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Content for
TR 45.050
Word version: 16.0.0
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ZD
ER-GSM band introduction
ZD.1
Introduction
ZD.2
Generalities on Working assumption and methodology
ZD.3
Victim receiver performance for lowest frequency offset of ER-GSM interferer
ZD.4
Victim receiver performance in the ER-GSM frequency range
ZD.5
Specified requirement based on co-existence analysis
ZD.6
References
ZE
Extended TSC Sets
ZE.1
Extended TSC Sets Design
ZE.2
Performance framework for design of Extended TSC Sets
ZE.3
Delay statistics for design of Extended TSC Sets
ZE.4
NewToN - Performance evaluation
ZD
ER-GSM band introduction
Word‑p. 324
ZD.1
Introduction
ZD.2
Generalities on Working assumption and methodology
ZD.2.1
Evaluation on impacted requirements
ZD.2.2
Assumptions
Word‑p. 325
ZD.2.2.1
RF performances
ZD.2.2.2
Blocker rejection by victim public base station
ZD.2.2.3
Blocking and Intermodulation reminders
Word‑p. 326
ZD.2.2.4
Desensitization computing method
ZD.2.2.5
Coordinated and uncoordinated deployment
Word‑p. 327
ZD.2.2.6
Exception to blocking requirement for ER-GSM mobiles
ZD.3
Victim receiver performance for lowest frequency offset of ER-GSM interferer
ZD.3.1
GSM BTS as victim receiver
ZD.3.2
UTRA/E-UTRA BS as victim receiver
Word‑p. 328
ZD.4
Victim receiver performance in the ER-GSM frequency range
ZD.4.1
GSM BTS as victim receiver
Word‑p. 329
ZD.4.2
UTRA/E-UTRA BS as victim receiver
ZD.5
Specified requirement based on co-existence analysis
ZD.5.1
Uncoordinated deployment
Word‑p. 330
ZD.5.2
Coordinated deployment
ZD.6
References
ZE
Extended TSC Sets
Word‑p. 331
ZE.1
Extended TSC Sets Design
ZE.1.1
Introduction
ZE.1.2
Training Sequence Design
ZE.1.2.1
Initial Search
ZE.1.2.2
Building the Cost Function
Word‑p. 332
ZE.1.2.2.1
Auto Correlation Cost
ZE.1.2.2.2
Cross Correlation Cost
Word‑p. 333
ZE.1.2.2.2.1
Basic Principle
ZE.1.2.2.2.2
Used Model
Word‑p. 334
ZE.1.2.3
Performing the search
Word‑p. 337
ZE.1.3
Proposed Training Sequence Code Set
ZE.1.4
Equivalence of rotational approaches
Word‑p. 338
ZE.2
Performance framework for design of Extended TSC Sets
Word‑p. 340
ZE.2.1
Working Assumptions for performance framework
ZE.3
Delay statistics for design of Extended TSC Sets
Word‑p. 342
ZE.3.1
Background
ZE.3.2
Simulations
Word‑p. 343
ZE.3.2.1
Simulation assumptions
ZE.3.2.2
Non-ideal network synchronization
ZE.3.2.3
Collection of results
Word‑p. 344
ZE.3.2.4
Delay distribution
ZE.4
NewToN - Performance evaluation
ZE.4.1
Introduction
Word‑p. 345
ZE.4.2
Impact of co-TSC interference
ZE.4.2.1
Introduction
ZE.4.2.2
System model of co-TSC interference
Word‑p. 346
ZE.4.2.2.1
Network configuration
ZE.4.2.2.2
Interferer strength
Word‑p. 347
ZE.4.2.2.3
Co-TSC probability
Word‑p. 348
ZE.4.2.3
Link level simulations
Word‑p. 349
ZE.4.2.3.1
Interference model
ZE.4.2.3.2
Other simulation parameters
Word‑p. 350
ZE.4.2.3.3
Results and discussion
ZE.4.3
System level simulations
ZE.4.3.1
Introduction
ZE.4.3.2
Simulation assumptions
Word‑p. 351
ZE.4.3.3
Results - non-VAMOS
ZE.4.3.4
Results - VAMOS
Word‑p. 352
ZE.4.4
Performance comparison according to NewToN framework
Word‑p. 353
ZE.4.5
Conclusions
Word‑p. 354
ZE.4.6
Performance comparison according to NewToN performance framework
Word‑p. 355
ZE.4.7
Detailed link level performance
Word‑p. 356