Tech-invite 3GPPspace IETFspace

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Content for TR 45.050 Word version: 18.0.0

1… 3… A… B… E… F… J… P… R… S… T… V… VA… X… Y… Z… ZD… ZF…

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.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 p. 324

ZD.1 Introduction p. 324

ZD.2 Generalities on Working assumption and methodology p. 324

ZD.2.1 Evaluation on impacted requirements p. 324

ZD.2.2 Assumptions p. 325

ZD.2.2.1 RF performances p. 325

ZD.2.2.2 Blocker rejection by victim public base station p. 325

ZD.2.2.3 Blocking and Intermodulation reminders p. 326

ZD.2.2.4 Desensitization computing method p. 326

ZD.2.2.5 Coordinated and uncoordinated deployment p. 327

ZD.2.2.6 Exception to blocking requirement for ER-GSM mobiles p. 327

ZD.3 Victim receiver performance for lowest frequency offset of ER-GSM interferer p. 327

ZD.3.1 GSM BTS as victim receiver p. 327

ZD.3.2 UTRA/E-UTRA BS as victim receiver p. 328

ZD.4 Victim receiver performance in the ER-GSM frequency range p. 328

ZD.4.1 GSM BTS as victim receiver p. 329

ZD.4.2 UTRA/E-UTRA BS as victim receiver p. 329

ZD.5 Specified requirement based on co-existence analysis p. 329

ZD.5.1 Uncoordinated deployment p. 330

ZD.5.2 Coordinated deployment p. 330

ZD.6 References p. 330

ZE Extended TSC Sets p. 331

ZE.1 Extended TSC Sets Design p. 331

ZE.1.1 Introduction p. 331

ZE.1.2 Training Sequence Design p. 331

ZE.1.2.1 Initial Search p. 331

ZE.1.2.2 Building the Cost Function p. 332

ZE.1.2.2.1 Auto Correlation Cost p. 332

ZE.1.2.2.2 Cross Correlation Cost p. 333

ZE.1.2.2.2.1 Basic Principle p. 333

ZE.1.2.2.2.2 Used Model p. 334

ZE.1.2.3 Performing the search p. 337

ZE.1.3 Proposed Training Sequence Code Set p. 337

ZE.1.4 Equivalence of rotational approaches p. 338

ZE.2 Performance framework for design of Extended TSC Sets p. 340

ZE.2.1 Working Assumptions for performance framework p. 340

ZE.3 Delay statistics for design of Extended TSC Sets p. 342

ZE.3.1 Background p. 342

ZE.3.2 Simulations p. 343

ZE.3.2.1 Simulation assumptions p. 343

ZE.3.2.2 Non-ideal network synchronization p. 343

ZE.3.2.3 Collection of results p. 344

ZE.3.2.4 Delay distribution p. 344

ZE.4 NewToN - Performance evaluation p. 344

ZE.4.1 Introduction p. 345

ZE.4.2 Impact of co-TSC interference p. 345

ZE.4.2.1 Introduction p. 345

ZE.4.2.2 System model of co-TSC interference p. 346

ZE.4.2.2.1 Network configuration p. 346

ZE.4.2.2.2 Interferer strength p. 347

ZE.4.2.2.3 Co-TSC probability p. 348

ZE.4.2.3 Link level simulations p. 349

ZE.4.2.3.1 Interference model p. 349

ZE.4.2.3.2 Other simulation parameters p. 350

ZE.4.2.3.3 Results and discussion p. 350

ZE.4.3 System level simulations p. 350

ZE.4.3.1 Introduction p. 350

ZE.4.3.2 Simulation assumptions p. 351

ZE.4.3.3 Results - non-VAMOS p. 351

ZE.4.3.4 Results - VAMOS p. 352

ZE.4.4 Performance comparison according to NewToN framework p. 353

ZE.4.5 Conclusions p. 354

ZE.4.6 Performance comparison according to NewToN performance framework p. 355

ZE.4.7 Detailed link level performance p. 356