KR20030023935A - Call change method of link disconnection time in base station controller - Google Patents

Abstract

In the present invention, when a link connecting a base station controller and a base station is disconnected by being disconnected from an abnormal state, the present invention transfers a call to another link that is in an available state to ensure continuity. In the related art, in the case of a transport layer that has been assigned once, it is not changed until the corresponding call is terminated. Thus, in actual system operation, a link to which a plurality of calls are allocated is transitioned to an abnormal state and disconnected for various reasons. In this case, even if the state management unit checks that there is an abnormal state, there was a problem in that all calls that were in progress through the corresponding link were cut off.

Therefore, in the present invention, when a link connected to a base station is disconnected in a base station controller of a mobile communication system, the existing call is transferred to an available link through transport layer reconfiguration, thereby maintaining the continuity of the call even when the link is disconnected. do.

In addition, the present invention is able to maintain the existing call quality and improve the quality of service to the subscriber by performing the frame offset handoff when the call transfer due to the link disconnection with the base station.

Description

Call change method of link disconnection time in base station controller

The present invention relates to a link connecting a base station controller and a base station in a mobile communication system. In particular, when a link connected with a base station is disconnected by being cut to an abnormal state, the call is transferred to another link that is available to ensure continuity. The present invention relates to a call transfer method when a link is disconnected by a base station controller.

In general, according to the international standard IS-95C, a mobile communication system using a code division multiple access (CDMA) technology is a base-station transceiver subsystem for providing a service to a mobile terminal and a base station for controlling a base station. A base station controller, located at the center of a telecommunication network, and a base station controller, a home location register (HLR), a billing center, and a short message center (SMC) to match with each other to form a voice and non-voice call path; It includes mobile communication switch which performs its own operation and maintenance.

Here, the base station controller provides a predetermined communication service for the mobile terminal by interworking with the mobile communication exchange upstream and the base station below, wherein a plurality of links between the base station and the base station controller (hereinafter referred to as 'B link') Is assigned, and one B link is assigned during call setup and maintained until the call is terminated.

That is, in the conventional mobile communication system, the connection structure between the base station controller and the base station is illustrated in FIG. 1, and the vocoder 30 and the channel card (not shown in the figure) of the corresponding base station controller 20 are shown. (N) is assigned a specific B link identifier among a plurality of B links connected to the base station and maintains a call on the corresponding B link. In FIG. 1, a call set up in the base station # 0 (11) is connected to the N controllers connected to the base station controller 20. The call is maintained using the '0' B link among the B links, and the call set up in the base station # 1 (11) is assigned to the B link '1'.

At this time, the call allocation of the B link is involved in the resource allocation block, and the load of the B link is calculated to ideally distribute the call evenly to the B link in the current Alive state.

Referring to FIG. 2, the B link allocation operation between the base station controller and the base station in the conventional mobile communication system is as follows.

First, the B link interface unit 21 of the base station controller 30 reports the current state of the B links connected to each base station 10 to the state manager 22 periodically or whenever an event occurs. The state manager 22 Collects information reported from the B link interface unit 21 to manage B link state information (ie, availability) for each base station.

At this time, when a call occurrence is reported from the base station 10 to the call processing unit 24 of the base station controller 20, the call processing unit 24 requests resource allocation to the resource allocation unit 23, the resource allocation unit ( 23) determines a frame offset and a B link identifier according to the characteristics (voice and data) of a call requiring current resource allocation, and allocates resources to the corresponding call, which is managed by the state manager 22. With reference to the B link state information for each base station 10, the load is allocated to the B link in an available state evenly.

The resource allocated by the resource allocator 23 includes an ATM Virtual Channel Connection (VCC) including a B link identifier and a frame offset. The resource is notified to the call processor (vocoder, channel card) 24. do.

Accordingly, the call processing unit 24 performs a call with the base station 10 with the ATM VCC including the B link identifier assigned by the resource allocating unit 23, and establishes an ATM VCC between the vocoder 30 and the channel element. The call proceeds after the network path setup that is set up, and the network path setup delivers the required ATM VCC to each component block in the resource allocator 23 to complete the setup. The choice will depend on the network design characteristics of the manufacturer.

In addition, the B link interface unit 21 determines the B link identifier included in the ATM VCC and determines which B link to transmit, thereby transmitting a call between the base station 10 and the base station controller 20 to a specific B link when a call is generated. The transport layer configuration to be connected is completed, and the base station 10 also allocates internal resources to set up an ATM VCC to perform a corresponding call.

However, in the conventional base station controller 20, the transport layer allocated once according to the above-described procedure for the plurality of calls generated from the base station 10 is not changed until the corresponding call is terminated, and thus, actual system operation. If a B-link that is assigned a large number of calls is transitioned from a normal state to an abnormal state for various reasons and is disconnected, even if the state manager checks that there is an abnormal state, all calls that were in progress through the corresponding B link will be dropped. There was a problem that only.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object thereof is to transfer an existing call to an available link through transport layer reconfiguration when a link connected to a base station is disconnected for call progress in a base station controller of a mobile communication system. In this case, the continuity of the arc can be maintained even when the link is broken.

In addition, another object of the present invention, by performing the frame offset handoff when the call is disconnected due to the link disconnection with the base station, to maintain the existing call quality and to improve the quality of service for the subscriber.

1 is a diagram illustrating a connection structure between a base station controller and a base station in a conventional mobile communication system.

2 is a flowchart illustrating a link allocation operation between a base station controller and a base station in a conventional mobile communication system.

3 is a flowchart illustrating call transfer operations when a link is disconnected in a base station controller according to the present invention.

Explanation of symbols on the main parts of the drawings

10: base station 20: base station controller

21: B link interface unit 22: state management unit

23: resource allocation unit 24: call processing unit

A feature of the present invention for solving the above object is the process of monitoring the link state connected to the base station in the base station controller to report the link disconnection due to the transition to an abnormal state to the resource allocation unit; The present invention provides a method for transferring a call when a link is disconnected by a base station controller, the method including transferring an existing call allocated to a broken link in the resource allocator to another link in an available state.

The reporting of the link disconnection to the resource allocator may include: reporting, by the link interface unit of the base station controller, a link state connected to each base station periodically or whenever an event occurs, to the state manager; Comparing, by the state manager, link state information reported from a link interface unit with previous link state information; And if it is determined that the link has been disconnected due to the transition to the abnormal state as a result of comparison with the previous link state information, reporting the corresponding link disconnection to the resource allocator.

And, the process of switching the existing call to the available link, characterized in that the transfer layer reconfiguration through the ATM VCC reset from the resource allocation unit to the available link to transfer the existing call to the available link.

In addition, the call transfer method when the link is disconnected by the base station controller, the method comprising: checking whether there is a frame offset overlap for the switched available link call after the existing call is transferred to the available link; If it is determined that there is frame offset duplication, the method further comprises performing a frame offset handoff for the call transferred to the available link.

On the other hand, the process of switching the existing call to the available link, the new call is assigned to the call processing unit and the frame offset in the call processing unit through the interface between the timing and the functional block in the base station controller to transfer the existing call to the available link. It is done.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The base station controller according to the present invention monitors the B link state connected to the base station and is allocated to the B link transitioned to the abnormal state through the transport layer control when the B link to which the current call is allocated transitions from the normal state to the abnormal state. In this case, the B-link allocation between the base station controller and the base station, that is, the transport layer configuration is the same as the above-described conventional operation. Will be omitted.

The call transfer operation when disconnecting the B link of the base station controller 20 according to the present invention in a state in which the B link is allocated between the base station controller 20 and the base station 10 by the above-described procedure will be described with reference to FIG. 3. Is as follows.

First, the B link interface unit 21 of the base station controller 20 monitors the B link state connected to the base station 10 and monitors the B link state connected to each base station 10 periodically or whenever an event occurs. (Step S31), the state management unit 22 compares the B link state information reported from the B link interface unit 21 with the previous B link state information (step S32), and the B link transitions to an abnormal state. In other words, it is checked whether the B link is cut (step S33).

At this time, when the B link transitions to an abnormal state and is disconnected, the state manager 22 reports the disconnection of the B link connected to the corresponding base station 10 to the resource allocator 23 (step S34). 23 checks whether there is an available B link connected to the base station 10 for which B link disconnection is currently reported (step S35).

If there is an available B link connected to the base station 10 for which B link disconnection is currently reported, the corresponding resource allocation unit 23 transfers the call allocated to the disconnected B link to another B link that is available. At this time, the transport layer is reconfigured to transfer the existing ATM VCC without changing the call (step S36).

That is, the resource allocator 23 that has received the report of the B link disconnection finds an available B link connected to the base station 10, resets the ATM VCC, and reconfigures the transport layer, thereby transferring the call by the call processor 24. Compared to this, setup time is short and message is small, so it is possible to transfer a call in a short time.

Then, the resource allocator 23 checks whether there is frame offset overlap to ensure call quality of the call transferred to the new B link (step S37), and when it is determined that there is frame offset overlap, transfers to the new B link. A frame offset handoff is performed for the established call (step S38), where a frame offset is a technique used to prevent congestion by uniformly distributing a call using the same B link in time. When the call with the offset proceeds, that is, when the frame offset of the call is overlapped, it causes the call quality. Therefore, the frame offset handoff is performed for the call transferred to the new B link.

In this case, the call processing unit 24 has the same ATM VCC as the conventional one, and transfers the B link only by the transport of the ATM VCC in the transport layer, thereby ensuring the stability of the call and processing the frame offset handoff. If the call quality is guaranteed to be the quality of the call from the previously assigned B link.

On the other hand, in another embodiment according to the present invention, the call assigned to the disconnected B link is transferred to another available B link in an available state without using the above-described B link switching method through the transport layer reconfiguration. By assigning a new ATM VCC and frame offset to an existing call through the interface between the various components in the base station controller, the call processor is notified to the call processor, from the call processor to another B link that is available according to the newly allocated ATM VCC and frame offset. The call can be transferred.

In addition, the embodiments according to the present invention are not limited to the above-described embodiments, and various alternatives, modifications, and changes can be made within the scope apparent to those skilled in the art.

As described above, according to the present invention, when a link connected to a base station is disconnected in a base station controller of a mobile communication system, the existing call is transferred to an available link through transport layer reconfiguration, thereby maintaining the continuity of the call even when the link is disconnected. It becomes possible.

In addition, the present invention is able to maintain the existing call quality and improve the quality of service to the subscriber by performing the frame offset handoff when the call transfer due to the link disconnection with the base station.

Claims (5)

Monitoring, by the base station controller, a link state connected to the base station and reporting a link disconnection due to a transition to an abnormal state to the resource allocator; And transferring the existing call allocated to the broken link in the resource allocator to another link which is in an available state. The method of claim 1, The reporting of the link disconnection to the resource allocator may include: reporting, by the link interface unit of the base station controller, a link state connected to each base station periodically or whenever an event occurs, to the state manager; Comparing, by the state manager, link state information reported from a link interface unit with previous link state information; And reporting a corresponding link disconnection to the resource allocator when it is determined that the link has been disconnected due to a transition to an abnormal state as a result of comparison with previous link state information. The method of claim 1, In the process of transferring the existing call to the available link, a call is disconnected from the base station controller to switch the existing call to the available link by reconstructing the transport layer through ATM VCC reset of the resource allocator to the available link. Transfer method. The method of claim 1, Checking whether there is frame offset overlap for the switched available link call after the existing call is transferred to the available link; And performing frame offset handoff for a call transferred to an available link when it is determined that there is frame offset duplication. The method of claim 1, The transferring of the existing call to an available link may include assigning a new ATM VCC and a frame offset to the call processor through an interface between timing and functional blocks in the base station controller to transfer the existing call to an available link. Call transfer method when link break in base station controller.