5G NR RRC Inactive State
@3g4gUK
NR RRC_CONNECTED
NR RRC_IDLE
NR RRC_INACTIVE
Establish /
Release
Release
Resume / Release
with Suspend
3GPP TS 38.331
©3G4G
2G / 3G Mobile Network Architecture
©3G4G
Circuit Switched
(CS) Core
Air
Interface
Packet Switched
(PS) Core
Base Station
Controller
Base Station
Transmitter
/ Receiver
Data (IP)
Network
Voice (PSTN)
Network
Base
Station
User Equipment (UE)
Base Station
Controller
Backhaul
Radio
Access
Network
(RAN)
Core
Network
(CN)
Core Network
• Connects to voice and data networks
• Provides Security and Authentication
• Billing / Charging
• Roaming
Backhaul
• Connects access network with core
network
• Example: Fiber, microwave, satellite,
mesh, etc.
Access Network
• Connects devices over the air
• Allows mobility and handovers
4G Mobile Network Architecture
©3G4G
Circuit Switched
(CS) Core
Air
Interface
Packet Switched
(PS) Core
Base Station
Controller
Base Station
Transmitter
/ Receiver
Data (IP)
Network
Voice (PSTN)
Network
Base
Station
User Equipment (UE)
Base Station
Controller
Backhaul
Evolution
Evolved Packet
Core (EPC)
Data (IP)
Network
eNB
UE
Evolved
Packet
System
(EPS)
Long Term Evolution
(LTE) of Radio Interface
System Architecture
Evolution (SAE)
Radio
Access
Network
(RAN)
Core
Network
(CN)
©3G4G
©3G4G
5G Mobile Network Architecture
©3G4G
Air
Interface
New & Evolution
Evolved Packet
Core (EPC)
Data (IP)
Network
eNB
UE
Evolved
Packet
System
(EPS)
5G Core (5GC)
Data (IP)
Network
gNB
UE
5G System
(5GS)
New Radio or Next-
Generation RAN
(NG-RAN)
Radio
Access
Network
(RAN)
Core
Network
(CN)
5G System is defined as
3GPP system consisting of
5G Access Network (AN),
5G Core Network and UE.
The 5G System provides
data connectivity and
services.
3GPP TS 23.501: System
Architecture for the 5G System;
Stage 2
3GPP TS 23.502: Procedures for
the 5G System; Stage 2
©3G4G
©3G4G
©3G4G
4G EPC EMM State Machine
©3G4G
❑ UE switched off / out of
coverage
❑ No serving MME or S-GW
❑ No IP address
❑ No default EPS bearer
❑ UE registered with EPC
❑ Serving MME and S-GW
allocated
❑ IP address allocated
❑ Default EPS bearer exists
EMM-DEREGISTERED EMM-REGISTERED
4G EPC ECM State Machine
©3G4G
❑ UE on standby
❑ No S1 or radio bearers
❑ UE localized to tracking
area
❑ Paging
Service requests
Tracking area updates
❑ UE active
❑ All bearers
❑ UE localized to serving eNB
❑ Any communications possible
ECM-IDLE ECM-CONNECTED
4G EPS Bearer Architecture
©3G4G
UE eNB S-GW P-GW Peer
Entity
Radio S1 S5 / S8 Gi
E-UTRAN EPC Internet
End-to-End Service
EPS Bearer
External
Bearer
E-RAB S5/S8 Bearer
S1 BearerRadio Bearer
4G Default and Dedicated Bearers
©3G4G
eNodeBUE
S1-U S5/S8
S5/S8
P-GW
S-GW
Uu P-GW
PDN
Default EPS bearer setup - registration
Default EPS bearer setup
Dedicated EPS bearer
IP Packet
4G EMM, ECM and RRC States
©3G4G
DEREGISTERED REGISTERED
RRC
ECM
EMM
OFF ATTACHING IDLE / REGISTERD
SERVICE
REQUEST
ACTIVE
IDLE CONNECTED
IDLE CONNECTED IDLE CONNECTED
5GS Registration Management (RM) State Machine
©3G4G
❑ UE switched off / out of
coverage
❑ No serving AMF or SMF
❑ No IP address
❑ No PDU Session
❑ UE registered with 5GC
❑ Serving AMF and SMF
allocated
❑ IP address allocated
❑ PDU Session Established
RM-DEREGISTERED RM-REGISTERED
©3G4G
5GS Connection Management (CM) State Machine
©3G4G
❑ UE on standby
❑ No NAS Signalling
❑ UE localized to tracking area
❑ Paging, Service requests, etc.
❑ UE active
❑ NAS signalling and QoS flows
❑ UE localized to serving NG-RAN
❑ Any communications possible
CM-IDLE CM-CONNECTED
©3G4G
5GS State Model
©3G4G
RM-DEREGISTERED
CM-IDLE
RRC_IDLE
RM-REGISTERED
CM-IDLE
RRC_IDLE
RM-REGISTERED
CM-CONNECTED
RRC_INACTIVE
RRC_CONNECTED
Original Picture Source: 5G NR: Architecture, Technology, Implementation, and Operation of 3GPP New Radio Standards by Dr. Sassan Ahmadi, Jun 2019 (link)
5GS State Model – RRC_IDLE
©3G4G
RM-DEREGISTERED
CM-IDLE
RRC_IDLE
RM-REGISTERED
CM-IDLE
RRC_IDLE
RM-REGISTERED
CM-CONNECTED
RRC_INACTIVE
RRC_CONNECTED
Original Picture Source: 5G NR: Architecture, Technology, Implementation, and Operation of 3GPP New Radio Standards by Dr. Sassan Ahmadi, Jun 2019 (link)
RRC_IDLE:
• PLMN selection;
• Broadcast of system information;
• Cell re-selection mobility;
• Paging for mobile terminated
data is initiated by 5GC;
• DRX for CN paging configured by
NAS.
5GS State Model – RRC_CONNECTED
©3G4G
RM-DEREGISTERED
CM-IDLE
RRC_IDLE
RM-REGISTERED
CM-IDLE
RRC_IDLE
RM-REGISTERED
CM-CONNECTED
RRC_INACTIVE
RRC_CONNECTED
Original Picture Source: 5G NR: Architecture, Technology, Implementation, and Operation of 3GPP New Radio Standards by Dr. Sassan Ahmadi, Jun 2019 (link)
RRC_CONNECTED:
• 5GC - NG-RAN connection (both
C/U-planes) is established for UE;
• The UE AS context is stored in
NG-RAN and the UE;
• NG-RAN knows the cell which the
UE belongs to;
• Transfer of unicast data to/from
the UE;
• Network controlled mobility
including measurements.
5GS State Model – RRC_INACTIVE
©3G4G
RM-DEREGISTERED
CM-IDLE
RRC_IDLE
RM-REGISTERED
CM-IDLE
RRC_IDLE
RM-REGISTERED
CM-CONNECTED
RRC_INACTIVE
RRC_CONNECTED
Original Picture Source: 5G NR: Architecture, Technology, Implementation, and Operation of 3GPP New Radio Standards by Dr. Sassan Ahmadi, Jun 2019 (link)
RRC_INACTIVE:
• PLMN selection;
• Broadcast of system information;
• Cell re-selection mobility;
• Paging is initiated by NG-RAN (RAN
paging);
• RAN-based notification area (RNA) is
managed by NG- RAN;
• DRX for RAN paging configured by NG-
RAN;
• 5GC - NG-RAN connection (both C/U-
planes) is established for UE;
• The UE AS context is stored in NG-RAN
and the UE;
• NG-RAN knows the RNA which the UE
belongs to.
RAN-initiated paging, RNA & RNAU
©3G4G
RRC_INACTIVE is characterized by:
• Use of RAN Notification Area (RNA)
• similar to CN tracking area for Idle
• RNA is configured per UE by gNB
• 1 to N cells defined by a List of cells or list of
RAN Area ID or list of TA IDs
• UE is reachable within a configured RNA
via a RAN-initiated paging
• RAN-initiated paging uses a RAN configured
UE ID (I-RNTI)
• RNA Update (RNAU) triggered periodically
and when moving outside of the
configured RNA Source: Intel – see references
Inactive-RNTI (I-RNTI)
©3G4G
• There are following two types of the I-RNTI:
• Full I-RNTI: A full I-RNTI which has a length of 40 bits which can be included
within a 64 bit RRCResumeRequest1 message over Common Control Channel 1
• Short I-RNTI: A short I-RNTI which has a length of 24 bits which can be included
within a 48 bit RRCResumeRequest message Common Control Channel
• The I-RNTI is applicable to the RRC Inactive State. While comparing with other
RNTI, the I-RNTI is not used to scramble the CRC bits. Instead, the I-RNTI is used to
address the UE within RRC signalling messages.
• An I-RNTI can be allocated to a UE within an RRC Release message when it is
moving from RRC Connected to RRC Inactive as part of suspendConfig
Source: Techplayon – see references
5GS RM, CM and RRC State Transition
©3G4G
DEREGISTERED REGISTERED
RRC
CM
RM
ATTACHING CONNECTED / INACTIVE CONNECTED / ACTIVE
CONNECTED
CONNECTED INACTIVE CONNECTED
OFF
-
-
Legacy Idle-to-connected transition
©3G4G
UE LTE/NR RAN CN
Initial radio synchronization
RRC Connection Request
RRC Connection Setup
RRC Connection Setup Complete
(Service Request)
Initial UE message
(Service Request)
UE Context Setup
(Keys, Bearers)
RRC Security Setup
RRC Security Setup Complete
RRC Reconfiguration (Bearer Setup)
RRC Reconfiguration Complete
UE Context Setup Complete
[UL / DL user data]
New Inactive-to-connected transition
©3G4G
UE NR RAN CN
Initial radio synchronization
RRC Resume Request
RRC Resume
RRC Resume Complete
[UL / DL user data]
©3G4G
©3G4G
References
©3G4G
• 3G4G: 3GPP 5G Specifications (link)
• 5G NR: Architecture, Technology, Implementation, and Operation of 3GPP New Radio Standards by
Dr. Sassan Ahmadi, Jun 2019 (link)
• Ericsson Technology Review: Inactive State in 5G NR, June 2019 (link)
• The 3G4G Blog: A Look into 5G Virtual/Open RAN - Part 3: Connection Release and Suspend, April
2020 (link)
• Wireless Moves: The 5G Core – Part 6 – Connection-, Registration- And Session Management, May
2018 (link)
• Wireless Moves: The 5G Core – Part 7 – More About Session Management, June 2018 (link)
• Techplayon: 5G System Connection Management: CM-Idle and CM-Connected, Oct 2019 (link)
• Intel: Overview 5G NR Radio Protocols, Nov 2018 (link)
• How LTE Stuff Works: 5G NR: UE RRC States and State Transitions, Sep 2019 (link)
• Techplayon: 5G NR Inactive-RNTI (I-RNTI) for RRC_INACTIVE State, Jan 2020 (link)
• The 3G4G Blog: RRC states in 5G, Nov 2017 (link)
• Netmanias: LTE EMM and ECM States, Sep 2013 (link)
Thank You
To learn more, visit:
3G4G Website – https://www.3g4g.co.uk/
3G4G Blog – https://blog.3g4g.co.uk/
Telecoms Infrastructure Blog – https://www.telecomsinfrastructure.com/
Operator Watch Blog – https://www.operatorwatch.com/
Connectivity Technology Blog – https://www.connectivity.technology/
Free 5G Training – https://www.free5gtraining.com/
Follow us on Twitter: https://twitter.com/3g4gUK
Follow us on Facebook: https://www.facebook.com/3g4gUK/
Follow us on LinkedIn: https://www.linkedin.com/company/3g4g
Follow us on SlideShare: https://www.slideshare.net/3G4GLtd
Follow us on YouTube: https://www.youtube.com/3G4G5G
©3G4G

Advanced: 5G NR RRC Inactive State

  • 1.
    5G NR RRCInactive State @3g4gUK NR RRC_CONNECTED NR RRC_IDLE NR RRC_INACTIVE Establish / Release Release Resume / Release with Suspend 3GPP TS 38.331
  • 2.
  • 3.
    2G / 3GMobile Network Architecture ©3G4G Circuit Switched (CS) Core Air Interface Packet Switched (PS) Core Base Station Controller Base Station Transmitter / Receiver Data (IP) Network Voice (PSTN) Network Base Station User Equipment (UE) Base Station Controller Backhaul Radio Access Network (RAN) Core Network (CN) Core Network • Connects to voice and data networks • Provides Security and Authentication • Billing / Charging • Roaming Backhaul • Connects access network with core network • Example: Fiber, microwave, satellite, mesh, etc. Access Network • Connects devices over the air • Allows mobility and handovers
  • 4.
    4G Mobile NetworkArchitecture ©3G4G Circuit Switched (CS) Core Air Interface Packet Switched (PS) Core Base Station Controller Base Station Transmitter / Receiver Data (IP) Network Voice (PSTN) Network Base Station User Equipment (UE) Base Station Controller Backhaul Evolution Evolved Packet Core (EPC) Data (IP) Network eNB UE Evolved Packet System (EPS) Long Term Evolution (LTE) of Radio Interface System Architecture Evolution (SAE) Radio Access Network (RAN) Core Network (CN)
  • 5.
  • 6.
  • 7.
    5G Mobile NetworkArchitecture ©3G4G Air Interface New & Evolution Evolved Packet Core (EPC) Data (IP) Network eNB UE Evolved Packet System (EPS) 5G Core (5GC) Data (IP) Network gNB UE 5G System (5GS) New Radio or Next- Generation RAN (NG-RAN) Radio Access Network (RAN) Core Network (CN) 5G System is defined as 3GPP system consisting of 5G Access Network (AN), 5G Core Network and UE. The 5G System provides data connectivity and services. 3GPP TS 23.501: System Architecture for the 5G System; Stage 2 3GPP TS 23.502: Procedures for the 5G System; Stage 2
  • 8.
  • 9.
  • 10.
  • 11.
    4G EPC EMMState Machine ©3G4G ❑ UE switched off / out of coverage ❑ No serving MME or S-GW ❑ No IP address ❑ No default EPS bearer ❑ UE registered with EPC ❑ Serving MME and S-GW allocated ❑ IP address allocated ❑ Default EPS bearer exists EMM-DEREGISTERED EMM-REGISTERED
  • 12.
    4G EPC ECMState Machine ©3G4G ❑ UE on standby ❑ No S1 or radio bearers ❑ UE localized to tracking area ❑ Paging Service requests Tracking area updates ❑ UE active ❑ All bearers ❑ UE localized to serving eNB ❑ Any communications possible ECM-IDLE ECM-CONNECTED
  • 13.
    4G EPS BearerArchitecture ©3G4G UE eNB S-GW P-GW Peer Entity Radio S1 S5 / S8 Gi E-UTRAN EPC Internet End-to-End Service EPS Bearer External Bearer E-RAB S5/S8 Bearer S1 BearerRadio Bearer
  • 14.
    4G Default andDedicated Bearers ©3G4G eNodeBUE S1-U S5/S8 S5/S8 P-GW S-GW Uu P-GW PDN Default EPS bearer setup - registration Default EPS bearer setup Dedicated EPS bearer IP Packet
  • 15.
    4G EMM, ECMand RRC States ©3G4G DEREGISTERED REGISTERED RRC ECM EMM OFF ATTACHING IDLE / REGISTERD SERVICE REQUEST ACTIVE IDLE CONNECTED IDLE CONNECTED IDLE CONNECTED
  • 16.
    5GS Registration Management(RM) State Machine ©3G4G ❑ UE switched off / out of coverage ❑ No serving AMF or SMF ❑ No IP address ❑ No PDU Session ❑ UE registered with 5GC ❑ Serving AMF and SMF allocated ❑ IP address allocated ❑ PDU Session Established RM-DEREGISTERED RM-REGISTERED
  • 17.
  • 18.
    5GS Connection Management(CM) State Machine ©3G4G ❑ UE on standby ❑ No NAS Signalling ❑ UE localized to tracking area ❑ Paging, Service requests, etc. ❑ UE active ❑ NAS signalling and QoS flows ❑ UE localized to serving NG-RAN ❑ Any communications possible CM-IDLE CM-CONNECTED
  • 19.
  • 20.
    5GS State Model ©3G4G RM-DEREGISTERED CM-IDLE RRC_IDLE RM-REGISTERED CM-IDLE RRC_IDLE RM-REGISTERED CM-CONNECTED RRC_INACTIVE RRC_CONNECTED OriginalPicture Source: 5G NR: Architecture, Technology, Implementation, and Operation of 3GPP New Radio Standards by Dr. Sassan Ahmadi, Jun 2019 (link)
  • 21.
    5GS State Model– RRC_IDLE ©3G4G RM-DEREGISTERED CM-IDLE RRC_IDLE RM-REGISTERED CM-IDLE RRC_IDLE RM-REGISTERED CM-CONNECTED RRC_INACTIVE RRC_CONNECTED Original Picture Source: 5G NR: Architecture, Technology, Implementation, and Operation of 3GPP New Radio Standards by Dr. Sassan Ahmadi, Jun 2019 (link) RRC_IDLE: • PLMN selection; • Broadcast of system information; • Cell re-selection mobility; • Paging for mobile terminated data is initiated by 5GC; • DRX for CN paging configured by NAS.
  • 22.
    5GS State Model– RRC_CONNECTED ©3G4G RM-DEREGISTERED CM-IDLE RRC_IDLE RM-REGISTERED CM-IDLE RRC_IDLE RM-REGISTERED CM-CONNECTED RRC_INACTIVE RRC_CONNECTED Original Picture Source: 5G NR: Architecture, Technology, Implementation, and Operation of 3GPP New Radio Standards by Dr. Sassan Ahmadi, Jun 2019 (link) RRC_CONNECTED: • 5GC - NG-RAN connection (both C/U-planes) is established for UE; • The UE AS context is stored in NG-RAN and the UE; • NG-RAN knows the cell which the UE belongs to; • Transfer of unicast data to/from the UE; • Network controlled mobility including measurements.
  • 23.
    5GS State Model– RRC_INACTIVE ©3G4G RM-DEREGISTERED CM-IDLE RRC_IDLE RM-REGISTERED CM-IDLE RRC_IDLE RM-REGISTERED CM-CONNECTED RRC_INACTIVE RRC_CONNECTED Original Picture Source: 5G NR: Architecture, Technology, Implementation, and Operation of 3GPP New Radio Standards by Dr. Sassan Ahmadi, Jun 2019 (link) RRC_INACTIVE: • PLMN selection; • Broadcast of system information; • Cell re-selection mobility; • Paging is initiated by NG-RAN (RAN paging); • RAN-based notification area (RNA) is managed by NG- RAN; • DRX for RAN paging configured by NG- RAN; • 5GC - NG-RAN connection (both C/U- planes) is established for UE; • The UE AS context is stored in NG-RAN and the UE; • NG-RAN knows the RNA which the UE belongs to.
  • 24.
    RAN-initiated paging, RNA& RNAU ©3G4G RRC_INACTIVE is characterized by: • Use of RAN Notification Area (RNA) • similar to CN tracking area for Idle • RNA is configured per UE by gNB • 1 to N cells defined by a List of cells or list of RAN Area ID or list of TA IDs • UE is reachable within a configured RNA via a RAN-initiated paging • RAN-initiated paging uses a RAN configured UE ID (I-RNTI) • RNA Update (RNAU) triggered periodically and when moving outside of the configured RNA Source: Intel – see references
  • 25.
    Inactive-RNTI (I-RNTI) ©3G4G • Thereare following two types of the I-RNTI: • Full I-RNTI: A full I-RNTI which has a length of 40 bits which can be included within a 64 bit RRCResumeRequest1 message over Common Control Channel 1 • Short I-RNTI: A short I-RNTI which has a length of 24 bits which can be included within a 48 bit RRCResumeRequest message Common Control Channel • The I-RNTI is applicable to the RRC Inactive State. While comparing with other RNTI, the I-RNTI is not used to scramble the CRC bits. Instead, the I-RNTI is used to address the UE within RRC signalling messages. • An I-RNTI can be allocated to a UE within an RRC Release message when it is moving from RRC Connected to RRC Inactive as part of suspendConfig Source: Techplayon – see references
  • 26.
    5GS RM, CMand RRC State Transition ©3G4G DEREGISTERED REGISTERED RRC CM RM ATTACHING CONNECTED / INACTIVE CONNECTED / ACTIVE CONNECTED CONNECTED INACTIVE CONNECTED OFF - -
  • 27.
    Legacy Idle-to-connected transition ©3G4G UELTE/NR RAN CN Initial radio synchronization RRC Connection Request RRC Connection Setup RRC Connection Setup Complete (Service Request) Initial UE message (Service Request) UE Context Setup (Keys, Bearers) RRC Security Setup RRC Security Setup Complete RRC Reconfiguration (Bearer Setup) RRC Reconfiguration Complete UE Context Setup Complete [UL / DL user data]
  • 28.
    New Inactive-to-connected transition ©3G4G UENR RAN CN Initial radio synchronization RRC Resume Request RRC Resume RRC Resume Complete [UL / DL user data]
  • 29.
  • 30.
  • 31.
    References ©3G4G • 3G4G: 3GPP5G Specifications (link) • 5G NR: Architecture, Technology, Implementation, and Operation of 3GPP New Radio Standards by Dr. Sassan Ahmadi, Jun 2019 (link) • Ericsson Technology Review: Inactive State in 5G NR, June 2019 (link) • The 3G4G Blog: A Look into 5G Virtual/Open RAN - Part 3: Connection Release and Suspend, April 2020 (link) • Wireless Moves: The 5G Core – Part 6 – Connection-, Registration- And Session Management, May 2018 (link) • Wireless Moves: The 5G Core – Part 7 – More About Session Management, June 2018 (link) • Techplayon: 5G System Connection Management: CM-Idle and CM-Connected, Oct 2019 (link) • Intel: Overview 5G NR Radio Protocols, Nov 2018 (link) • How LTE Stuff Works: 5G NR: UE RRC States and State Transitions, Sep 2019 (link) • Techplayon: 5G NR Inactive-RNTI (I-RNTI) for RRC_INACTIVE State, Jan 2020 (link) • The 3G4G Blog: RRC states in 5G, Nov 2017 (link) • Netmanias: LTE EMM and ECM States, Sep 2013 (link)
  • 32.
    Thank You To learnmore, visit: 3G4G Website – https://www.3g4g.co.uk/ 3G4G Blog – https://blog.3g4g.co.uk/ Telecoms Infrastructure Blog – https://www.telecomsinfrastructure.com/ Operator Watch Blog – https://www.operatorwatch.com/ Connectivity Technology Blog – https://www.connectivity.technology/ Free 5G Training – https://www.free5gtraining.com/ Follow us on Twitter: https://twitter.com/3g4gUK Follow us on Facebook: https://www.facebook.com/3g4gUK/ Follow us on LinkedIn: https://www.linkedin.com/company/3g4g Follow us on SlideShare: https://www.slideshare.net/3G4GLtd Follow us on YouTube: https://www.youtube.com/3G4G5G ©3G4G