+==============================
+Inter-DU Handover within O-CU
+==============================
+
+This section describes the handling of inter-DU handover of a UE within O-DU High.
+
+.. figure:: Inter_DU_Handover_Within_OCU.png
+ :width: 600
+ :alt: Inter-DU Handover withing O-CU
+
+ Figure 10 - Inter_DU Handover call flow
+
+Assumption: UE is RRC connected with DU and PDU data session is active.
+
+- The UE sends Measurement Report message to the source O-DU. This message is sent from O-DU to O-CU in the UL RRC MESSAGE TRANSFER message over F1AP interface.
+
+- Based on UE Measurement Report, O-CU makes a handover decision to another cell belonging to the target O-DU.
+
+- The O-CU sends a UE CONTEXT MODIFICATION REQUEST message to source O-DU to query the latest configuration.
+
+- The DU APP in source O-DU responds with a UE CONTEXT MODIFICATION RESPONSE message that includes latest full configuration information.
+
+- The O-CU sends a UE CONTEXT SETUP REQUEST message to the target O-DU to create an UE context and setup one or more data bearers. The UE CONTEXT SETUP REQUEST message includes Hand-overPreparationInformation. At target O-DU, DU APP sends UE Create Request to MAC and RLC layers to create the UE context with radio resources and receives UE Create Response from the respective protocol layers.
+
+- The target O-DU responds with a UE CONTEXT SETUP RESPONSE message if the target O-DU can admit resources for the handover.
+
+- The O-CU sends a UE CONTEXT MODIFICATION REQUEST message to the source O-DU, which includes RRCReconfiguration message towards the UE. The O-CU also indicates the source O-DU to stop the data transmission for the UE.
+
+- The source O-DU forwards the received RRCReconfiguration message to the UE and then sends the UE Reconfiguration Request to MAC/Scheduler and RLC layer and get the UE Reconfiguration Response from the respective protocol layers.
+
+- The source O-DU responds to the O-CU with UE CONTEXT MODIFICATION RESPONSE message.
+
+- UE triggers Random Access procedure at the target O-DU. This is a contention free random access if UE was informed about its dedicated RACH resources in RRC Reconfiguration message.
+
+- Once Random Access procedure with target O-DU is complete, the UE responds to the target O-DU with a RRCReconfigurationComplete message.
+
+- The target O-DU sends UL RRC MESSAGE TRANSFER message to O-CU to convey the received RRCReconfigurationComplete message.
+
+- The downlink and uplink data packets are sent to/from the UE through the target O-DU.
+
+- The O-CU sends UE CONTEXT RELEASE COMMAND message to the source O-DU.
+
+- The source O-DU sends UE DELETE REQUEST to MAC/RLC layers to release the UE context and receives UE DELETE RESPONSE message.
+
+- The source O-DU responds to O-CU with UE CONTEXT RELEASE COMPLETE message.
+
+==============================
+Inter-CU Handover (Xn-Based)
+==============================
+
+This section describes the handling of inter-CU handover of a UE over Xn interface.
+
+.. figure:: Xn_Based_Inter_CU_Handover.png
+ :width: 600
+ :alt: Xn-Based Inter-CU Handover
+
+ Figure 11 - Xn-Based Inter-CU Handover call flow
+
+Terminology:
+
+- Source GNB : GNB to which UE is connected and will be handed over from .
+- Source GNB DU : O-DU in source GNB
+- Source GNB CU : O-CU in source GNB
+- Target GNB : GNB to which UE will be handed over to.
+- Target GNB DU : O-DU in target GNB
+- Target GNB CU : O-CU in target GNB
+- Xn Inteface : Interface between Source GNB CU and Target GNB CU
+- UE : UE in handover from source GNB to target GNB
+
+Assumptions:
+
+- Xn setup is established between the two GNB
+- UE is RRC connected with DU
+- PDU data session is active.
+
+Call Flow :
+
+- UE sends Measurement Report message to source GNB. This message is sent from O-DU to O-CU in the UL RRC MESSAGE TRANSFER message over F1AP interface.
+
+- Based on UE Measurement Report, O-CU makes handover decision to a cell belonging to another GNB. Hereafter, this GNB will be referred to as target GNB.
+
+- Before initiating the handover procedure, source GNB CU sends a UE CONTEXT MODIFICATION REQUEST message to source GNB DU to query the latest configurations.
+
+- The source GNB DU responds with UE CONTEXT MODIFICATION RESPONSE message that includes latest full configuration information.
+
+- To start the handover, source GNB CU sends HANDOVER REQUEST to target GNB CU with UE configuration received from source GNB DU.
+
+- Target GNB CU sends a UE CONTEXT SETUP REQUEST message to target GNB DU to create a UE context and setup one or more data bearers. The UE CONTEXT SETUP REQUEST message includes Hand-overPreparationInformation. At DU, DU APP sends UE Create Request to MAC and RLC layers to create the UE context with radio resources and receives UE Create Response from the respective protocol layers.
+
+- The target GNB DU responds with UE CONTEXT SETUP RESPONSE message if it can admit resources for the handover.
+
+- Consequetively, target GNB CU sends HANDOVER REQUEST ACKNOWLEDGE message to source GNB CU to proceed with handover.
+
+- Now source GNB CU sends UE CONTEXT MODIFICATION REQUEST message to source GNB DU, which includes RRCReconfiguration message towards the UE. The CU also indicates the DU to stop the data transmission for the UE.
+
+- Source GNB DU forwards received RRCReconfiguration message to the UE and then sends DOWNLINK DATA DELIVERY STATUS message to CU to inform about successful delivery of message to UE.
+
+- Source GNB DU also sends UE Reconfiguration Request to MAC/Scheduler and RLC layers to stop data scheduling as requested by CU. Once all layers have responded with UE reconfiguration response, source GNB DU send UE CONTEXT MODIFICATION RESPONSE message to source GNB CU.
+
+- Using the information received in RRC Reconfiguration message, UE triggers Random Access procedure towards target GNB DU. This is a contention free random access if UE receives dedicated RACH resources information in RRC Reconfiguration message.
+
+- Once Random Access procedure with target GNB is complete, UE responds to target GNB DU with a RRCReconfigurationComplete message.
+
+- The target GNB DU sends UL RRC MESSAGE TRANSFER message to CU to convey the received RRCReconfigurationComplete message. This completes the UE attach to target GNB.
+
+- The downlink and uplink data packets are now sent to/from the UE through target GNB.
+
+- Once UE is successfully handed over to target GNB, its CU sends UE CONTEXT RELEASE message to source GNB CU.
+
+- Hence, source GNB CU sends UE CONTEXT RELEASE COMMAND message to the source GNB DU.
+
+- DU releases UE context at all layers and responds to source GNB CU with UE CONTEXT RELEASE COMPLETE message.
+
+=============================
+Discontinuous reception (DRX)
+=============================
+
+This section describes the Discontinuous reception (DRX) feature within O-DU High.
+
+
+.. figure:: Discontinuous_reception.PNG
+ :width: 600
+ :alt: Discontinuous reception flow
+
+ Figure 12 - Discontinuous reception flow
+
+- The connected mode DRX is used to improve UE's battery power consumption. This allows UE to be active for a certain amount of time to monitor PDCCH. UE shall become active or inactive based on the DRX timers.
+
+- When UE is created at O-DU during RRC connection setup procedure, DU APP forwards the default DRX configurationĀ to MAC, who then passes it to SCH as part of UE configuration request. SCH stores these configuration and will use it to calculate the start time and expiry time of various DRX timers. But these timers will only start after UE is RRC connected.
+
+- O-DU may receive modified DRX-configuration in UE CONTEXT SETUP REQUEST from O-CU. DU APP forwards it to MAC who forwards it to SCH as part of UE reconfiguration request. In this case, SCH will stop all DRX timers, re-calculate the start time and expiry time of various timers based on updated configuration and restart the drx-onDurationTimer.
+
+- Along with long cycle, DRX in O-DU high also supports short cycle which is enabled if short cycle configuration is recived in UE CONTEXT SETUP REQUEST.
+
+- DRX timers supported in ODU-High are drx-onDurationTimer, drx-InactivityTimer, drx-ShortCycleTimer, drx-HARQ-RTT-TimerDL, drx-RetransmissionTimerDL, drx-HARQ-RTT-TimerUL and drx-RetransmissionTimerUL.
+
+- UE is active when any of the following timers is running: drx-onDurationTimer, drx-InactivityTimer, drx-RetransmissionTimerDL or drx-RetransmissionTimerUL, else the UE is considered as inactive.
+
+- Initially, drx-onDurationTimer is started based on long cycle length. While drx-onDurationTimer or drx-InactivityTimer are running, UE becomes active to monitor PDCCH and send data in UL/DL. When drx-InactivityTimer expires, drx-ShortCycleTimer starts. While drx-ShortCycleTimer is running, drx-onDurationTimer is started based on short cycle length. Once drx-ShortCycleTimer expires, long cycle length is used again. Refer to figure 12 below for detailed working of these timers.
+
+.. figure:: Drx_Onduration_Inactive_ShortCycle_Timer.png
+ :width: 600
+ :alt: onDurationTimer,InactivityTimer,ShortCycleTimer flow
+
+ Figure 13 - onDurationTimer,InactivityTimer,ShortCycleTimer flow
+
+- If HARQ is received/sent, drx-HARQ-RTT-TimerDL or drx-HARQ-RTT-TimerUL is started. On its expiry drx-RetransmissionTimerDL or drx-RetransmissionTimerUL will start. While it is running, UE becomes active for retransmission of data in DL/UL. Refer to figure 13 and 14 below for detailed working of these timers.
+
+.. figure:: Drx_Dl_Harq_Retransmission_Timer.png
+ :width: 600
+ :alt: HARQ-RTT-TimerDL, RetransmissionTimerDL flow
+
+ Figure 14 - DL Harq Retransmission Timers flow
+
+.. figure:: Drx_Ul_Harq_Retransmission_Timer.png
+ :width: 600
+ :alt: HARQ-RTT-TimerUL, RetransmissionTimerUL flow
+
+ Figure 15 - UL Harq Retransmission Timers flow
+
+- If O-DU receives DRX configuration release indicator IE as a part of UE CONTEXT MODIFICATION REQUEST from O-CU, DU APP will forward this indicator to MAC which forwards it to SCH as part of UE reconfiguration request. In this case SCH stops all DRX timers, deletes DRX configuration and marks UE as active by default.
+
+***********************