JP2014241519A - Communication network system, communication network switching method, communication processing device and its control method, and control program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently switch to satellite communication by accurately learning a fault of a communication line.SOLUTION: A communication processing device comprises: a first fault information receiving unit for receiving detected first fault information on a first communication line from a first communication device situated at one end of the first communication line; a second fault information receiving unit for receiving detected second fault information on the first communication line from a second communication device situated at the other end of the first communication line; a fault occurrence determination unit for determining that a fault has occurred on the first communication line on the basis of the first fault information and the second fault information; and a line switching instruction unit for instructing the first communication device and the second communication device to switch from the first communication line to a second communication line including satellite communication if it is determined that a fault has occurred on the first communication line.

Description

  The present invention relates to a technique for monitoring a failure occurring on a communication line and switching a communication line having a failure to a communication line via satellite communication.

  In the above technical field, Patent Document 1 discloses that when a detected alarm signal is transmitted to an external alarm monitoring terminal via a telephone network, the telephone network switching device on the alarm detection side is connected via the public switched telephone network. If it is determined that this is impossible, a technique for switching and connecting a communication line to a satellite telephone network is disclosed.

JP 2009-212730 A

  However, in the technique described in the above document, if there is a connection failure determination on the alarm detection side, switching from the public switched telephone network to the satellite telephone network is performed. Therefore, even if there is a temporary communication error or there is a temporary failure on the communication line, switching to the satellite telephone network is performed. It will cause a malfunction of switching to the net. As a result, a communication delay or a communication error occurs due to frequent switching processing to the satellite telephone network and congestion of the satellite telephone network.

  The objective of this invention is providing the technique which solves the above-mentioned subject.

In order to achieve the above object, a communication processing apparatus according to the present invention provides:
First failure information receiving means for receiving detected first failure information of the first communication line from the first communication device on one side of the first communication line;
Second failure information receiving means for receiving the detected second failure information of the first communication line from the second communication device on the other side of the first communication line;
A failure occurrence determination means for determining that a failure has occurred in the first communication line based on the first failure information and the second failure information;
When it is determined that a failure has occurred in the first communication line, the first communication apparatus and the second communication apparatus are instructed to switch from the first communication line to a second communication line including satellite communication. A line switching instruction means;
Is provided.

In order to achieve the above object, a method for controlling a communication processing apparatus according to the present invention includes:
A first failure information receiving step of receiving detected first failure information of the first communication line from a first communication device on one side of the first communication line;
A second failure information receiving step of receiving the detected second failure information of the first communication line from the second communication device on the other side of the first communication line;
A failure occurrence determination step for determining that a failure has occurred in the first communication line based on the first failure information and the second failure information;
When it is determined that a failure has occurred in the first communication line, the first communication apparatus and the second communication apparatus are instructed to switch from the first communication line to a second communication line including satellite communication. A line switching instruction step;
including.

In order to achieve the above object, a control program for a communication processing apparatus according to the present invention includes:
A first failure information receiving step of receiving detected first failure information of the first communication line from a first communication device on one side of the first communication line;
A second failure information receiving step of receiving the detected second failure information of the first communication line from the second communication device on the other side of the first communication line;
A failure occurrence determination step for determining that a failure has occurred in the first communication line based on the first failure information and the second failure information;
When it is determined that a failure has occurred in the first communication line, the first communication apparatus and the second communication apparatus are instructed to switch from the first communication line to a second communication line including satellite communication. A line switching instruction step;
Is executed on the computer.

In order to achieve the above object, a communication network system according to the present invention provides:
An IP network including a first communication line between the SIP server and the base station;
A satellite network including a second communication line including satellite radio;
First failure determination means for determining failure of the first communication line by the SIP server;
Second failure determination means for determining failure of the first communication line by the base station;
When it is determined by the SIP server and the base station that the first communication line is out of order, the first communication line is switched to the second communication line, and the space between the SIP server and the base station is changed. A communication line switching means for connecting via the second communication line;
With.

In order to achieve the above object, a communication network switching method according to the present invention includes:
A communication network switching method comprising: an IP network including a first communication line between a SIP server and a base station; and a satellite network including a second communication line including satellite radio,
A first failure determination step in which the SIP server determines a failure of the first communication line;
A second failure determination step in which the base station determines a failure of the first communication line;
When it is determined by the SIP server and the base station that the first communication line is out of order, the first communication line is switched to the second communication line, and the space between the SIP server and the base station is changed. A communication line switching step for connecting via the second communication line;
With.

  According to the present invention, it is possible to switch to efficient satellite communication by accurately grasping a communication line failure.

It is a block diagram which shows the structure of the communication processing apparatus which concerns on 1st Embodiment of this invention. It is a block diagram which shows the structure of the communication network system containing the monitoring server as a communication processing apparatus which concerns on 2nd Embodiment of this invention. It is a figure which shows the operation | movement procedure of the communication network system containing the monitoring server as a communication processing apparatus which concerns on 2nd Embodiment of this invention. It is a figure which shows the operation | movement procedure of the communication network system containing the monitoring server as a communication processing apparatus which concerns on 2nd Embodiment of this invention. It is a figure which shows the operation | movement procedure of the communication network system containing the monitoring server as a communication processing apparatus which concerns on 2nd Embodiment of this invention. It is a figure which shows the operation | movement procedure of the communication network system containing the monitoring server as a communication processing apparatus which concerns on 2nd Embodiment of this invention. It is a figure which shows the operation | movement procedure of the communication network system containing the monitoring server as a communication processing apparatus which concerns on 2nd Embodiment of this invention. It is a figure which shows the operation | movement procedure of the communication network system containing the monitoring server as a communication processing apparatus which concerns on 2nd Embodiment of this invention. It is a figure which shows the operation | movement procedure of the communication network system containing the monitoring server as a communication processing apparatus which concerns on 2nd Embodiment of this invention. It is a block diagram which shows the function structure of the SIP server which concerns on 2nd Embodiment of this invention. It is a figure which shows the structure of the line failure determination table which concerns on 2nd Embodiment of this invention. It is a figure which shows the structure of subscriber line DB which concerns on 2nd Embodiment of this invention. It is a flowchart which shows the process sequence of the SIP server which concerns on 2nd Embodiment of this invention. It is a block diagram which shows the function structure of the monitoring server which concerns on 2nd Embodiment of this invention. It is a figure which shows the structure of the line failure determination table which concerns on 2nd Embodiment of this invention. It is a figure which shows the structure of communication line DB which concerns on 2nd Embodiment of this invention. It is a flowchart which shows the process sequence of the monitoring server which concerns on 2nd Embodiment of this invention. It is a block diagram which shows the function structure of the base station which concerns on 2nd Embodiment of this invention. It is a figure which shows the structure of the line switching table which concerns on 2nd Embodiment of this invention. It is a flowchart which shows the process sequence of the base station which concerns on 2nd Embodiment of this invention. It is a figure which shows the structure of the line failure determination table which concerns on 3rd Embodiment of this invention.

  Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the drawings. However, the constituent elements described in the following embodiments are merely examples, and are not intended to limit the technical scope of the present invention only to them.

  Note that the term “line failure” used in the present specification is a concept including a physical failure or a software error on a communication line including line disconnection in a communication path between communication apparatuses.

[First Embodiment]
A communication processing apparatus 100 as a first embodiment of the present invention will be described with reference to FIG. The communication processing device 100 is a device that monitors a failure that occurs on a communication line and switches a communication line having a failure to a communication line via satellite communication.

  As illustrated in FIG. 1, the communication processing device 100 includes a first failure information receiving unit 110, a second failure information receiving unit 120, a failure occurrence determination unit 130, and a line switching instruction unit 140. The first failure information receiving unit 110 receives the detected first failure information of the first communication line 101 from the first communication device 103 on one side of the first communication line 101. The second failure information receiving unit 120 receives the detected second failure information of the first communication line 101 from the second communication device 104 on the other side of the first communication line 101. The failure occurrence determination unit 130 determines that a failure has occurred in the first communication line 101 based on the first failure information and the second failure information. When it is determined that a failure has occurred in the first communication line 101, the line switching instruction unit 140 sends a second communication including satellite communication from the first communication line 101 to the first communication apparatus 103 and the second communication apparatus 104. An instruction to switch to the communication line 102 is given.

  According to the present embodiment, it is possible to switch to efficient satellite communication by accurately grasping a communication line failure.

[Second Embodiment]
Next, a communication network system including a monitoring server as a communication processing apparatus according to the second embodiment of the present invention will be described. In the communication network system according to the present embodiment, a failure in a communication line of an IP (Internet Protocol) network connecting a SIP (Session Initiation Protocol) server and a base station is monitored from both sides of the base station and the SIP server. Then, if a failure is found, the SIP server and the base station respectively notify the monitoring server. When the monitoring server receives a failure notification from both directions on the same line, it determines that a line failure has occurred. Then, the monitoring server instructs the SIP server and the base station to switch the line determined to have a line failure to the line of the satellite network.

《Technical overview》
In recent years, with the recovery of the Internet and smartphones, options other than telephones are being reviewed as a means of communication in the event of a disaster, but for elderly people who do not use them much, telephones are a valuable means of communication. It is necessary to configure a network that can be disconnected even at times. However, when the communication network is disconnected, nothing can be done with the settings on the server or base station side, and there is no choice but to wait until the communication network is restored. Also, in the event of a disaster, it is often difficult to go to repair the equipment, and as a result, a communication failure occurs over a long period of time, resulting in a significant impact.

  Therefore, when the communication network is disconnected, the communication of the disconnected part is automatically determined, the communication line is secured and the communication is continuously performed. In other words, when a telephone line is disconnected in a disaster area, it is considered that it is difficult to immediately repair the telephone line and repair it. Therefore, when the IP network is disconnected, only the station where it occurred By automatically switching the line to satellite radio, it will reduce the disconnection of communication to the limit. In addition to the above-described functions, it is also possible to use a function such as temporarily switching the route when there is congestion due to an unexpected device failure or switching to satellite radio only when the device is replaced.

《Communication network system》
A communication network system 200 including a monitoring server 240 as a communication processing apparatus according to the present embodiment will be described with reference to FIGS.

(System configuration)
FIG. 2 is a block diagram showing a configuration of a communication network system 200 including a monitoring server 240 as a communication processing apparatus according to the present embodiment. In FIG. 2, each functional component is shown as one so that the entire communication network system 200 can be imagined. However, in an actual system, there are many functional components that are complicatedly connected. ing. In addition, two pairs of elements that are trying to communicate (call) each other are indicated by “A” and “B” at the end of the reference number.

  The communication network system 200 in FIG. 2 includes two terminals 210A and 210B and two base stations 220A and 220B in which the terminals 210A and 210B are located. Further, the communication network system 200 includes an SIP server 230 that connects the two base stations 220A and 220B to realize communication between the two terminals 210A and 210B, and a monitoring server that monitors a communication state including a line failure. 240. The SIP server 230 monitors a line failure between the base stations 220A and 220B, and if there is a failure, notifies the monitoring server 240 together with a line identifier (hereinafter referred to as ID) for identifying the line. For example, the base station 220B detects a line failure from the processing state of the outgoing call from the terminal 210B in the area or the incoming call to the terminal 210B, and notifies the monitoring server 240 together with the line ID when the line failure is detected.

  2 further includes two wireless satellite stations 250A and 250B capable of wireless communication with the base stations 220A and 210B, respectively, and a satellite 260 that connects the two wireless satellite stations 250A and 250B. And having. If the monitoring server 240 determines that the line failure notification from the SIP server 230 and the line failure notification from the base station 220B, for example, are failure notifications for the same line, the monitoring server 240 determines that the line has failed, The line between the base stations 220B is switched to a line via the satellite 260.

  In FIG. 2, a line 201 is a normal IP network line between the SIP server 230 and the base station 220B. If the monitoring server 240 determines that the line 201 has a failure, the monitoring server 240 switches the line 201 between the SIP server 230 and the base station 220B to the line 202 via the satellite 260 and continues communication. Note that the same monitoring and switching to a satellite line are performed for the line between the SIP server 230 and the base station 220A.

(Operation procedure)
FIG. 3 is a diagram illustrating an operation procedure (S300) of the communication network system 200 including the monitoring server 240 as the communication processing apparatus according to the present embodiment. FIG. 3 shows a normal communication state. In normal times, the satellite wireless network is not used, but communication is performed using a device for a fixed network (S310). In addition, the SIP server 230 and the monitoring server 240 confirm whether or not the lines between the SIP server 230 and the base stations 220A and 220B are operating normally (S330 and S340). The monitoring server 240 discriminates a line failure between the SIP server 230 and the base stations 220A and 220B from the communication state of the serving terminals of the base stations 220A and 220B.

  FIG. 4 is a diagram illustrating an operation procedure (S400) of the communication network system 200 including the monitoring server 240 as the communication processing apparatus according to the present embodiment. FIG. 4 shows a case where a line to the destination terminal 210B is disconnected or a failure occurs between the SIP server 230 and the base station 220B, for example, communication (call) from the terminal 210A becomes impossible. . The SIP server 230 and the monitoring server 240 detect monitoring NG (S430, S420) indicating line disconnection or failure, respectively. Note that the monitoring NG (S420) of the monitoring server 240 can be acquired by notification of a communication result regarding the terminal 210B in the area from the base station 220B or notification of a line failure determination result by the base station 220B.

  FIG. 5 is a diagram showing an operation procedure (S500) of the communication network system 200 including the monitoring server 240 as the communication processing apparatus according to the present embodiment.

  The SIP server 230 also sends information on the line failure to the determined base station 220B to the monitoring server 240 (S530). The monitoring server 240 determines from the monitoring NG notification (S530) from the SIP server 230 and its own monitoring NG information (S420) that there is a failure in the line between the SIP server 230 and the base station 220B. Decide to switch to the satellite radio link to be used.

  The reason for determining the line failure in the monitoring of the two servers (SIP server 230 and monitoring server 240) is as follows. For example, if a line failure is determined only by the SIP server 230, there is a possibility that a temporary network problem may occur, or there is a possibility that the line is being switched to another line. Judgment is difficult. Further, when a line failure is determined only by the monitoring server 240, switching is possible only by the monitoring server 240 when communication with the base stations 220A and 220B is normal. However, if communication with the base stations 220A and 220B is interrupted, there is a possibility that the network between the base stations 220A and 220B and the monitoring server 240 is faulty. Such a judgment is difficult.

  FIG. 6 is a diagram illustrating an operation procedure (S600) of the communication network system 200 including the monitoring server 240 as the communication processing apparatus according to the present embodiment. In FIG. 6, the monitoring server 240 changes the setting of the destination station data from the SIP server 230 with respect to the SIP server 230 in order to switch to the satellite radio channel using the satellite 260 (S640). That is, at the normal time, the base station number of the base station 220B is set as the station data destined for the terminal 210B in the SIP server 230. In FIG. 6, in order to switch to the satellite radio channel, the base station of the base station 220B is changed from the monitoring server 240 to the SIP server 230 so that station data destined for the terminal 210B is connected to the radio satellite station 250A. Send a signal containing a number. The base station number is a number uniquely assigned to each base station.

  The SIP server 230 receives the setting change (S640) including the base station number of the base station 220B from the monitoring server 240, and searches for and specifies the subscribers under the base station 220B of the base station number. Then, a satellite radio flag indicating that the communication under the specified base station 220B is changed to connect the communication addressed to the subscriber to the radio satellite station 250A instead of the base station 220B is set. The original station data indicating the base station 220B is retained without being rewritten because it is used after recovery from the line failure. When the satellite radio flag is ON, the setting is changed so that communication to the subscriber under the base station 220B via the SIP server 230 is transferred to the radio satellite station 250A.

  FIG. 7 is a diagram illustrating an operation procedure (S700) of the communication network system 200 including the monitoring server 240 as the communication processing apparatus according to the present embodiment. FIG. 7 shows a state in which a signal is transmitted so that the setting of the opposite base station 220B where the line failure has occurred is also directed to the wireless satellite station 250B, and the line between the SIP server 230 and the base station 220B via the satellite 260 is established. FIG. The monitoring server 240 causes the base station 220B to change the communication from the terminal 210B via the SIP server 230 (for example, communication with the terminal 210A as a partner) to be directed to the wireless satellite station 250B (S720).

  In this manner, the satellite communication line connected to the base station 220B from the SIP server 230 via the satellite 260 is determined by the setting of the monitoring server 240 in FIGS. 6 and 7 (740). It should be noted that the selection of base stations and radio satellite stations on the path of the satellite line connected to the base station 220B from the SIP server 230 via the satellite 260 may be performed collectively by the monitoring server 240, and each functional configuration The unit may select each connection destination.

  FIG. 8A is a diagram showing an operation procedure (S810) of the communication network system 200 including the monitoring server 240 as the communication processing apparatus according to the present embodiment. FIG. 8A shows a path of the inter-terminal communication line from the terminal 210A to the terminal 210B in which the line between the SIP server 230 and the base station 220B is switched to the satellite communication line (S811).

  FIG. 8B is a diagram showing an operation procedure (S820) of the communication network system 200 including the monitoring server 240 as the communication processing apparatus according to the present embodiment. FIG. 8B shows a path of the inter-terminal communication line from the terminal 210B to the terminal 210A in which the line between the SIP server 230 and the base station 220B is switched to the satellite communication line (S812).

  8A and 8B follow the same route in reverse, but another route may be selected depending on the IP network and the satellite network. In FIG. 7, FIG. 8A and FIG. 8B, the base station 220A is used as the path of the satellite communication line. However, the present invention is not limited to this, and the SIP server 230 to the radio satellite station 250A is not limited to this. The route may use another base station 220.

<< Functional configuration of SIP server >>
FIG. 9 is a block diagram showing a functional configuration of the SIP server 230 according to the present embodiment.

  The SIP server 230 in FIG. 9 includes a SIP communication control unit 901 that performs communication control with the base station 220 in accordance with SIP. The SIP communication control unit 901 refers to the subscriber line DB 907 and selects a connection destination for communication with the subscriber. The connection error detection unit 902 detects a line connection error with the base station 220 based on information from the SIP communication control unit 901. As a detection of the line connection error, for example, there is a case where the “200 OK” signal is not returned from the base station 220 in response to the “INVITE” signal transmitted from the SIP communication control unit 901 to the base station 220. It is not limited to. The line failure determination unit 903 accumulates connection error notifications from the connection error detection unit 902, and determines that a line failure has occurred when a connection error exceeding a predetermined threshold occurs within a predetermined time on the same line (FIG. 10A). reference). The line failure determination algorithm is not limited to this example. The line failure notification unit 904 notifies the monitoring server 240 of the information on the line that the line failure determination unit 903 has determined as a line failure together with the base station number of the communication partner. The communication control unit 905 controls communication with the monitoring server 240. The communication protocol of the communication control unit 905 is not limited.

  The line switching instruction receiving unit 906 receives an instruction from the monitoring server 240 to switch a failed line to a satellite communication line. The subscriber line DB 907 is a database that stores the line through which the communication to the subscriber is connected in association with the subscriber (see FIG. 10B). Usually, the base station number of the base station under the control of the subscriber is stored. Further, a satellite radio flag indicating that the satellite communication line is used in the case of a line failure to the base station indicated by the base station number is stored.

  With such a configuration, the SIP communication control unit 901 of the SIP server 230 usually refers to the subscriber line DB 907 and connects the communication to the subscriber to the base station under the control of the subscriber. In the case of a line failure to the base station, the SIP communication control unit 901 of the SIP server 230 refers to the subscriber line DB 907 and connects communication to the subscriber via the satellite communication line.

(Line failure determination table)
FIG. 10A is a diagram showing a configuration of a line failure determination table 903a according to the present embodiment. The line failure determination table 903a is a table used by the line failure determination unit 903 to determine a specific line failure from communication connection error information.

  The line failure determination table 903a determines that a line failure has occurred when the connection error count 1012 and the connection error count 1012 exceed a predetermined threshold value within a predetermined time in association with the base station number 1011 indicating the communication partner base station. , Line failure flag 1013 is stored.

(Subscriber line DB)
FIG. 10B is a diagram showing a configuration of the subscriber line DB 907 according to the present embodiment. The subscriber line DB 907 is a database that stores the line through which communication to the subscriber is connected in association with the subscriber, and the SIP communication control unit 901 selects a line to the communication destination. Use for. The configuration of the subscriber line DB 907 is not limited to FIG. 10B.

  The subscriber line DB 907 is associated with the subscriber address 1021 indicating the communication partner, the base station number 1022 of the partner base station for connecting to the subscriber, and the satellite communication line switching in the case of a line failure to the base station Is stored.

<< SIP Server Processing Procedure >>
FIG. 11 is a flowchart showing a processing procedure of the SIP server 230 according to this embodiment. This flowchart is executed by the CPU that controls the operation of the SIP server 230 using the RAM, and implements the functional components of the SIP server 230 of FIG. The flowchart of FIG. 11 starts in response to an external access or an internal event occurrence in the SIP server 230. Note that FIG. 11 does not show processing procedures related to other functions of the SIP server 230.

  In step S1111, the SIP server 230 determines whether or not the “INVITE” signal is received from the base station 220. If the “INVITE” signal is not received, the SIP server 230 determines in step S1131 whether or not a line switching instruction is received from the monitoring server 240.

  If the "INVITE" signal is received, the SIP server 230 determines in step S1113 whether or not the satellite radio flag of the subscriber address representing the communication destination is ON (see FIG. 10B). If the satellite radio flag is OFF, the SIP server 230 acquires a base station number corresponding to the subscriber address in step S1115. In step S1117, the SIP server 230 transmits an “INVITE” signal to the base station having the acquired base station number. In step S1119, the SIP server 230 waits for a response of the “200 OK” signal from the base station. If there is a response of the “200 OK” signal, the communication is continued. If there is no response of the “200 OK” signal, the SIP server 230 records a connection error of the line in association with the line ID in step S1121.

  If the satellite radio flag is OFF, the SIP server 230 acquires the satellite communication line corresponding to the subscriber address from the subscriber line DB 907 in step S1123. At least the line information to the wireless satellite station 250 is acquired. In step S1125, the SIP server 230 transmits an “INVITE” signal to the acquired satellite communication line.

  If the line switching instruction is received from the monitoring server 240, the SIP server 230 acquires the base station number of the other party to be switched transmitted from the monitoring server 240 and obtains it from the subscriber line DB 907 in step S1133. The subscriber under the base station with the base station number is searched. In step S1135, the SIP server 230 sets (ON) the satellite radio flag for the retrieved subscriber in the subscriber line DB 907. This satellite radio flag is referred to in step S1113.

  For example, the communication connection confirmation when switching between the SIP server 230 via the satellite communication line and the base station 220B to the satellite communication line is performed as follows. If an “200 OK” response is received from the base station 220B to the radio satellite station 250B from the exchange of “INVITE” and “200 OK” between the components, the SIP server 230 will receive an “ACK” from the base station 220B. The communication connection confirmation is notified by.

<< Functional configuration of the monitoring server >>
FIG. 12 is a block diagram illustrating a functional configuration of the monitoring server 240 according to the present embodiment.

  The monitoring server 240 of FIG. 12 includes a communication control unit 1201 that controls communication between the base station 220 and the SIP server 230. Note that the communication protocol of the communication control unit 1201 is not particularly limited as long as it matches the communication partner. A line failure reception unit 1202 from the base station receives a line failure notification from the base station 220 via the communication control unit 1201. The line failure notification is not limited to failure information, and may be communication result information that can determine a line failure from the information. In that case, the monitoring server 240 determines the line failure based on the communication result information. A line failure reception unit 1203 from the SIP server receives a line failure notification from the SIP server 230 via the communication control unit 1201. Based on the line failure information received by the line failure reception unit 1202 from the base station and the line failure information received by the line failure reception unit 1203 from the SIP server, the line failure determination unit 1204 and the base station A line failure between 220 is determined. As a simple line failure determination method, when both the SIP server 230 and the base station 220 are notified of the same line failure, it may be determined that the line is broken. However, the present invention is not limited to this line failure determination method. For example, the reliability of the line failure information between the SIP server 230 and the base station 220 may be weighted and combined, or the line usage frequency may be added to the line failure determination.

  The communication line DB 1205 stores a plurality of lines between predetermined components, for example, between the SIP server 230 and the base station 220B in this example (see FIG. 13B). The satellite communication line acquisition unit 1206 acquires a line to be switched from the normal line with reference to the communication line DB 1205 for the line determined by the line failure determination unit 1204 as a line failure. In this example, a satellite communication line is acquired as the switching line. The line switch notification unit 1207 to the SIP server notifies the SIP server 230 of the line switch in order to switch to the satellite communication line acquired by the satellite communication line acquisition unit 1206. The line switching notification includes the partner base station number of the line to be switched. Further, it may include connection destination for connecting to the satellite communication line and route information of the satellite communication line. The line switch notification unit 1208 to the base station notifies the base station 220 of the line switch in order to switch to the satellite communication line acquired by the satellite communication line acquisition unit 1206. The line switching notification includes the partner wireless satellite station number of the line to be switched. Further, it may include connection destination for connecting to the satellite communication line and route information of the satellite communication line.

(Line failure judgment table)
FIG. 13A is a diagram showing a configuration of a line failure determination table 1204a according to the present embodiment. The line failure determination table 1204a is used by the line failure determination unit 1204 to determine a specific line failure based on the line failure information from the SIP server 230 and the base station 220.

  The line failure determination table 1204a stores the address 1302 of one SIP server 230 connected through the line and the other base station number 1303 connected through the line in association with the line ID 1301. The line failure determination table 1204a includes a line failure notification 1304 from the SIP server 230, a line failure notification 1305 from the base station 220, a line failure determination result 1306 based on the line failure notification 1304 and the line failure notification 1305, Remember.

(Communication line DB)
FIG. 13B is a diagram showing a configuration of the communication line DB 1205 according to the present embodiment. The communication line DB 1205 stores a plurality of lines between predetermined components. Note that the configuration of the communication line DB 1205 is not limited to FIG. 13B.

  The communication line DB 1205 stores the first switching line 1322 to the n-th switching line 1323 and the satellite communication line 1324 used in this example in association with the regular line 1321 between the components.

<< Processing procedure of monitoring server >>
FIG. 14 is a flowchart illustrating a processing procedure of the monitoring server 240 according to the present embodiment. This flowchart is executed by the CPU that controls the operation of the monitoring server 240 using the RAM, and implements the functional components of the monitoring server 240 of FIG. The flowchart of FIG. 14 starts in response to an external access or an internal event occurrence in the monitoring server 240. Note that FIG. 12 does not show processing procedures related to other functions of the monitoring server 240.

  In step S1411, the monitoring server 240 determines whether or not a line failure notification has been received from the SIP server 230. If the line failure notification is not received from the SIP server 230, the monitoring server 240 determines whether or not the line failure notification is received from the base station 220 in step S1411.

  If the line failure notification is received from the SIP server 230, the monitoring server 240 stores the line failure notification in step S1413. Next, in step S1415, the monitoring server 240 determines whether a failure report on the same line is also received from the corresponding base station 220. If not, the process ends. On the other hand, if the line failure notification is received from the base station 220, the monitoring server 240 stores the line failure notification in step S1423. Next, in step S1425, the monitoring server 240 determines whether a failure report on the same line is also received from the corresponding SIP server 230. If not, the process ends.

  When the SIP server 230 and the base station 220 receive the same line failure notification, the monitoring server 240 determines in step S1431 that there is a line failure. Next, in step S <b> 1433, the monitoring server 240 acquires from the communication line DB 1205 another communication line to be switched to the failed line. In this example, a satellite communication line is acquired. In step S1435, the monitoring server 240 notifies the SIP server 230 and the base station 220 at both ends of the failed line of line switching. Note that the line switching notification to the SIP server 230 includes the base station number of the line destination or the information of the satellite communication line to be switched. Further, the line switching notification to the base station 220 includes satellite communication line information such as a wireless satellite station number.

<Functional configuration of base station>
FIG. 15 is a block diagram showing a functional configuration of the base station 220 according to the present embodiment.

  The base station 220 in FIG. 15 includes a SIP communication control unit 1501 that controls SIP communication with a subordinate terminal (a terminal in the case of wireless communication) 210. The INVITE detection unit 1502 detects an “INVITE” signal from the terminal 210. The OK signal transmission unit 1503 transmits a “200 OK” signal to the corresponding terminal 210 in response to the INVITE detection. In response to the INVITE detection, the INVITE transmission unit 1504 transmits an “INVITE” signal to the SIP server 230 in the case of a normal line, and sends an “INVITE” signal to the radio satellite station 250 in the case of a wireless communication line. Send. The SIP communication control unit 1505 controls SIP communication with the SIP server 230 and the wireless satellite station 250.

  The OK signal receiving unit 1506 receives a “200 OK” signal responding to the “INVITE” signal from the SIP server 230 or the wireless satellite station 250. The line failure determination unit 1507 determines that there is a line failure when the “200 OK” signal is not received by the OK signal reception unit 1506 even after a predetermined time has elapsed. Actually, it is assumed that a line failure occurs when there is no response even if transmission of the “INVITE” signal is repeated several times. When the line failure determination unit 1507 determines that a line failure has occurred, the line failure notification unit 1508 notifies the monitoring server 240 accordingly. The communication control unit 1509 controls communication with the monitoring server 240. Note that the communication protocol of the communication control unit 1509 is not particularly limited as long as it matches the communication partner.

  The line switching instruction receiving unit 1510 receives a line switching instruction to the satellite communication line from the monitoring server 240 via the communication control unit 1509. The line switching instruction information may include a connection destination on the switched line, in this example, the number of the wireless satellite station 250 or the path information of the satellite communication circuit. The information of the wireless satellite station 250, which is the connection destination for line switching, received by the line switching instruction receiving unit 1510 is sent to the INVITE transmission unit 1504, and receives the "INVITE" signal from the subordinate terminal 210 to receive the wireless satellite station An “INVITE” signal is transmitted to 250.

  The ACK signal transfer unit 1511 transfers the “ACK” signal when the connection of all communication paths with the communication partner terminal is confirmed to the terminal 210 that originated the call. The data transmission / reception unit 1512 performs data transmission / reception using a line for which connection of all communication paths is confirmed.

(Line switching table)
FIG. 16 is a diagram showing the configuration of the line switching table 1600 according to this embodiment. The line switching table 1600 is a table used by the line failure determination unit 1507, the line switching instruction reception unit 1510, and the like.

  The line switching table 1600 is associated with the SIP server address 1601 for line connection, and a line failure notification 1603 to be notified to the monitoring server 240 when a connection error 1602 and a connection error exceeding a predetermined threshold within a predetermined time occur. And memorize. Further, the line switching table 1600 stores the number of the satellite communication line, at least the wireless satellite station 250 in this example, as the switching communication line 1604.

《Base station processing procedure》
FIG. 17 is a flowchart showing a processing procedure of the base station 220 according to this embodiment. This flowchart is executed by the CPU that controls the operation of the base station 220 using the RAM, and implements the functional components of the base station 220 in FIG. The flowchart of FIG. 17 starts in response to external access or internal event occurrence at the base station 220. Note that FIG. 17 does not show processing procedures related to other functions of the base station 220.

  In step S1711, the base station 220 determines whether or not a call is received from the subordinate terminal 210. If it is not reception of the call of the terminal 210, the base station 220 will determine whether it is reception of the line switch instruction | indication from the monitoring server 240 in step S1731.

  If it is reception of the call of the terminal 210, the base station 220 will determine whether line switching is set in step S1713. If there is no setting for line switching, the base station 220 transmits an “INVITE” signal to the SIP server 230 in step S1715. Then, in step S1717, the base station 220 waits for a “200 OK” signal response from the SIP server 230. If a “200 OK” signal is returned, communication is continued.

  In step S1719, the base station 220 determines a timeout without a “200 OK” signal response. If timeout occurs, the base station 220 counts up line connection errors in step S1721. Next, in step S1723, the base station 220 determines whether or not the number of connection errors exceeds a threshold value Th. If the number of connection errors exceeds the threshold Th, the base station 220 notifies the monitoring server 240 of a line failure in step S1725.

  If it is determined in step S1713 that there is no setting for line switching, the base station 220 transmits an “INVITE” signal to the wireless satellite station 250 in step S1727.

  If the line switching instruction is received from the monitoring server 240, the base station 220 sets line switching in step S1733. In this example, the line connection to the SIP server 230 is switched to the wireless satellite station 250 and connected to the SIP server 230 via the satellite communication line.

  According to the present embodiment, it is possible to switch to efficient satellite communication by accurately grasping the failure of the communication line by double monitoring by the SIP server and the monitoring server.

  For example, it is possible to automatically recognize a disconnected terminal and switch it in a short time. That is, it is possible to provide a certain amount of substitute equipment for important equipment such as a base station, but it is difficult to take measures against all equipment including telephone lines and network lines. In the unlikely event that a place that cannot be accessed is cut off, it cannot be repaired and the service can be stopped for a long time. However, it is difficult to keep using a network via satellite communication from the viewpoint of cost and quality. Therefore, it is possible to satisfy both requirements by automatically recognizing a line failure on the server side and switching satellite communications.

[Third Embodiment]
Next, a communication network system including a monitoring server as a communication processing apparatus according to the third embodiment of the present invention will be described. Compared with the second embodiment, the monitoring server according to the present embodiment not only notifies the line failure of the SIP server or the base station, but also indicates information indicating the possibility of failure or information indicating a communication line switching instruction. Is different in that the information is taken into consideration. Since other configurations and operations are the same as those of the second embodiment, the same configurations and operations are denoted by the same reference numerals, and detailed description thereof is omitted.

(Line failure judgment table)
FIG. 18 is a diagram showing the configuration of the line failure determination table 1800 according to this embodiment. The line failure determination table 1800 is used by the line failure determination unit 1204 in FIG. 12 to determine a specific line failure based on the line failure information from the SIP server 230 and the base station 220.

  The line failure determination table 1800 stores, in addition to the line failure determination table 1204a of FIG. 13A, an information notification 1814 from a SIP server that is not limited to a line failure and an information notification 1815 from a base station that is not limited to a line failure. . Then, both of these information notifications 1814 and 1815 are combined to store a line change condition 1816 for determining a line failure and changing the line.

  On the other hand, the line failure determination table 1800 stores a line change request 1817 from an SIP server or a base station that is not limited to a line state such as a line failure. For example, when there is a request from the user to use the terminal more stably than speed and cost, or when the line is temporarily stopped due to periodic inspection or update of the line hardware or software, the line change is performed. Request.

  The line failure determination table 1800 stores a line change determination result 1818 determined by the monitoring server 240 based on these pieces of information.

  According to the present embodiment, it is possible to meet various needs according to the user's request by changing the condition of the monitoring server as the monitoring NG. For example, it can be used when the line needs to be temporarily switched, although the line is not disconnected.

[Other Embodiments]
In the above embodiment, a configuration has been described in which the SIP server and the base station each determine a line failure and notify the monitoring server, but the present invention is not limited to the above configuration. For example, the SIP server or the base station may report communication results to the monitoring server sequentially, and the monitoring server may determine a line failure from the history of the communication results.

  Although the present invention has been described with reference to the embodiments, the present invention is not limited to the above embodiments. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention. In addition, a system or an apparatus in which different features included in each embodiment are combined in any way is also included in the scope of the present invention.

  In addition, the present invention may be applied to a system composed of a plurality of devices, or may be applied to a single device. Furthermore, the present invention can also be applied to a case where an information processing program that implements the functions of the embodiments is supplied directly or remotely to a system or apparatus. Therefore, in order to realize the functions of the present invention on a computer, a control program installed in the computer, a medium storing the control program, and a WWW (World Wide Web) server that downloads the control program are also included in the scope of the present invention. include. In particular, at least a non-transitory computer readable medium storing a control program that causes a computer to execute the processing steps included in the above-described embodiments is included in the scope of the present invention.

[Other expressions of embodiment]
A part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.
(Appendix 1)
First failure information receiving means for receiving detected first failure information of the first communication line from the first communication device on one side of the first communication line;
Second failure information receiving means for receiving the detected second failure information of the first communication line from the second communication device on the other side of the first communication line;
A failure occurrence determination means for determining that a failure has occurred in the first communication line based on the first failure information and the second failure information;
When it is determined that a failure has occurred in the first communication line, the first communication apparatus and the second communication apparatus are instructed to switch from the first communication line to a second communication line including satellite communication. A line switching instruction means;
A communication processing apparatus comprising:
(Appendix 2)
The first communication line is a communication line between a SIP server and a first base station in an IP network, the first communication device is the SIP server, and the second communication device is the base station;
The first failure information receiving means receives the first failure information of the first communication line detected by the SIP server from the SIP server,
The second failure information receiving means receives the second failure information of the first communication line detected by the first base station from the first base station;
The communication processing device according to attachment 1.
(Appendix 3)
The second communication line includes a second base station connected to the SIP server, a second wireless satellite station connecting the second base station and a satellite, and a second base station connecting the satellite and the first base station. The communication processing apparatus according to appendix 2, which is a communication line passing through one radio satellite station.
(Appendix 4)
The line switching instructing unit is configured to cause the first communication apparatus to change the connection from the first communication apparatus to the second communication apparatus via the first communication line to the connection to the second communication line. Set and set in the second communication device such that the connection from the second communication device to the first communication device via the first communication line is changed to the connection to the second communication line. The communication processing apparatus according to any one of 1 to 3.
(Appendix 5)
The communication processing apparatus according to any one of appendices 1 to 4, wherein the line switching instruction unit further notifies the communication path of the second communication line to the first communication apparatus and the second communication apparatus.
(Appendix 6)
At least one of the first failure information and the second failure information includes information indicating a possibility of a failure or information indicating a communication line switching instruction,
Whether the failure occurrence determination means further switches the first communication line to the second communication line including satellite communication in consideration of the information indicating the possibility of the failure or the information indicating the switching instruction of the communication line. 6. The communication processing apparatus according to any one of appendices 1 to 5, which determines whether or not.
(Appendix 7)
A first failure information receiving step of receiving detected first failure information of the first communication line from a first communication device on one side of the first communication line;
A second failure information receiving step of receiving the detected second failure information of the first communication line from the second communication device on the other side of the first communication line;
A failure occurrence determination step for determining that a failure has occurred in the first communication line based on the first failure information and the second failure information;
When it is determined that a failure has occurred in the first communication line, the first communication apparatus and the second communication apparatus are instructed to switch from the first communication line to a second communication line including satellite communication. A line switching instruction step;
A method for controlling a communication processing apparatus including:
(Appendix 8)
A first failure information receiving step of receiving detected first failure information of the first communication line from a first communication device on one side of the first communication line;
A second failure information receiving step of receiving the detected second failure information of the first communication line from the second communication device on the other side of the first communication line;
A failure occurrence determination step for determining that a failure has occurred in the first communication line based on the first failure information and the second failure information;
When it is determined that a failure has occurred in the first communication line, the first communication apparatus and the second communication apparatus are instructed to switch from the first communication line to a second communication line including satellite communication. A line switching instruction step;
A control program for a communication processing apparatus for causing a computer to execute the above.
(Appendix 9)
An IP network including a first communication line between the SIP server and the base station;
A satellite network including a second communication line including satellite radio;
First failure determination means for determining failure of the first communication line by the SIP server;
Second failure determination means for determining failure of the first communication line by the base station;
When it is determined by the SIP server and the base station that the first communication line is out of order, the first communication line is switched to the second communication line, and the space between the SIP server and the base station is changed. A communication line switching means for connecting via the second communication line;
A communication network system comprising:
(Appendix 10)
A communication network switching method comprising: an IP network including a first communication line between a SIP server and a base station; and a satellite network including a second communication line including satellite radio,
A first failure determination step in which the SIP server determines a failure of the first communication line;
A second failure determination step in which the base station determines a failure of the first communication line;
When it is determined by the SIP server and the base station that the first communication line is out of order, the first communication line is switched to the second communication line, and the space between the SIP server and the base station is changed. A communication line switching step for connecting via the second communication line;
A communication network switching method comprising:

Claims (10)

First failure information receiving means for receiving detected first failure information of the first communication line from the first communication device on one side of the first communication line;
Second failure information receiving means for receiving the detected second failure information of the first communication line from the second communication device on the other side of the first communication line;
A failure occurrence determination means for determining that a failure has occurred in the first communication line based on the first failure information and the second failure information;
When it is determined that a failure has occurred in the first communication line, the first communication apparatus and the second communication apparatus are instructed to switch from the first communication line to a second communication line including satellite communication. A line switching instruction means;
A communication processing apparatus comprising: The first communication line is a communication line between a SIP server and a first base station in an IP network, the first communication device is the SIP server, and the second communication device is the base station;
The first failure information receiving means receives the first failure information of the first communication line detected by the SIP server from the SIP server,
The second failure information receiving means receives the second failure information of the first communication line detected by the first base station from the first base station;
The communication processing apparatus according to claim 1.   The second communication line includes a second base station connected to the SIP server, a second wireless satellite station connecting the second base station and a satellite, and a second base station connecting the satellite and the first base station. The communication processing device according to claim 2, wherein the communication processing device is a communication line passing through one radio satellite station.   The line switching instructing unit is configured to cause the first communication apparatus to change the connection from the first communication apparatus to the second communication apparatus via the first communication line to the connection to the second communication line. And setting the second communication device to change the connection from the second communication device to the first communication device via the first communication line to the connection to the second communication line. Item 4. The communication processing device according to any one of Items 1 to 3.   5. The communication processing apparatus according to claim 1, wherein the line switching instruction unit further notifies a communication path of the second communication line to the first communication apparatus and the second communication apparatus. At least one of the first failure information and the second failure information includes information indicating a possibility of a failure or information indicating a communication line switching instruction,
Whether the failure occurrence determination means further switches the first communication line to the second communication line including satellite communication in consideration of the information indicating the possibility of the failure or the information indicating the switching instruction of the communication line. The communication processing apparatus according to claim 1, which determines whether or not. A first failure information receiving step of receiving detected first failure information of the first communication line from a first communication device on one side of the first communication line;
A second failure information receiving step of receiving the detected second failure information of the first communication line from the second communication device on the other side of the first communication line;
A failure occurrence determination step for determining that a failure has occurred in the first communication line based on the first failure information and the second failure information;
When it is determined that a failure has occurred in the first communication line, the first communication apparatus and the second communication apparatus are instructed to switch from the first communication line to a second communication line including satellite communication. A line switching instruction step;
A method for controlling a communication processing apparatus including: A first failure information receiving step of receiving detected first failure information of the first communication line from a first communication device on one side of the first communication line;
A second failure information receiving step of receiving the detected second failure information of the first communication line from the second communication device on the other side of the first communication line;
A failure occurrence determination step for determining that a failure has occurred in the first communication line based on the first failure information and the second failure information;
When it is determined that a failure has occurred in the first communication line, the first communication apparatus and the second communication apparatus are instructed to switch from the first communication line to a second communication line including satellite communication. A line switching instruction step;
A control program for a communication processing apparatus for causing a computer to execute the above. An IP network including a first communication line between the SIP server and the base station;
A satellite network including a second communication line including satellite radio;
First failure determination means for determining failure of the first communication line by the SIP server;
Second failure determination means for determining failure of the first communication line by the base station;
When it is determined by the SIP server and the base station that the first communication line is out of order, the first communication line is switched to the second communication line, and the space between the SIP server and the base station is changed. A communication line switching means for connecting via the second communication line;
A communication network system comprising: A communication network switching method comprising: an IP network including a first communication line between a SIP server and a base station; and a satellite network including a second communication line including satellite radio,
A first failure determination step in which the SIP server determines a failure of the first communication line;
A second failure determination step in which the base station determines a failure of the first communication line;
When it is determined by the SIP server and the base station that the first communication line is out of order, the first communication line is switched to the second communication line, and the space between the SIP server and the base station is changed. A communication line switching step for connecting via the second communication line;
A communication network switching method comprising:

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