Policy on Intellectual Property Right (IPR)
Annex 1
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 LoS
situation
UHF propagation
SHF propagation up to 15 GHz
Millimetre-wave propagation
4.1.2 NLoS
situations
4.2 Models for
propagation over roof-tops
Propagation for urban area
Propagation for suburban area
Millimetre-wave propagation
4.2.1 Urban
area
Calculation of L1msd for l > ds
Calculation of L2msd for l < ds
4.2.2 Suburban
area
4.3 Models for propagation
between terminals located from below roof-top height to near street level
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
5.2 Angular
profile
5.2.1 Angular
spread for below roof-tops propagation environments
5.3 Number of
signal components
5.3.1 Over-rooftops propagation environments
5.3.2 Below-rooftops propagation environments
5.4 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