p. 2004
B.5.3 Transmission mode 4 interference model p. 2004
B.5.4 Transmission mode 9 interference model p. 2005
B.6 Interference models for enhanced performance requirements Type-B p. 2005
B.6.1 Transmission mode 2 interference model p. 2005
B.6.2 Transmission mode 3 interference model p. 2005
B.6.3 Transmission mode 4 interference model p. 2006
B.6.4 Transmission mode 9 interference model p. 2006
B.6.5 CRS interference model p. 2007
B.6.6 Random interference model p. 2007
B.7 Interference models for enhanced downlink control channel performance requirements Type A and B p. 2008
B.8 Burst transmission models for Frame structure type 3 p. 2009
