Thursday, 25 April 2013

LTE NETWORK TOPOLOGY AND ARCHITECTURE

 
There is a new approach in the inter-connection between radio access network and core network. The EPS architecture is made up of an EPC (Packet Core Network, also referred as EPC) and an eUTRAN Radio Access Network (also referred as LTE)

There are no circuit switched components in LTE/EPC . 

The CN provides access to external packet IP networks and performs a number of CN related functions (e.g. QoS, security, mobility and terminal context management) for idle (camped) and active terminals. The RAN performs all radio interface related functions.

The LTE/EPC radio access network - Evolved UTRAN (E-UTRAN) - will only contain Node Bs. No RNC is provided anymore. This means, that the evolved Node Bs take over the radio management functionality.

This will make radio management faster and the network architecture simpler. E-UTRAN exclusively uses IP as transport layer. Behind the EPC follow one or more IP networks.

Evolved Packet Core:
- Also known as the System Architecture Evolution (SAE) core;
- Simplified , all-IP network architecture;
- Supports higher throughput and lower latency;
- Supports mobility between legacy 3GPP-based systems, but also non-3GPP systems like WiMAX and CDMA2000.


Mobility Management Entity – MME:
- Controls the signaling between the UE and the core network;
- Establishment, maintenance and release of radio bearer services;
- Responsible for paging and tracking the UE between calls and selecting of proper S-GW upon connection;
- Acts the termination point for ciphering protection, and therefore is the point of lawful interception of signaling.




LTE NETWORK ARCHITECURE


Serving Gateway – SGW:
- Routes data packets, maintains the data connection for inter-eNodeB handovers, as well as, inter-system handovers between LTE and GSM/UMTS;
- Store UE contexts, for example bearer service parameters and routing information;
- Is the main junction between the radio access network and the core network.


Packet Switched Data Network Gateway – PGW:
- Provides connectivity for the UE to exernal packet data networks;
- Allocates IP addresses for UE and QOS enforcement;
- Maintains the mobility connection between LTE/UMTS/GSM systems and non-3GPP systems like WiMAX and CDMA2000.


Enhanced UTRAN – eUTRAN:
- Simply a collection of eNodeBs networked together;
- Responsible for radio resource management, header compression, security, and connectivity to the evolved packet core.


Enhanced NodeB – eNodeB:
- Contains the radio and antenna equipment to link the UE and the LTE core network via the RF air interface;
- Practical equivalent to the BTS in GSM and the NodeB in UMTS, however functionality is more robust in LTE;
- Radio controller functionality now resides in the eNodeB resulting in a more efficient, less latent network. For example, mobility is governed by the eNodeB instead of the BSC or RNC.


Home Subscriber Service – HSS:
- database similar to the HLR in GSM / WCDMA
 core network that contains subscriber-related information supporting call control and session management;
- Primarily involved in authentication, authorization, security ciphering, and can provide user locations details.


Policy Control and Charging Rules Functions – PCRF:
- Responsible for policy control decision making;
- Provides the QOS authorization to decide how data will be treated with respect to the user’s subscription.


Serving GPRS Support Node – SGSN:
- Interconnects the LTE, UMTS, and GSM networks for increased mobility.

Monday, 22 April 2013

EUTRA CELL RESELECTION

EPS Mobility management (EMM) comprises the functions and procedures that maintain the connectivity between UE and EPS as UE moves between the coverage areas of different base station or access networks.



When registered to the EPS network UE can move from one cell to another cell, from one registered area to other or even leaves the EPS network and return back in other time.

UE performs Cell Reselection in ECM_IDLE state in order to ensure that it is camped on the best available cell.


Cell Reselection procedure : SIB-3


SIB-3 contains the information related to cell reselection procedure. The parameters directly related to procedure are:
1. Qhyst = hysteresis value for ranking criteria (0 to 24 dbm).
2. Treselection EUTRA = Cell reselection timer value for EUTRAN (0....7s)

While others are related to measurement ans evaluation process.

threshServingLow = The threshold for the serving frequency used in reselection evaluation towards towards lower priority EUTRAN frequencies o
r RAT.

q-RxLevMin = The minimum required Rx level in cell in dBm.
S-IntraSearch = the threshold (in dB) for intra frequency measurements. The UE can omit measurements of intra-frequency neighbour cells if the serving cell is above a certain threshold.


SIB-4 contains neighbour cell information.

Cell Reselection procedure- SIB-4

physCellId - Physical layer cell identity of the neighbour cells.
Qoffset = the offset value used for cell reselection process between serving and neighbour cells (-24..24 dB)


Now,

Rs=Qmeas,s + Qhyst,s          //For serving cell
Rn=Qmeas,n + Qhyst,n         //For neighbour cell

When Rn becomes greater than Rs cell reselection is completed.

Rn > Rs -> Cell Reselection.






Thursday, 18 April 2013

LTE ECM/EMM AND RRC STATES

EMM and ECM states


There are two sets of states defined  for each UE based on the information held by the Mobility Management Entity.

EPS MOBILITY MANAGEMENT


The two EPS Mobility Management (EMM) states, EMM-REGISTERED and EMM-DEREGISTERED describe whether or not the UE is registered to MME and can be reached by paging.

In EMM-DEREGISTERED state the MME hold no valid location information for the UE. The UE is not reachable since its location is not known.
UE enters EMM-REGISTERED state either due to LTE attach procedure or due to a tracking area update (TAU) from IRAT.  In this state UE can be reached by paging.

EPS CONNECTION MANAGEMENT

The two EPS Connection Management (ECM) states ECM_IDLE and ECM-CONNECTED, describe the signalling connectivity between UE and Evolved Packet Core.

In ECM-IDLE state, there exist no signalling connection between UE and the MME.
In ECM_CONNECTED state there exist a signalling connection between UE and MME. This signalling connection consist of two parts:
an RRC connection between UE and eNodeB, and an S1 -MME connection between eNodeB and MME.




EMM and ECM states





EMM-DEREGISTERED & ECM-IDLE ⇒ RRC_IDLE:
- Mobility: PLMN selection.
- UE Position: not known by the network.


EMM-REGISTERED & ECM-IDLE  RRC_IDLE:
- Mobility: cell reselection.
- UE position: known by network at TA level.

EMM-REGISTERED & ECM-CONNECTED with RB established ⇒ RRC_CONNECTED.
- Mobility: handover.
- UE Position: known by the network at cell level




Tune in For more.. :)

LTE TRACKING AREA UPDATE PROCEDURE




Tracking Area Update-LTE


The network knows the location of a UE that is roaming within a network. This makes it possible for the mobile subscriber to receive a call wherever it is. To keep the network up to date with the subscriber’s location, the UE performs location updating.
Tracking Area Update
The location of a UE in LTE_IDLE mode is maintained on a Tracking Area (TA) List level. In LTE there is only one common Intra-LTE TA concept defined both for the RAN and for the CN. When a UE in LTE_IDLE mode moves into a cell that belongs to a TA different from the one(s) it is currently registered with, it performs a TA Update. The cell tracking area is broadcast in System Information.
Traffic Case Tracking Area Update
1. The UE performs cell re-selection (typically based on system information received in the previous cell).

2. The UE reads the System Information, broadcast in the selected cell.

4. If the TA that the cell belongs is not the TA that the UE is registered in, the RRC Connection is established, with the NAS message “Tracking Area Update (TAU) Request”.

5. The Tracking Area Update (TAU) Request message is provided to the MME in the “Initial UE Message”.

6. Conditional step:
If the integrity protection check fails the MME performs authentication and activates the NAS security functions using the Authentication and NAS Security Activation procedure.

7. The MME sends the NAS message “Tracking Area Update (TAU) Accept” to the UE, using the DL NAS Signalling Transfer procedure.

8. If the GUTI has been re-allocated, the NAS message “Tracking Area Update (TAU) Complete” is transferred to the MME, using the UL NAS Signalling Transfer procedure
9. Since the MME did not establish any bearers or user plane connection the MME releases the radio connection (andRAN resources) by the MME-initiated Connection Release.