REPORT ITU-R
F.2060
Fixed service use in the IMT-2000 transport network
1 Introduction
2 Scope
3 References
4 List of acronyms
5 Structure of IMT-2000 transport network
5.1
Example of the hierarchical levels in IMT-2000 transport network
5.2
Capacity and hop length requirements in the transport network
5.3
Transportation media used in the transport network
6 FS applications
within IMT‑2000 transport networks
6.1
Characteristics of FS bands
6.1.1 Information on
possible frequency bands for IMT-2000 transport networks
6.1.2 Impact of rain
6.2
Technical requirements for P-P and P-MP systems
6.2.1 Maximizing spectrum
utilization
6.2.2 Traffic handling
capability
6.2.3 Transport mechanism
6.2.5 Protection
6.3
Density of P-P links in the IMT-2000 transport network
6.4
Comparison of the topology and the band characteristics
6.4.1 Comparison of the
topology and band characteristics described in � 6.1 (without taking into
account other factors)
6.4.2 Other factors to be
taken into account when considering bands for the IMT‑2000 infrastructure
6.5
Upgrade of existing 2G links into 3G links
6.5.1 Evolution of 3G
networks
6.5.2 Technology
limitations
6.5.3 System gain
6.5.4 Location sharing
6.6
Infrastructure sharing between 3G operators
7 Frequency
assignment aspects
7.1
Use of 2G assignments/conversion of assignments into 3G
7.1.1 Possible changes in
core network frequency requirements
7.1.2 Possible changes in
access network frequency requirements
7.2
Block assignments/Inter-operator protection measures
7.2.1 Advantages and
disadvantages of block assignments
7.2.2 Inter‑operator
protection measures in block assignment scenarios
7.2.3 Examples of
assignment methods
7.2.4 Summary of
assignment aspects
8 Overall summary
Annex 1 Detailed topology of the IMT-2000 transport network
1 Connection
between BS and CS stations
1.1
P-P Applications
1.2
P-MP applications
2 Transport
network structures between the CS and the core network
Appendix 1 to Annex 1 LoS probability simulations between
node stations in the sub-network structure
Annex 2 Examples for estimation of FS spectrum requirements for
IMT-2000 networks in urban areas
1 Glossary of notation and acronyms
2 Introduction
3 General overview
of an IMT-2000 network
4 Estimation of
the micro cell radius
5 Cluster model
5.1 General
5.2
Cluster design
6 Layout of a transmission network
6.1 General
6.2
Some definitions for simulation work
6.2.1 Unit bandwidth BU
6.2.2 Bandwidth of
required frequency spectrum BT
6.2.3 Frequency band
6.2.4 Level at receiver input
6.2.5 C/I
requirements
6.2.6 Polarization
6.3
Layout of a transmission network 34
6.3.1 Structure 1
6.3.2 Structure 2
6.3.3 Structure 3
6.4
Summary of the different structures
Annex 3 Impact of rain on the IMT-2000 transport network
1 Mobile transport
networks in Europe
2 Comparison of
the impact of rain on the use of FS
2.1
Calculation of the margin as a function of the hop length
2.2
Results of the calculations in Zones E, M, N, P and Q
3 Existing case in
the French overseas departments
Annex 4 Examples of frequency assignments in some countries
1 Block assignment
method in Norway
2 Link by link
assignment procedure in the United Kingdom