KR20010019051A - method for management access status of signaling point in No.7 signaling - Google Patents

Abstract

PURPOSE: The method for managing an approach state of a signaling point in a NO.7 signaling network is to provide the approach state of a signaling point not adjacent to a specific signaling point more exactly by comprehending the availability of a signaling link set between a signaling point adjacent to the specific signaling point and the signaling point not adjacent to the specific signaling point using a signaling route test message. CONSTITUTION: In case that a signaling point A receives a request to define a signaling point D as a new one(S10), the signaling point judges whether the signaling point D has already existed(S12). If the signaling point D hasn't existed yet, it is judged whether the signaling point D is a signaling point adjacent to the signaling point A(S14). In case that the signaling point D is a signaling point adjacent to the signaling point A, adjacent signaling point definition and approach state control procedures are executed(S16). If the signaling point D is a signaling point adjacent to the signaling point A, the signaling point not adjacent to the signaling point A is defined in a signaling network(S18). Then, it is judged whether the signaling link sets AB and AC of adjacent signaling points B and C passing through to go to the defined signaling point D are in an available state(S20). If an available signaling link set exists, a signaling route test message is transmitted to the adjacent signaling point of an available signaling link(S22). It is checked whether a response message for the signaling route test message is received within a preset time T1(S24). In case that the response message is received within the preset time T1, it is confirmed whether it is a transfer allowed message(S26). If it is the transfer allowed message, the signaling route of the signaling point D is marked as an available state and the signaling point D is marked as an approach possible state(S30).

Description

Number for management access status of signaling point in No. 7 signaling

The present invention relates to a method of managing access state of a signal point in No.7 signal network, and particularly, when defining a signal point that is not adjacent to a predetermined signal point, the access state of a signal point not adjacent to a predetermined signal point is precisely defined. The present invention relates to a method of managing access state of a signal point in No. 7 signaling network that enables management.

The configuration of a general No. 7 signal network is as shown in FIG. 1. In the case of newly defining a signal point that is not adjacent to a predetermined signal point in the No. 7 signal network, a signal through an adjacent signal point is conventionally defined. After the signal route is configured to deliver the message, the availability of the signal route to non-adjacent signal points is determined by the availability of a set of signal links between the predetermined signal point and the adjacent signal point. Managed access status.

That is, in the case where signal point D (or E, F) that is not adjacent to signal point A is newly defined, conventionally, signal point D (or E, F) is a signal point that is not adjacent to signal point A. There is no linking. Thus, a signal route is constructed via signal link set AB or AC so that signal messages from signal point A through adjacent signal points B or C are delivered.

In this state, in one embodiment, the signal link set AB from the signal point A to the signal point D (or E, F) from the signal point A to the signal point D, or C, if both the signal link set AB and AC are unavailable And AC are both in an unusable state, the signal route to signal point D (or E, F) becomes unavailable, and as a result, the state of signal point D (or E, F) is managed as an inaccessible state.

In another embodiment, if only one of the signal link sets AB and AC is available, there is a set of signal links that are available among the adjacent signal points B, C from signal point A to signal point D (or E, F). The signal route to signal point D (or E, F) via the set of available signal links becomes available and the state of signal point D (or E, F) is managed as accessible.

However, in the case of another embodiment, signal point A and adjacent signal point B are not considered, regardless of the availability of a set of signal links between signal point B (or C) adjacent to signal point A and signal point D (or E, F). The availability of a set of signal links between (or C) only determines whether access from signal point A to non-adjacent signal points D (or E, F) is possible, so in practice signal point D (or E, F) Although it is impossible to access), a problem occurs that the signal point A is managed to be accessible to the signal point D (or E, F).

That is, a set of signal links between signal point A and adjacent signal point B (or C) is available, but signal point B (or C) adjacent to signal point A and signal point D (or E not adjacent to signal point A) , Signal point B (or C) adjacent to signal point A, even when the set of signal links between F) is unavailable, even though access from signal point A to signal point D (or E, F) is virtually impossible It is managed in such a way that access to signal point D (or E, F) is possible from signal point A only because the set of signal links therebetween is available.

Therefore, since signal point A is managed in a state in which access to signal point D (or E, F) is possible, a signal message destined for an incoming signal point D (or E, F) is transmitted to an adjacent signal point B (or C). The received signal point B (or C) discards the received message and prohibits forwarding to the originating point A of the signaling message because the set of the signal link with the incoming signal point D (or E, F) is not available. Send a message (hereinafter referred to as TFP) to require that no further signaling messages should be sent to the called party. Here, the signal message transmitted by the signal point A to the signal point B (or C) is discarded at the signal point B (or C) until the TFP is received from the signal point B (or C).

As described above, in the case of newly defining a signal point D (or E, F) that is not adjacent to the signal point A in the signal network No. 7, a signal point B (or C) adjacent to the signal point A is conventionally defined. Define a new signal network so that non-adjacent signal points D (or E, F) can be reached via, but the access state of the newly defined signal points D (or E, F) is determined by the signal point A and the adjacent signal points. There is a problem in that the reliability of the signal network is lowered by determining only whether the signal link set between B (or C) is available.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and when defining a signal point that is not adjacent to a predetermined signal point, the signal route as well as the availability of a signal link set between the predetermined signal point and the adjacent signal point are available. The test message is also used to determine the availability of a set of signal links between a signal point adjacent to a predetermined signal point and a signal point not adjacent to a predetermined signal point, thereby providing a more accurate access state of a signal point not adjacent to a predetermined signal point. The purpose is to provide a method for managing access state of a signaling point in No.7 signaling network.

1 is a diagram showing a general configuration of a No. 7 signal network.

2 is a flowchart for explaining a method for managing access state of a signal point in No. 7 signal network according to the present invention;

The present invention for achieving the above object is available for a set of signal links with adjacent signal points passing through to the non-adjacent signal points when a signal point that is not adjacent to a predetermined signal point is newly defined. A number for managing the access state of the non-adjacent signal point according to whether or not. A method for managing access state of a signal point in a seven signal network, comprising: a set of signal links with an adjacent signal point passing through the non-adjacent signal point Determining whether an available state; If the determination result indicates that at least one of the signal link sets is in an available state, a test message for determining an access state of the non-adjacent signal points is transmitted to an adjacent signal point in which the signal link set is in an available state, and within a preset time. Determining whether a response message to the test message has been received; If the response message is received within a preset time as a result of the determination, determining whether the response message is a delivery permission message that may transmit a signal message; And when the response message is a transmission permission message, displaying the signal route of the non-adjacent signal point in an available state and displaying the signal point in an accessible state.

And when the signal link sets are all in an unavailable state, further comprising displaying a signal route of the non-adjacent signal points as an unavailable state and displaying a signal point as an inaccessible state. It features.

If the response message is not received within a predetermined time as a result of the determination, the signal route of the non-adjacent signal point is displayed in an unavailable state, and the signal point is displayed in an inaccessible state. And transmitting the test message to an adjacent signal point not transmitting the response message.

And if the response message is a transmission prohibition message not to transmit a signal message any more, displaying the signal route of the non-adjacent signal point as unavailable and displaying the signal point as inaccessible. Characterized in that further comprises.

Hereinafter, a method of managing access state of a signal point in No. 7 signal network according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Since the configuration of the No. 7 signal network to which the access point management method of the signal point according to the present invention is applied is similar to the conventional method, the following description will be made using the same configuration as the conventional No. 7 signal network shown in FIG. Shall be.

2 is a flowchart illustrating a method for managing access state of a signal point in No. 7 signal network according to the present invention.

When the signal point A receives a request to newly define the signal point D, it is determined whether the signal point D to be newly defined already exists (S10 and S12). As a result of the determination of step S12, if a signal point D to be newly defined already exists, the process proceeds to step S10 without waiting for further processing and waits for a new signal point definition request and newly defines the signal point D. If the signal point D does not exist, it is determined whether the signal point D to be defined is an adjacent signal point of the signal point A (S14). When the signal point D to be defined as the determination result of the process S14 is the adjacent signal point of the signal point A, the adjacent signal point definition and the access state management procedure are performed (S16) and the signal point D to be defined. If the signal point A is not an adjacent signal point, after defining a signal point not adjacent to the signal point A in the signal network (S18), the adjacent signal point B passing through to go to the signal point D defined in step S18 described above. It is determined whether the signal link set AB, AC of C is available (S20). When the signal link sets AB and AC of adjacent signal points B and C passing through to the signal point D defined in step S20 are both unavailable, the signal of the signal point D defined in step S18 described above. The route is displayed in an unavailable state and the signal point D is displayed in an inaccessible state (S28). The process proceeds to step S10 described above and waits for a new signal point definition request.

On the other hand, when there is a signal link set available among the signal link sets AB and AC of adjacent signal points B and C passing through to the signal point D defined in step S18 described above, the signal point defined in step S18 described above. In order to check the access state of (D), the signal route test message is transmitted to the adjacent signal point where the signal link set is available (S22), and it is determined whether a response message for the signal route test message has been received within a predetermined time T1. (S24). As a result of the determination of step S24, when the response message for the signal route test message is not received within the preset time T1, the signal route of the signal point D defined in the above step S18 is displayed as unavailable and the signal point ( D) indicates to the inaccessible state (S28), and proceeds to step S10 described above and waits for a new signal point definition request. If the response message for the signal route test message is not received within the predetermined time T1 in step S24, the signal route with the newly defined signal point is not defined in the adjacent signal point that received the signal route test message. For example, a signal route test message may be lost during transmission. In this case, when the response message for the signal route test message is not received within the preset time T1, the signal route test message is continuously transmitted to the adjacent signal points that do not transmit the response message for the signal route test message at predetermined time intervals. Check the approach status of the newly defined signal point.

On the other hand, when the response message for the signal route test message is received within the preset time T1, the response message received in step S24 described above is a transfer allowed message (hereinafter referred to as TFA). Determine whether (S26). As a result of the determination in step S26, when the response message received in step S24 is a TFP instead of a TFA, in this case, the signal link set between the adjacent signal point and the signal point D is not available. The signal route of (D) is displayed in an unavailable state, and the signal point D is displayed in an inaccessible state (S28). The process proceeds to step S10 described above and waits for a new signal point definition request. On the other hand, if the response message received in step S24 is TFA, the signal route of the signal point (D) is displayed as an available state and the signal point (D) is displayed as an accessible state (S30), and the process S10 Proceed to wait for new signal point definition request.

For example, in the case where signal point E is newly defined at signal point A in FIG. 1, the signal route from signal point A to signal point E is composed of A → B → E and A → C → E, and the signal Point A is connected to adjacent signal points B and C via signal link sets AB and AC. Here, assuming that the signal link sets AB and AC are both available, the signal point A transmits a signal route test message to the adjacent signal points B and C to determine the signal route and the signal point approach state of the signal point E. For example, when the response message for the signal route test message is received from the neighbor signal point B within the preset time T1, and the response message for the signal route test message is not received from the neighbor signal point C, the signal is received from the neighbor signal point B. Depending on the type of response message received, determine the signal route and signal point access status of signal point E. That is, if the response message received from the adjacent signal point B is TFA, the signal route of the signal point E is available and the signal point E is accessible, but if the response message received from the adjacent signal point B is the TFP, the signal of the signal point E is The route is not available and signal point E is inaccessible.

The method for managing access state of a signal point in No. 7 signal network of the present invention is not limited to the above-described embodiments, and may be modified in various ways within the scope of the technical idea of the present invention.

According to the method for managing access state of a signal point in No.7 signal network of the present invention as described above, when a signal point that is not adjacent to a predetermined signal point is newly defined, between the predetermined signal point and the adjacent signal point The signal route test message is used to determine whether a signal link set is available between a signal point adjacent to a predetermined signal point and a signal point that is not adjacent to a predetermined signal point by using a signal route test message. By providing the access state more accurately, it is possible to improve the reliability and efficiency of No.7 signal network.

Claims (4)

Approaching the non-adjacent signal point according to the availability of a signal link set with an adjacent signal point passing through to reach the non-adjacent signal point when a signal point that is not adjacent to a predetermined signal point is newly defined. A number for managing a state.In a method of managing access state of a signal point in a seven signal network, Determining whether a set of signal links with adjacent signal points passing through to the non-adjacent signal points is available; If the determination result indicates that at least one of the signal link sets is in an available state, a test message for determining an access state of the non-adjacent signal points is transmitted to an adjacent signal point in which the signal link set is in an available state, and within a preset time. Determining whether a response message to the test message has been received; If the response message is received within a preset time as a result of the determination, determining whether the response message is a delivery permission message that may transmit a signal message; And if the response message is a transmission permission message, displaying the signal route of the non-adjacent signal point in an available state and displaying the signal point in an accessible state. Method of managing access state of signaling point in network. The method of claim 1, further comprising: when the signal link sets are all in an unusable state, displaying a signal route of the non-adjacent signal points as an unavailable state and displaying a signal point as an inaccessible state. A method for managing access state of a signal point in a seven signal network. The method of claim 1, wherein when the response message is not received within a predetermined time as a result of the determination, the signal route of the non-adjacent signal point is displayed as an unavailable state and the signal point is displayed as an inaccessible state. And a step of transmitting the test message to an adjacent signal point not transmitting the response message at intervals. The method for managing access state of a signal point in a seven signal network. The method of claim 1, wherein if the response message indicates that the message is no longer transmitted, the signal route of the non-adjacent signal point is marked as unavailable and the signal point is not accessible. A method for managing the access state of a signal point in a seven signal network.