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Content for
TR 25.866
Word version: 9.0.0
1…
2…
2
References
3
Definitions, symbols and abbreviations
4
Introduction [1]
5
RF Aspects (RAN WG4)
6
Physical Layer (RAN WG1)
7
Radio Interface Architecture and protocols (RAN WG2)
8
UTRAN Architecture and Application Protocol (RAN WG3)
9
Conclusions
$
Change history
2
References
3
Definitions, symbols and abbreviations
Word‑p. 7
3.1
Definitions
3.2
Symbols
3.3
Abbreviations
4
Introduction [1]
Word‑p. 8
4.1
Task description [1]
5
RF Aspects (RAN WG4)
Word‑p. 9
5.1
Requirements [5]
5.2
Deployment Configurations [7]
Word‑p. 10
5.2.1
Configuration A. CSG, Dedicated Channels, Fixed Power
Word‑p. 11
5.2.2
Configuration B. CSG, Dedicated Channels, Adaptive Power
5.2.3
Configuration C. CSG, Full sharing channels, Adaptive Power
5.2.4
Configuration D. CSG, Partial sharing channels, Adaptive Power
5.2.5
Configuration E. CSG, Co-channel, Adaptive Power
Word‑p. 12
5.2.6
Configuration F: Open Access, dedicated or co-channel
5.3
Interference Scenarios and Analysis
5.3.1
Interference Scenarios [8]
5.3.2
Interference Analysis
Word‑p. 13
5.3.2.1
Assumption [10]
5.3.2.1.1
Indoor Scenario
Word‑p. 17
5.3.2.2
Simulation Results [15][13][22]
Word‑p. 20
5.3.2.2.1
Scenario 1: UE attached to Home Node B (Uplink) → Macro Node B Uplink
Word‑p. 21
5.3.2.2.2
Scenario 2: Home Node B(Downlink) → Macro Node B Downlink (UE)
Word‑p. 23
5.3.2.2.3
Scenario 3: UE attached to Macro Node B(Uplink) → Home Node B Uplink
Word‑p. 27
5.3.2.2.4
Scenario 4: Macro Node B(Downlink) → Home Node B Downlink
Word‑p. 29
5.3.2.2.5
Scenario 5: UE attached to Home Node B(Uplink) → Home Node B Uplink(Home NodeB)
Word‑p. 35
5.3.2.2.6
Scenario 6: Home Node B (Downlink) → Other Home Node B Downlink (UE)
Word‑p. 38
5.3.2.3
Conclusion
Word‑p. 43
5.4
Home NodeB Class Definition
5.4.1
Introduction
5.4.2
Base station classes
Word‑p. 44
5.4.3
Transmitter characteristics
5.4.3.1
Control of NodeB output power
5.4.3.2
Maximum NodeB output power [12]
5.4.3.3
Frequency Accuracy [6]
5.4.3.4
Spurious emissions [9]
Word‑p. 45
5.4.3.4.1
Protection of the BS receiver of own or different BS
5.4.3.4.2
Co-existence with co-located and co-sited base stations
5.4.3.4.3
Co-existence with unsynchronised TDD and UTRA-FDD
5.4.3.4.4
Co-existence with Home NodeB in other bands
Word‑p. 46
5.4.4
Receiver characteristics
5.4.5.1
Reference sensitivity level[17][18]
5.4.5.1.1
The Theoretical Analysis the Noise Rise in Home NodeB
5.4.5.1.2
Simulation for Evaluating the Noise Rise in Home NodeB
Word‑p. 47
5.4.5.1.3
Sensitivity Level
Word‑p. 52
5.4.5.2
Dynamic range [19]
Word‑p. 53
5.4.5.3
Adjacent channel selectivity (ACS)[20]
5.4.5.4
Blocking characteristics [21]
5.4.5.4.1
Minimum requirement
5.4.5.4.2
Minimum Requirement - Co-location with GSM900, DCS 1800, PCS1900, GSM850 and/or UTRA FDD
Word‑p. 55
5.4.5.4.3
Minimum Requirement - Co-location with UTRA-TDD
5.4.5.5
Intermodulation characteristics [16]
5.4.6
Performance requirement [11]
Word‑p. 56
5.4.7
Summary
6
Physical Layer (RAN WG1)
6.1
Physical Layer Requirements
7
Radio Interface Architecture and protocols (RAN WG2)
7.1
Mobility scenarios
7.2
Access control scenarios
8
UTRAN Architecture and Application Protocol (RAN WG3)
8.1
Synchronization [14]
Word‑p. 57
8.1.1
V1588 synchronization scheme
8.1.2
GPS synchronization scheme
Word‑p. 58
8.1.3
Air interface synchronization scheme
9
Conclusions
Word‑p. 60
9.1
RAN4 Conclusions
9.2
RAN1 Conclusions
9.3
RAN2 summary, conclusions and recommendations
9.4
RAN3 Conclusions
$
Change history
Word‑p. 61