TS 101 999 : 1.1.1
Current
The latest, up-to-date edition.
BROADBAND RADIO ACCESS NETWORKS (BRAN); HIPERACCESS; PHY PROTOCOL SPECIFICATION
Hardcopy , PDF
English
Intellectual Property Rights
Foreword
1 Scope
2 References
3 Definitions, symbols and abbreviations
3.1 Definitions
3.2 Symbols
3.3 Abbreviations
4 Overview
4.0 General
4.1 Point to Multi-Point (PMP) architecture
4.2 HIPERACCESS reference model and interfaces
4.3 Duplex Schemes (FDD, H-FDD and TDD)
4.3.1 General
4.3.2 FDD
4.3.2.1 Half-FDD
4.3.3 TDD
4.4 Adaptive PHY modes
4.5 Multiplexing technique and frame structures
4.5.1 Downlink
4.5.2 Uplink
4.6 Conceptual block diagram of the PHY layer
4.7 Traffic and Control Bytes from the DLC- to the PHY layer
4.7.1 Downlink
4.7.1.1 DL MAC PDU (PHY SDU)
4.7.1.2 DL control zone
4.7.2 Uplink
4.7.2.1 UL long MAC PDU (PHY SDU)
4.7.2.2 UL short signalling MAC PDU (PHY SDU)
5 Physical layer
5.1 Introduction
5.2 General aspects
5.2.1 Channel model for HIPERACCESS
5.2.1.1 Rain fading
5.2.1.2 Multi-path propagation
5.2.2 Channelization scheme
5.2.2.1 Channel spacing
5.2.2.2 Channel planning
5.2.3 PHY layer system features summary
5.2.4 Environmental, safety and electromagnetic conditions
5.2.5 Supports (Recommendations)
5.3 Base-band parameters
5.3.1 Data scrambling
5.3.2 Error control
5.3.2.1 Forward error correction
5.3.2.2 ARQ support
5.3.3 Signal constellations and mapping
5.3.3.1 4QAM with Gray mapping (mandatory for uplink
and for downlink)
5.3.3.2 16QAM with Gray mapping (mandatory for
downlink, optional for uplink)
5.3.3.3 64QAM with Gray mapping (optional and only
for downlink)
5.3.4 Framing and burst formatting
5.3.4.1 Frame structure
5.3.4.2 Downlink TDMA-burst for optional TDMA zone
5.3.4.3 Uplink burst
5.3.4.4 Preambles structure
5.3.5 Pulse shaping and wave forming
5.3.5.1 Pulse shaping
5.3.5.2 Wave forming
5.4 Adaptive coding and modulation
5.4.1 General
5.4.2 Downlink PHY modes
5.4.3 Uplink PHY modes
5.4.4 Means for UL and DL PHY modes adaptation
5.4.5 DL Control zone protection
5.4.6 UL short signalling MAC PDU protection
5.4.7 Summary of PHY modes for mandatory FEC scheme
5.5 Radio transmission
5.5.1 RF carriers
5.5.1.1 Nominal frequency bands
5.5.1.2 Channel plans
5.5.2 Accuracy
5.5.2.1 Carrier frequency accuracy
5.5.2.2 Symbol Clock- nominal frequency and accuracy
5.5.3 Transmission power
5.5.3.1 Transmitted power at the antenna connector
5.5.3.2 Transmitter maximum output power
5.5.3.3 Transmit spectrum mask and adjacent channel
performance (NFD)
5.5.3.4 AT-transmit power time mask
5.5.3.5 Transmit Power Control
5.5.4 Automatic Transmit Timing Control, ATTC
5.5.5 Unwanted RF radiation
5.5.6 Tx-spurious emissions
5.6 Receiver parameters
5.6.1 Rx spurious emissions (external)
5.6.2 Radio receiver performance
5.6.2.1 Receiver sensitivity
5.6.2.2 Receiver dynamic
5.7 Modulation accuracy
5.8 Switching and load levelling times
5.8.1 Transmitter ramping time
5.8.2 TDD switching time
5.8.3 Load levelling and carrier recovery time
5.9 Network management issues
5.10 Antennas and EIRP classes
5.10.1 APT
5.10.2 AT
5.10.3 Antenna for 42 GHz Band (40,5 GHz to 43,5 GHz)
5.10.4 Antenna for 31 GHz and 32 GHz Bands (31,0 GHz to
31,8 GHz; 31,8 GHz to 33,4 GHz)
5.10.5 Antenna for 26 GHz and 28 GHz Bands (24,25 GHz to
26,5 GHz; 27,5 GHz to 29,5 GHz)
5.11 Polarization
5.12 Summary of PHY layer parameters
5.12.1 Negotiated/broadcast PHY layer parameters
5.12.2 Physical layer measurement parameters
5.12.2.1 Rx measurement parameters
5.12.2.2 Tx Measurement Parameters
Annex A (informative): Analysis of the HIPERACCESS radio
coexistence
A.1 Intra-operator/Intra-system co-existence
A.2 Inter-operator/Inter-system co-existence
A.2.1 Coexistence in the 42 GHz band
A.2.2 Coexistence in the 26/28 GHz bands
A.2.3 Coexistence in the 32 GHz bands
A.2.4 Co-operative deployment
A.3 Inter-operator/Intra-system co-existence
A.3.1 The ERC report 99 "ISOP" methodology based on
ERC/Report 99
A.3.2 Downlink (AP-AT) co-existence scenario
A.3.3 Uplink (AT to AP) co-existence scenario
A.3.4 AP to AP co-existence scenario
Annex B (informative): The Interference Scenario Occurrence
Probability (ISOP) method [based on ERC/Report 99]
Annex C (informative): Rain cells model analysis
Annex D (informative): Example of estimation of the interference
rejection of the HIPERACCESS receiver in the 42 GHz band
Annex E (informative): Summary of the HIPERACCESS parameters
required for the coexistence analysis
Annex F (informative): RF-Channel Plans, Example
F.1 RF virtual vhannel plan in MWS (42 GHz) band for FDD
F.1.1 40,5 GHz to 43,5 GHz band
F.1.2 40,5 GHz to 42,5 GHz band
F.2 RF virtual channel plan in MWS (42 GHz) band for TDD
F.3 Example of heterogeneous system deployment
Annex G (informative): Receiver parameters
G.1 Noise Figures
G.2 C/N values and the implementation losses
G.3 Rx dynamic range calculation
Annex H (informative): Recommendations on the PHY DLC interface
H.1 Interfaces in the Access Point (AP)
H.2 Interfaces in the Access Termination (AT)
Annex I (informative): Performance monitoring parameters
Annex J (informative): Bibliography
History
Applies to the HIPERACCESS air interface with the specifications of layer 1 (physical layer), following the ISO-OSI model. HIPERACCESS is confined to only the radio subsystem consisting of the physical (PHY) layer and the DLC layer - which are both core network independent - and the core network specific convergence sub-layer.
Committee |
BRAN
|
DocumentType |
Standard
|
Pages |
103
|
PublisherName |
European Telecommunications Standards Institute
|
Status |
Current
|
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