NO324782B1 - Method for improving the transmission of a connection from one SGSN to another SGSN - Google Patents

Description

METHOD FOR IMPROVED TRANSMISSION OF A COMMUNICATION

FROM ONE SGSN TO ANOTHER SGSN

The field of the invention

The present invention relates to a method for improved transfer of a connection from one SGSN to another, that is when an MS (Mobile Station) moves from one SGSN's service area to another.

The background of the invention

More specifically, the present invention relates to GPRS service on GSM.

When a mobile station (MS) in active GPRS mode, i.e. it is sending information, moves from one SGSN service area to another, the packet transfer and possible layer 3 procedures should not be interrupted.

Due to the complex state machines for layer 3 procedures, changing the SGSN will directly involve sending very large amounts of control data from one SGSN to another. Another problem is ongoing transactions with other network nodes that must also be redirected to the new one

SGSN.

State of the art

GSM voice service uses an anchor concept to solve the problem. This means that in the network node (MSC/VLR) a connection is primarily established and maintained throughout the call. This node is called anchor "MSC/VLR". If the subscriber moves into another MSC/VLR\<1>'s coverage area, the new MSC/VLR will only act as a transit node. This node is called serving "MSC/VLR" while the connection control is still in anchor MSC/VLR throughout the call.

Problems concerning known technology

GPRS has no working solution to this problem yet. Due to the long connection times for GPRS (hours) compared to a circuit-switched connection (minutes), a similar solution for GPRS can result in a large number of anchor serving legs.

Purposes of the invention

One purpose of the present invention is to provide a method for improved transfer of a connection from one SGSN to another, whereby packet transfer and possible layer 3 procedures are not interrupted.

Another purpose of the present invention is to provide such a method where the layer 3 procedures do not have to be designed to support inter SGSN routing update.

Another purpose of the present invention is to provide a method where the risk of losing payload packages is minimized.

Another purpose of the present invention is to provide a method whereby the tunneling of payload packets from one SGSN to another is not required, and thereby the necessary design is therefore simplified.

Yet another purpose of the present invention is to provide a method that optimizes the use of the network without adding complexity to the SGSN.

Another purpose of the present invention is to provide a method where service degradation during the transfer of a connection from one SGSN to another is minimized as it is experienced from the point of view of the MS essence.

Brief description of the invention

In a method as stated in the introduction, the above purposes are achieved by the features stated in the accompanying patent claims.

In other words, the present method proposes that upon inter SGSN routing update, the old SGSN plays the role of a temporary anchor while the new SGSN temporarily works as a serving SGSN. This bone is kept for so long

the connection control procedure is processed including the transmission of data packets. When all activity has ceased for the connection, i.e. no data transfer, no layer 3 procedures and no ongoing transactions with other network nodes, connection control is transferred from the anchor to the serving SGSN.

The leg between anchor and serving SGSN is a Gb interface with minor modifications. Some control signaling is required to manage the radio resources.

Further advantages and features of the present method will be apparent from the following description taken in conjunction with the attached drawings, as well as from the included patent claims.

Brief description of the te<g>nin<g>s

Figure 1 and Figure 2 are plans of signaling sequences, which illustrate the principle of how the inter SGSN routing update is carried out in 2 steps.

Description of embodiments

As explained in the introduction, the present invention relates to a method for transferring a connection from one SGSN to another without interrupting packet transmission and control signalling. The procedure allows meshing and creating a temporary leg between the old and the new SGSN. The temporary leg operates until the state of the connection in the anchor SGSN can be safely transferred to the new SGSN while simultaneously redirecting packet transmission to go directly from/to the SGSN to/from the new SGSN.

With reference to figure 1 and figure 2, it is illustrated by means of a signaling frequency how the principles for inter SGSN routing update are carried out in 2 steps.

This design has the advantage of not affecting ongoing layer 3 procedures and payload transfers. In reality, layer 3 procedures must not be designed to support inter SGSN routing updates since the temporary Gb channel is not visible to layer 3. Today's solution in GPRS requires that all layer 3 procedures must be designed to take care of an inter SGSN routing update.

Since the context transfer from temporary to anchor to new SGSN occurs when the connection has transitioned into a rest state, the risk of losing payload packets is minimized. And since there is no ongoing traffic, no tunneling of payload packets from the temporary anchor to the SGSN is required, thereby simplifying the design.

The principle of temporary anchor also simplifies signaling between the SGSN and external nodes. Since the solution allows the connection to terminate ongoing transactions before the context is moved to the new SGSN, services such as debiting can be completed against the debiting gateway in the normal way before the context is moved to the new SGSN and debiting is resumed.

Advantages of the invention

The solution optimizes the network's utilization without adding complexity to the SGSN. The subscriber will experience no loss of service, i.e. no re-transmission "peer to peer" and no interrupted layer 3 procedures.

List of abbreviations

GPRS - General Packet Radio Service

SGSN - Serving GPRS support node

GGSN - Gateway GPRS support node

MSC/VTLR - Mobile Switching Centre/Visitor Location Register

Claims (7)

1. Procedure for improved transfer of a connection from one SGSN (I) to another, i.e. when an MS (Mobile Station) moves from one SGSN service area to another, characterized in that during the inter SGSN routing update, the old SGSN (I) is given the role of a temporary anchor, while the other (new) SGSN (II) temporarily works as a serving SGSN. 2. Method as stated in claim 1, characterized in that when said inter SGSN routing is updated, a temporary leg is created between the old SGSN (1) and the new SGSN (2), where said temporary leg is allowed to work as long as the connection procedure control is maintained, including the transfer of data packets. 3. Method as stated in claim 1 or 2, characterized in that the temporary leg is allowed to operate until the state of the connection in the anchor SGSN (1) can be safely transferred to the new SGSN (2), while packet transmission is simultaneously redirected to go directly from/ to SGSN (1) to/from the new SGSN (2). 4. Method as stated in claim 3, characterized in that connection control is moved from said anchor SGSN (1) to said serving SGSN (II) when all activities for the connection have ceased, i.e. when there is no data transfer, no layer 3 procedure and no ongoing transactions against other network nodes work. 5. Method as stated in one of the preceding claims, characterized in that the leg between the anchor SGSN (I) and the serving SGSN (II) is produced as a Gb interface with minor modifications. 6. Procedure as stated in one of the preceding claims, characterized in that the inter SGSN routing update is carried out in a two-step signaling sequence, and then without affecting ongoing layer 3 procedures and payload guidance, as said temporary Gb channel is not visible to said layer 3 . 7. Method as stated in claim 6, characterized in that said signaling is carried out between the SGSN and external nodes, and allows the relevant connection to terminate ongoing transactions before the context is moved to the new SGSN (II), services such as debiting being completed against the debiting output ( gateway) in the normal way before the context is moved to the new SGSN (II) and debiting is resumed.