KR100480459B1 - Method For Changing Over Signal Link In No.7 Switching System - Google Patents

Abstract

The present invention relates to a signal link switching method in a number seven switching system, and in particular, a No. 7 switching system in a multiprocessor environment in which one signal network management processor and a plurality of signal message processing processors exist for processing a large amount of signal messages. The present invention relates to a method of switching a signal link in a No.7 switching system in which a signal link failure occurs so that a loss or reversal of a signaling message does not occur when switching a signal link.

The present invention detects a signal link failure and sets up signal link buffering, buffers a signal message, and de-buffers the signal link according to the presence of other available signal links to transmit or discard the signal message. and; And a signal network management process of changing the signal link state information for the signal link and checking the signal link set state information to change the corresponding signal link set state information according to whether there is another available signal link. By setting and releasing the signal link buffering by the signal message processing processor on its own in case of a link failure, the loss and reversal of the signal message can not occur when the signal link is switched, and the signal link in the signal link set can be Signal messages can be sent evenly.

Description

Method for Changing Over Signal Link In No.7 Switching System

The present invention relates to a signal link changeover method in a number seven (No. 7) switching system. In particular, a signal network management processor and a plurality of signal message processing processors exist for processing a large amount of signal messages. The present invention relates to a signal link switching method in a No.7 switching system in which a signal link failure occurs in a No.7 switching system in a processor environment so that a loss and reversal of a signaling message does not occur when switching a signal link.

In general, the NO.7 signaling system is different from the conventional call system in which the call path and the signal path are used together, so that a plurality of voice signals are separated from each other by completely separating the call path and the signal path. It is a common line signaling method that transmits and receives signal information through one channel, and the network using this No.7 signaling method is called No.7 Signaling Network and is distinguished from No.7 signal network. The signaling entity is called a signaling point.

Hereinafter, a No. 7 exchange system consisting of the signal points will be described with reference to FIG.

1 is a diagram showing the configuration of a general No. 7 exchange system.

The No. 7 exchange system consists of a local station signal point 1 and a station signal point 2, and the configuration of the station signal point 2 is the same as that of the station signal point 1, Only the configuration of the local station signal point 1 will be described.

As shown in FIG. 1, the local station signaling point 1 includes a message transfer part (MTP) 100, an MTP user part 200, a signaling connection control part 300, and an SCCP. The user part (SCCP User Part) 400, the MTP 100 is a message transmission unit, the MTP user unit 200 is a user of the function provided by the MTP 100, the SCCP ( 300 is a signal connection control unit, and the SCCP user unit 400 is a user of a function provided by the SCCP 300.

Here, the MTP 100 includes a signal data link unit (MTP level 1) 10, a signal link function unit (MTP level 2) 20, and a signal network function unit (MTP level 3) 30, The signal data link unit 10 defines the physical and electrical characteristics of the signal data link, the signal link function unit 20 defines the transfer function and procedure of the signal message on the signal data link, and the signal network function The unit 30 defines the path selection of the signal message, the reconstruction of the signal network, and the like.

Specifically, the signal network function unit 30 includes one signal network management processor 31 and a plurality of signal message processing processors 32 according to a signal message processing request for unifying signal network state information. The signal network management processor 31 manages the signal link state information and the signal link set state information, and transmits the signal link state information to the signal message processing processors 32-1, 32-2, ..., 32-n. The signal message processing processor 32 transmits a signal message requested by the MTP user unit 200 to a specific signal link by using the signal link state information and the signal link set state information received from the signal network management processor 31. do.

Hereinafter, the signaling link and the signaling link set will be described with reference to FIG. 2.

2 illustrates a signal link and a set of signal links.

The signal link refers to a unit path for transmitting and receiving a signal message between a local signal point 1 and a neighbor signal point 2, which is an adjacent signal point, and the signal link means a corresponding local signal point 1 and a power station signal point 2. ), There may be several, and the corresponding signal links are called signal link sets.

Hereinafter, the signal message configuration of the MTP 100 will be described with reference to FIG. 3.

3 is a diagram illustrating a signal message configuration of the MTP 100.

The signal message of the MTP 100 includes an 8-bit Service Indicator (SI) field, a 14-bit destination point code (DPC) field, and a 14-bit originating signal point code ( Originating Point Code (OPC) field, 4-bit Signaling Link Selection Code (SLC) field, and MTP Data Message field, where the Signal Link Selection Code field is used to route signal messages between signal links within a set of signal links. This field is set to be equally distributed, and a signal message having the same signal link selection code is transmitted through the same signal link to ensure the order of messages between signal messages having the same signal link selection code.

Hereinafter, signaling link change-over and signaling link change-back will be described with reference to FIGS. 4A and 4B.

4A is a diagram schematically illustrating signal link switching, and FIG. 4B is a diagram schematically illustrating signal link recovery.

The signal link switching means that when a signal link in an available state fails and is transitioned to an unavailable state, a signal message transmitted through the failed signal link is transferred to another available signal in the set of signal links to which the failed signal link belongs. The signal link recovery means that when the failure of the signal link in the unavailable state is restored to an available state, the signal link recovery refers to another available signal link in the set of signal links to which the failed signal link belongs. Some of the signal messages which have been transmitted through the signal link restored to the available state is to be evenly distributed.

Hereinafter, the signal link state information and the signal link set state information will be described with reference to FIGS. 5 and 6.

5 is a table showing signal link state information, and FIG. 6 is a table showing signal link set state information.

As shown in the table of FIG. 5, the signal link state information has information on available or unavailable states of the signal link. As shown in the table of FIG. 6, the signal link set state information may include the signal. It has information about the available or unavailable status of the link set, the list of all signal link numbers in the signal link, the number of available signal links and the number list of available signal links.

As shown in FIG. 4A, a signal link switching process is performed when a signal link failure occurs between the local signal point 1 and the power signal point 2, and as shown in FIG. 4B, the local signal point 1 Signal link failure is performed when the signal link failure is released between the power source and the power signal point 2. In particular, the signal link recovery process is performed as shown in FIG. 7.

Hereinafter, the signal link switching method in the conventional No. 7 switching system will be described with reference to FIG.

7 is a flowchart illustrating a signal link switching procedure in the conventional No. 7 switching system.

First, when a signal link failure occurs, the signal message processing processor 32 of the local signal point 1 receives the signal message transmission request (S701) and immediately transmits the signal message to the counter signal point 20, so that Loss and reversal of the signaling message do not occur.

However, when a signal link failure occurs, the signal message processing processor 32 notifies the signal network management processor 31 of the signal link failure occurrence and receives the changed signal link state information from the signal network management processor 31. If the signal message transmission request is received before (S702), the signal link state information of the corresponding signal message processing processor 32 may not be changed yet, and thus the signal link transmission may be requested to the signal link having the actual failure. In this case, the signal link function unit Depending on the buffer size of (MTP Level 2) 20, the loss of the corresponding signaling message may occur.

On the other hand, when the signal message processing processor 32 receives the signal message transmission request after receiving the changed signal link state information from the signal network management processor 31 and before receiving the signal link buffering setting request (S703), the corresponding signal Since the signal link buffering of the message processing processor 32 is not yet set and the signal link state information on the failed signal link is not available, the signal message is immediately discarded without being transmitted to the signal link function unit 20. Loss of signal message will occur.

When the signal message processing processor 32 receives the signal link buffering setting request from the signal network management processor 31 and receives the signal message transmission request before receiving the signal link change message (COO; ChangeOver Order) ( S704), since the signal link buffering of the corresponding signal message processing processor 32 is in progress, the signal messages to be transmitted to the failed signal link are all buffered so that the loss of the corresponding signal message does not occur.

Thereafter, the signal message processing processor 32 receives a signal link switch message from the signal network management processor 31 and then sends a signal link change confirmation message (COA) to the corresponding signal network management processor 31. If a signal message transmission request is received before transmission (S705), since the failed signal link is still being buffered, the loss of the corresponding signal message does not occur.

In addition, the signal message processing processor 32 transmits a signal link switch message to the signal network management processor 31 and then transmits a signal message before receiving the changed signal link set state information from the corresponding signal network management processor 31. When the request is received (S706), since the failed signal link is still being buffered, the loss of the corresponding signal message does not occur.

After receiving the changed signal link set state information from the signal network management processor 31 and receiving a signal message transmission request before receiving the signal link buffering release request (S707), Since the faulty signal link is deleted from the list of available signal link numbers in the signal link set, if a request for a signal message is transmitted to the failing signal link, the corresponding signal message is not transmitted. That is, in the above case, a signal message subsequent to the pre-buffered signal message with the same signal link selection code is transmitted first through another signal link, thereby inverting the signal message, that is, reversing the sequence.

When the signal message processing processor 32 receives the signal message transmission request after receiving the signal link buffering release request from the signal network management processor 31 (S708), the signal message processing processor 32 transmits all the buffered signal messages to the changed signal link. Transmitted by using the set status information, the switching of the signal link is terminated, so that the loss and reversal of the corresponding signal message does not occur.

Therefore, the signal link switching method in the conventional No. 7 switching system has a problem that loss and reversal of a signal message occurs during a signal link telephone in a multiprocessor environment.

An object of the present invention is to solve a problem as described above, and an object of the present invention is to determine whether to set or release signal link buffering when a signal link failure occurs. By setting and releasing the signal link buffering by itself, the loss and reversal of the signal message does not occur when the signal link is switched.

Another object of the present invention is to transmit a signal message evenly for a signal link in a signal link set when the corresponding signal link is switched.

In order to solve the above-mentioned object, the step of detecting the occurrence of a signal link failure, and setting the signal link buffering for the signal link having a failure, and the signal message to be transmitted to the failed signal link to the set signal link buffering Buffering the signal, and if there is another available signal link, debuffer the corresponding signal link to transmit the signal message, and if another available signal link does not exist, debuffer the corresponding signal link to release the signal message. A signal message processing process including discarding all; And a signal network management process for changing the signal link state information for the signal link and checking the signal link set state information to change the corresponding signal link set state information according to whether there is another available signal link. It is done.

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

First, FIG. 1, FIG. 2, FIG. 3, FIG. 4, FIG. 5 and FIG. 6 are equally applicable to the present invention, and description thereof is the same as in the prior art and thus will be omitted.

Hereinafter, a method of switching a signal link in a No. 7 exchange system according to an embodiment of the present invention will be described with reference to FIG. 8.

8 is a flowchart illustrating a signal link switching method in a No. 7 switching system according to an embodiment of the present invention.

First, the signal message processing processor 32 detects the occurrence of a signal link failure, sets up signal link buffering, buffers the signal message, and de-buffers the signal link depending on whether there are other available signal links to signal the message. A signal message processing process for transmitting or discarding is performed (S81). Here, the signal message processing process refers to an operation performed by the signal message processing processor.

In addition, the signal network management processor 31 changes the signal link state information for the signal link and checks the signal link set state information to determine the corresponding signal link set state information according to whether there is another available signal link. A signal network management process to change is performed (S82). Here, the signal network management process refers to an operation performed by the signal network management processor.

Hereinafter, the signal link switching method in the No. 7 exchange system according to the embodiment of the present invention will be described in more detail with reference to FIGS. 9 and 10.

FIG. 9 is a flowchart illustrating a signal message processing process (S81) in FIG. 8, illustrating an operation of the signal message processing processor 32 applied to a signal link switching method in a No. 7 switching system according to an embodiment of the present invention. 10 is a flowchart illustrating a signal network management process (S82) in FIG. 8 of the signal network management processor 31 applied to the signal link switching method in the No. 7 switching system according to the embodiment of the present invention. A flowchart showing the operation.

First, the signal message processing processor 32 detects the occurrence of a signal link failure (S801), and sets signal link buffering for the signal link in which the failure occurs (S802).

The signal message processing processor 32 transmits the signal link failure occurrence information to the signal network management processor 31 (S803).

Accordingly, the signal network management processor 31 receives the signal link failure occurrence information (S901), changes the signal link state information on the signal link in which the failure occurs (S902), and all the signal message processing processors 32 The changed signal link state information is transmitted (S903).

Accordingly, the signal message processing processor 32 receives the changed signal link state information (S804) and buffers the set signal message to be transmitted to the failed signal link without referring to the corresponding signal link state information (S804). In operation S805, the signal link function unit (MTP level 2) 20 is buffered.

The signal network management processor 31 checks signal link set state information on the failed signal link and then determines whether another available signal link exists in the corresponding signal link set to enable signal link switching (S904). ).

At this time, when the determination result (S904), when there is another available signal link to switch the signal link, the signal network management processor 31 is the signal message processing processor 32 to the signal link function unit A forward sequence number of last message signal unit accepted by remote level 2 (FSNC), which is the last received sequence number of 20, is requested (S905).

Accordingly, when the signal message processing processor 32 receives the FSNC request (S806), the signal message processing processor 32 receives the FSNC from the signal link function unit 20 and transmits the FSNC to the signal network management processor 31 (S807).

Accordingly, the signal network management processor 31 receives the FSNC (S906), and transmits the received FSNC to the power signal point 2 in the signal link switching message COO (S907).

Thereafter, the signal network management processor 31 receives a signal link switch confirmation message COA from the power signal point 2 (S908), and determines that the power signal point 2 of the power signal point 2 contained in the corresponding signal link switch confirmation message is received. The FSNC of the signal link function unit (MTP level 2 of the power station signal point 2) is transmitted to the signal message processing processor 32 (S909).

Accordingly, when the signal message processing processor 32 receives the FSNC of the power signal point 2 (S808), the signal message processing processor 32 transmits the signal message to the signal link function unit 20 according to the FSNC of the power signal point 2. The buffered signal message is transmitted (S809).

Here, the reason why the FSNC is transmitted between the local signal point 1 and the power station signal point 2 is as follows. The signal link function part (MTP level 2) 20 of the local signal point 1 is connected to the signal network function part. (MTP Level 3) The FSNC writes a signal message received from the 30 and transmits it to the power signal point 2. When the signal link failure occurs, the signal network function unit 30 transmits the signal link function unit ( It is not possible to know whether the signal message which has already been transmitted to 20) is actually transmitted to the power signal point 2, but the signal link function unit 20 knows about the FSNC for the signal message that the power signal point 2 should transmit. Therefore, the FSNC for the signaling message to be transmitted by the corresponding power point 2 is transmitted to the power point 2.

Accordingly, the signal link function unit (MTP level 2 of the power station signal point 2) of the power signal point 2 compares the FSNC and the received FSNC for a signal message buffered in the corresponding signal link function unit. If there is a signal message to be transmitted after the FSNC for the buffered signal message, this is transmitted to the signal network function part of the power signal point 2 (MTP level 3 of the power signal point 2), but the power signal point is transmitted. Since the signal link function of (2) is a signal message that has not yet been transmitted, the signal link function transmits the signal link function back to the local station signal point 2 so that the loss of the corresponding signal message does not occur.

The signal network management processor 31 deletes the failed signal link number from the available signal link number list to change the signal link set state information for the corresponding failed signal link (S910), and all signal message processing processors. The changed signal link set state information is transmitted to 32 (S911).

Accordingly, when the signal message processing processor 32 receives the changed signal link set state information (S810), the signal message processing processor 32 examines whether all the signal links included in the signal link set are buffered and releases buffering of the corresponding buffered signal link. (S811).

Then, the signal message processing processor 32 selects another available signal link to transmit the signal message buffered to the debuffered signal link using the received signal link set state information and transmits the corresponding signal message ( S812).

On the other hand, when the determination result (S904), there is no other available signal link does not exist, the signal link switching is not possible, the signal network management processor 31 does not ratio the signal link set state for the failed signal link The signal link set state information for the signal link in which the corresponding failure occurs is changed (S912), and the changed signal link set state information is transmitted to all the signal message processing processors 32 (S913).

Accordingly, when the signal message processing processor 32 receives the changed signal link set state information (S813), the signal message processing processor 32 checks whether all signal links included in the signal link set are buffered, and releases buffering of the corresponding buffered signal link. (S814).

The signal message processing processor 32 discards all signal messages buffered in the signal link in which the buffering is released because the signal link set state is not available in the received signal link set state information (S815).

Hereinafter, the signal link switching procedure in the No. 7 exchange system according to the embodiment of the present invention will be described with reference to FIG.

11 is a flowchart illustrating a signal link switching procedure in a No. 7 switching system according to an embodiment of the present invention.

First, when a signal link failure occurs, when the signal message processing processor 32 of the local signal point 1 receives the signal message transmission request (S1001), the signal message is immediately transmitted to the counter signal point 20, so that the corresponding signal message is transmitted. Loss and reversal of the signaling message do not occur.

When the signal link failure occurs, the signal message processing processor 32 notifies the signal network management processor 31 that the signal link failure occurs and receives the changed signal link state information from the signal network management processor 31. If a signal message transmission request is received before (S1002), signal link buffering is immediately set when the signal link failure occurs, thereby buffering the signal message to be transmitted to the signal link having the failure, so that the loss of the corresponding signal message does not occur.

In addition, the signal message processing processor 32 receives the signal message transmission request after receiving the changed signal link state information from the signal network management processor 31 and before receiving the signal link switch message COO (S1003 to S1004). ), The signal link buffering of the corresponding signal message processing processor 32 is already set, so that the signal message is buffered in the corresponding signal link buffer without referring to the changed signal link state information.

Furthermore, the signal message processing processor 32 receives a signal link switch message COO from the signal network management processor 31 and then transmits a signal link switch confirmation message COA to the corresponding signal network management processor 31. If a signal message transmission request is received before the operation (S1005), the signal link in which the failure occurs is still being buffered, so that the loss of the corresponding signal message does not occur.

The signal message processing processor 32 transmits a signal link switch message to the signal network management processor 31 and then transmits a signal message before receiving the changed signal link set state information from the corresponding signal network management processor 31. When the request is received (S1006), since the failed signal link is still buffering, the loss of the corresponding signal message does not occur.

In addition, when the signal message processing processor 32 receives the signal message transmission request after receiving the changed signal link set state information from the signal network management processor 31 (S1007 to S1008), the signal message set processor receives the changed signal link set state information. When receiving, the buffering of all buffered set signal links included in the signal link set is released, and thus, another available signal link to transmit a signal message buffered to the unbuffered signal link using the received signal link set state information. Select to send the corresponding signaling message. That is, since signal link buffering has already been released and the signal link switching procedure has been completed, the signal message is normally transmitted.

As described above, according to the present invention, when the signal link failure occurs, the signal message processing processor sets and releases the signal link buffering by itself so that the loss and reversal of the signal message does not occur when the signal link is switched. Signaling messages can be sent evenly over the signal links in the set of signal links.

1 is a diagram showing the configuration of a general No. 7 exchange system.

2 illustrates a signal link and a set of signal links.

3 is a diagram illustrating a signal message configuration of an MTP.

4A schematically illustrates signal link switching.

4B schematically illustrates signal link recovery.

5 is a table showing signal link state information.

6 is a table showing signal link set state information.

7 is a flowchart illustrating a signal link switching procedure in a conventional No. 7 switching system.

8 is a flowchart illustrating a signal link switching method in a No. 7 switching system according to an embodiment of the present invention.

9 is a flowchart illustrating a signal message processing process in FIG. 8.

FIG. 10 is a flowchart illustrating a signal network management process in FIG. 8.

11 is a flowchart illustrating a signal link switching procedure in a No. 7 switching system according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: Local station signal point 2: Large station signal point

10: signal data link unit (MTP level 1) 20: signal link function unit (MTP level 2)

30: Signal network function part (MTP level 3) 100: MTP

200: MTP user part 300: SCCP

400: SCCP user part

Claims (5)

Detecting a signal link failure and setting up signal link buffering for the failed signal link; Buffering a signal message to be transmitted to the failed signal link according to the set signal link buffering; Releasing buffering of the corresponding signal link if another available signal link exists, and transmitting the signal message if there is no other available signal link, and discarding all the signaling messages by unbuffering the corresponding signal link. A signal message processing process; And a signal network management process for changing the signal link state information for the signal link and checking the signal link set state information to change the corresponding signal link set state information according to whether there is another available signal link. A signal link switching method in a number seven switching system. The method of claim 1, The signal network management process process, Receiving signal link failure information, changing signal link state information for the corresponding signal link and transmitting the signal link failure information to a signal message processing processor; Checking signal link set state information for the signal link and determining whether there are other available signal links in the signal link set; Requesting and receiving an FSNC from the signal message processing processor when the other available signal link exists, and transmitting the received signal link switching message to a power station signal point; Receiving a signal link change confirmation message from the power signal point and transmitting the FSNC of the power signal point to the signal message processing processor; And deleting the failed signal link number from the list of available signal link numbers, changing the signal link set state information for the corresponding signal link, and transmitting the signal link set state information to the signal message processing processor. How to switch links. The method of claim 2, The signal network management process process, Modifying the signal link set state for the failed signal link when the other available signal link does not exist, changing the signal link set state information for the corresponding signal link, and transmitting the signal link set state information to the signal message processing processor; Signal link switching method in the number seven exchange system, characterized in that further comprises. The method of claim 1, The signal message processing process, Establishing signal link buffering for the failed signal link and transmitting corresponding signal link failure information to the signal network management processor; Receiving changed signal link state information on the failed signal link and buffering a signal message to be transmitted to the corresponding signal link according to the set signal link buffering; Receiving an FSNC request and sending the FSNC to the signaling network management processor; Transmitting the buffered signal message according to the FSNC of the power signal point when receiving the FSNC of the power signal point; If there is another available signal link and receives changed signal link set state information for the failed signal link, debuffing the signal link by checking whether all signal links included in the signal link set are buffered or not; Wow; And selecting and transmitting another available signal link to transmit a signal message buffered to the unbuffered signal link using the received signal link set state information. How to switch. The method of claim 4, wherein The signal message processing process, When no other available signal link is present, upon receiving changed signal link set state information on the failed signal link, the buffering of the signal link is released by investigating whether all signal links included in the signal link set are buffered. Steps; And discarding all of the signal messages buffered in the buffered signal link.