GPRS
Network Architecture(P9U3)
The following new GPRS network adds the
following elements to an existing GSM network.
- Packet Control Unit (PCU).
- Serving GPRS Support Node (SGSN): the MSC of the GPRS network.
- Gateway GPRS Support Node (GGSN): gateway to external networks.
- Border Gateway (BG): a gateway to other PLMN.
- Intra-PLMN backbone: an IP based network inter-connecting all
the GPRS elements.
General
Packet Radio Service (GPRS):
- GPRS introduces packet data transmission to the mobile
subscriber.
- GPRS is designed to work within the existing GSM infrastructure
with additional packet switching nodes.
- This packet mode technique uses multi-slot technology together
with support for all coding schemes (CS-1 to CS-4) to increase the data
rates up to 160 kbit/s.
- The GPRS system uses the physical radio channels as defined for
GSM. A physical channel used by GPRS is called a Packet Data Channel
(PDCH).
- The PDCHs can either be allocated for GPRS (dedicated PDCH) or
used by GPRS only if no circuit-switched connection requires them
(on-demand). The operator can define 0-8 dedicated PDCHs per cell. The
operator can specify where he wants his PDCHs to be located.
- The first dedicated PDCH in the cell is always a Master PDCH
(MPDCH). The on-demand PDCHs can be pre-empted by incoming circuit
switched calls in congestion situations in the cell.
|
Coding Scheme
|
Speed(kbit/s)
|
|
CS-1
|
8.0
|
|
CS-2
|
12.0
|
|
CS-3
|
14.4
|
|
CS-4
|
20.0
|
Serving
GPRS Support Node (SGSN) Functions:
The SGSN or Serving GPRS Support Node
element of the GPRS network provides a number of takes focused on the IP
elements of the overall system. It provides a variety of services to the
mobiles:
- Packet routing and transfer
- Mobility management
- Authentication
- Attach/detach
- Logical link management
- Charging data
There is a location register within the
SGSN and this stores the location information (e.g., current cell, current
VLR). It also stores the user profiles (e.g., IMSI, packet addresses used) for
all the GPRS users registered with the particular SGSN.
Gateway
GPRS Support Node (GGSN) Functions
- The GGSN, Gateway GPRS Support Node is one of the most
important entities within the GSM EDGE network architecture.
- The GGSN organizes the inter-working between the GPRS/EDGE network
and external packet switched networks to which the mobiles may be
connected. These may include both Internet and X.25 networks.
- The GGSN can be considered to be a combination of a gateway,
router and firewall as it hides the internal network to the outside. In
operation, when the GGSN receives data addressed to a specific user, it
checks if the user is active, then forwards the data. In the opposite
direction, packet data from the mobile is routed to the right destination
network by the GGSN.
Upgradation
of Equipment from GSM to GPRS:
- Mobile Station (MS): New Mobile Station is required to access
GPRS services. These new terminals will be backward compatible with GSM
for voice calls. Three types of handsets are available. Type-A: GPRS &
Speech (simultaneously), Type-B: GPRS & Speech (Auto switch), Type-C:
GPRS or Speech (manual switch).
- BTS: A software upgrade is required in the existing base
transceiver site.
- BSC: Requires a software upgrade and the installation of new
hardware called the packet control unit (PCU). PCU is responsible for
handling the Medium Access Control (MAC) and Radio Link Control (RLC)
layers of the radio interface and the BSSGP and Network Service layers of
the Gb interface. There is one PCU per BSC. The Gb interface, carry
GPRS/EGPRS traffic from the SGSN (Serving GPRS Support Node) to the PCU.
- GPRS Support Nodes (GSNs): The deployment of GPRS requires the
installation of new core network elements called the serving GPRS support
node (SGSN) and gateway GPRS support node (GGSN).
- Databases (HLR, VLR, etc.): All the databases involved in the
network will require software upgrades to handle the new call models and
functions introduced by GPRS.
Location
Information - GSM Service Area Hierarchy
- Cell: Cell is the basic service area and one BTS covers one
cell. Each cell is given a Cell Global Identity (CGI), a number that
uniquely identifies the cell.
- LA: A group of cells form a Location Area. This is the area
that is paged when a subscriber gets an incoming call. Each Location Area
is assigned a Location Area Identity (LAI). Each Location Area is served
by one or more BSCs.
- MSC/VLR Service Area: The area covered by one MSC is called the
MSC/VLR service area.
- PLMN: The area covered by one network operator is called PLMN.
A PLMN can contain one or more MSCs.
- GSM Service Area: The area in which a subscriber can access the
network.
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