Policy on Intellectual Property Right (IPR)
�1���� Introduction
�2���� Physical operating environments and definition of cell types
�3���� Path categories
������� 3.1���� Definition of propagation situations
����������������� 3.1.1���� Propagation over rooftops, non-line-of-sight (NLoS)
����������������� 3.1.2���� Propagation along street canyons, NLoS
����������������� 3.1.3���� Line-of-sight (LoS) paths
������� 3.2���� Data requirements
�4���� Path loss models
������� 4.1���� Models for propagation within street canyons
����������������� 4.1.1���� Site-general model
����������������� 4.1.2���� Site-specific model for LoS situation
UHF propagation
SHF propagation up to 15 GHz
Millimetre-wave propagation
����������������� 4.1.3���� Site-specific model for NLoS situations
������� 4.2���� Models for propagation over roof-tops
����������������� 4.2.1���� Site-general model
����������������� 4.2.2���� Site-specific model
Propagation for urban area
Propagation for suburban area
Millimetre-wave propagation
������������������������������ 4.2.2.1���� Urban area
Calculation of L1msd for l > ds
Calculation of L2msd for l < ds
������������������������������ 4.2.2.2���� Suburban area
������� 4.3���� Models for propagation between terminals located from below
roof-top height to near street level
����������������� 4.3.1���� Site-general model
����������������� 4.3.2���� Site-specific model in urban environments
1-Turn NLoS propagation
2-Turn NLoS propagation
����������������� 4.3.3���� Site-specific model in residential environments
������� 4.4���� Default parameters for site-general calculations
������� 4.5���� Additional losses
����������������� 4.5.1���� Influence of vegetation
����������������� 4.5.2���� Building entry loss
�5���� Multipath models
������� 5.1���� Delay profile
����������������� 5.1.1���� Delay spread for over roof-tops propagation
environments
����������������� 5.1.2���� Delay spread for below roof-tops propagation
environments
����������������� 5.1.3���� Delay spread for propagation between terminals
located at street level
������� 5.2���� Angular profile
����������������� 5.2.1���� Angular spread for below roof-tops propagation
environments
����������������� 5.2.2���� Angular spread for propagation between terminals
located at street level
������� 5.3���� Effect of antenna beamwidth
������� 5.4���� Number of signal components
����������������� 5.4.1���� Over-rooftops propagation environments
����������������� 5.4.2���� Below-rooftops propagation environments
������� 5.5���� Fading characteristics
�6���� Polarization characteristics
�7���� Propagation data and prediction methods for the path morphology approach
������� 7.1���� Classification of path morphology
������� 7.2���� Statistical modelling method
������� 7.3���� Path loss model
������� 7.4���� Delay spread model
������� 7.5���� Angular spread model
�8���� Cross-correlation model of multi-link channel
������� 8.1���� Definition of parameters
������� 8.2���� Cross-correlation of the long-term time-spatial parameters
������� 8.3���� Cross-correlation of short-term fading in delay domain
�9���� Propagation characteristics for high Doppler environments