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Content for  TS 36.300  Word version:  16.4.0

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22 Support for self-configuration and self-optimisation22.1 Definitions22.2 UE Support for self-configuration and self-optimisation22.3 Self-configuration22.4 Self-optimisation22.4.1 Support for Mobility Load Balancing22.4.2 Support for Mobility Robustness Optimisation22.4.3 Support for RACH Optimisation22.4.4 Support for Energy Saving22.4.5 Radio Link Failure report
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22  Support for self-configuration and self-optimisation

22.1  Definitions

22.2  UE Support for self-configuration and self-optimisationWord‑p. 289

22.3  Self-configuration

22.3.1  Dynamic configuration of the S1-MME interface

22.3.1.1  Prerequisites

22.3.1.2  SCTP initializationWord‑p. 290

22.3.1.3  Application layer initialization

22.3.2  Dynamic Configuration of the X2 interface

22.3.2.1  Prerequisites

22.3.2.2  SCTP initialization

22.3.2.3  Application layer initialization

22.3.2a  Automatic Neighbour Relation FunctionWord‑p. 291

22.3.3  Intra-LTE/frequency Automatic Neighbour Relation FunctionWord‑p. 292

22.3.4  Inter-RAT/Inter-frequency Automatic Neighbour Relation FunctionWord‑p. 293

22.3.4a  Automatic Neighbour Relation Function towards NR |R15|Word‑p. 294

22.3.4b  Automatic Neighbour Relation Function in NB-IoT |R16|

22.3.5  Framework for PCI SelectionWord‑p. 296

22.3.6  TNL address discovery

22.3.6.1  TNL address discovery of candidate eNB via S1 interface

22.3.6.2  TNL address discovery of a candidate en-gNB via the S1 interface |R15|

22.3.6.3  TNL address discovery of a candidate en-gNB via inter-system signalling |R15|Word‑p. 297

22.3.7  Dynamic configuration of the Xw-C interface |R13|

22.3.7.1  Prerequisites

22.3.7.2  SCTP initialization

22.3.7.3  Application layer initialization

22.4  Self-optimisation |R9|

22.4.1  Support for Mobility Load Balancing

22.4.1.1  General

22.4.1.2  Load reporting |R16|Word‑p. 298

22.4.1.2.1  Load reporting for intra-LTE scenario |R10|
22.4.1.2.2  Load reporting for inter-RAT scenario |R10|Word‑p. 299
22.4.1.2.3  Load reporting for EN-DC scenario

22.4.1.3  Load balancing action based on handovers |R15|

22.4.1.4  Adapting handover and/or reselection configuration |R16|

22.4.2  Support for Mobility Robustness OptimisationWord‑p. 300

22.4.2.1  General |R10|

22.4.2.2  Connection failure due to intra-LTE mobility |R10|

22.4.2.2a  Connection failure due to inter-RAT mobility |R11|Word‑p. 303

22.4.2.3  Unnecessary HO to another RAT |R10|Word‑p. 304

22.4.2.4  O&M Requirements |R10|

22.4.2.5  Inter-RAT ping-pong |R11|Word‑p. 305

22.4.2.6  Dynamic coverage configuration changes |R13|

22.4.2.7  Connection failure due to Radio Link Failure in NB-IoT |R16|

22.4.2.8  Inter-system Ping-Pong |R16|Word‑p. 306

22.4.3  Support for RACH Optimisation

22.4.4  Support for Energy SavingWord‑p. 307

22.4.4.1  General

22.4.4.2  Solution description

22.4.4.2.1  E-UTRA cell case |R15|
22.4.4.2.2  EN-DC cell case |R15|Word‑p. 308

22.4.4.3  O&M requirements

22.4.5  Radio Link Failure report |R10|

22.5Void

22.6Void

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