Annex 1 – Generic
network architecture for global broadband satellite systems
1
Introduction
2
Global network architecture
2.1 Services
2.2 Broadband
applications
2.3 Topologies
2.4 Services
architecture
2.5 Protocol
architecture
2.6 IP interworking
Appendix 1 to Annex 1 – List of references
Annex 2 – Air Interface Standard TIA-1008 (IPoS)
1
Introduction
2
Network architecture
2.1 Network
segments
2.2 Network
interfaces
2.3 Remote terminal
characteristics
3
IPoS satellite interface
3.1 IPoS protocol
reference model
3.2 Layer-wise
functional partitioning
3.3 PHY layer
3.4 Outroute
satellite transmission
3.5 Inroute
satellite transmission
3.6 Data link layer
(DLL)
3.7 Satellite link
control (SLC) sublayer
3.8 Media access
control (MAC) sublayer
3.9 Outroute
multiplexing sublayer
3.10 Network
adaptation layer
Annex 3 – Air Interface Standard ETSI EN 301 790 V1.3.1
1
Introduction
2
Reference model of the satellite interaction network
2.1 Protocol stack
model
2.2 System model
2.3
Reference model of the
satellite interactive network
3
Forward link
4
Return link baseband physical layer specification and multiple
access definition
4.1 RCST
synchronization
4.1.1
Timing control
4.1.2
Carrier synchronization
4.1.3
Burst synchronization
4.1.4
Symbol clock synchronization
4.2 Burst format
4.2.1
Traffic (TRF) burst formats
4.2.2
Synchronization and acquisition burst formats
4.3
Modulation
4.4 MAC messages
5
Protocol stack
6
Capacity request categories
6.1 Continuous-rate
assignment (CRA)
6.2 Rate-based
dynamic capacity (RBDC)
6.3 Volume-based
dynamic capacity (VBDC)
6.4 Absolute
volume-based dynamic capacity (AVBDC)
6.5 Free-capacity
assignment (FCA)
7
Multiple access
7.1 MF‑TDMA
8
Security, identity and encryption
Annex 4 – Air interface specifications for global
broadband communications between earth stations and regenerative satellites
based on ETSI BSM/RSM‑A
1
Scope
2
RSM‑A air interface overview
2.1 RSM‑A description
2.2 RSM‑A
protocol architecture
3
Physical layer
3.1 Uplink
3.1.1
Coding
3.1.2
Frame structure
3.1.3
Modulation
3.1.4
Uplink carrier modes
3.1.5
Uplink power control
3.2 Downlink
3.2.1
Coding
3.2.2
Frame structure
3.2.3
Modulation
3.2.4
Downlink carrier modes
3.3 Other physical
layer functions
4
Data link layer
4.1 SLC sublayer
functions
4.2 SMAC sublayer
4.3 Modes of
operation
4.4 Class of
service (CoS) and related concepts
4.5 Bandwidth
management-resource allocation and queue management
4.5.1
Rate-oriented sessions
4.5.2
Volume-oriented sessions
4.5.3
Contention-mode access
4.5.4
Persistent aloha
5
Security access module – Functional description