JP5120805B2 - IP-PBX system - Google Patents

Description

  The present invention relates to IP-PBX systems, and more particularly to IP intra-station trunk selection in IP networks.

  In recent years, in an IP-PBX system having a private branch exchange (IP-PBX) that can be connected to an IP network, trunks used in a station have been widely used. Such trunks (hereinafter referred to as “IP intra-station trunks”) are, for example, three-party conference trunks, external hold trunks, outgoing call registers, incoming call registers, and are accommodated in one IP-PBX and span multiple bases. Can be used by existing IP terminals.

  FIG. 6 shows a conventional IP-PBX system of this type (not related to a known document), a base A accommodating the IP-PBX 4, the IP terminal 10 and the IP intra-station trunk 11, and the IP terminal 20 And a base B that houses the IP station trunk 21, a base C that houses the IP terminal 30 and the IP station trunk 31, and a base D that houses the IP terminal 40 and the IP station trunk 41 3 is connected. Here, the intra-IP station trunks 11 to 41 are trunks having the same function. The IP-PBX 4, the IP terminals 10, 20, 30, 40 and the IP intra-station trunks 11, 21, 31, 41 are connected to the IP network 3. When an IP terminal 10, 20, 30, 40 performs an operation such as a three-party conference or hold, an IP intra-station trunk corresponding to each service is captured.

  In such a case, a table in which a trunk number assigned to a plurality of message trunks and state information indicating whether they are used / not used are associated with each other and associated with each base number or common to the bases. With reference to the above, a technique is known in which unused trunks are extracted and assigned to the call path of the call request source (see, for example, Patent Document 1).

  In addition, when an IP trunk is used for outgoing calls from a telephone, if the IP trunk is not usable, it operates so as to detour to another communication network such as a PSTN network. Therefore, the trunk number is associated with the detour trunk. A technique in which other data is previously registered in a database by a system administrator is also known (see, for example, Patent Document 2).

  In addition, a route selection method reflecting weighting between two points is disclosed, characterized in that a weighting value table is set in a selection route in a network, and a set combination that minimizes the calculated value of the weighting value is searched. (For example, see Patent Document 3). Here, the priority value (network quality such as traffic processing capacity and delay, error rate, etc.) that will be the basis of the weighting value is input.

Japanese Patent Laying-Open No. 2006-157776 (pages 5 to 6, FIGS. 5 and 7) Japanese Patent Laying-Open No. 2005-123730 (page 4 to page 5, FIG. 2) Japanese Patent Laid-Open No. 2001-292161 (page 3 to page 5, FIG. 4)

  However, in the technique shown in FIG. 6, the IP intra-station trunks 11, 21, 31, and 41 are intra-station trunks having the same function, but when the IP terminal 10 seizes this trunk, the result of performing a busy check of the trunk Even if there is a vacancy, depending on the call status, the IP intra-station trunk 11 near the IP terminal 10 is not necessarily captured, and any of the intra-IP station trunks 21, 31, 41 may be captured. In this case, there is a problem that the distance between the IP terminal 10 and the IP station trunks 21, 31, 41 and the like causes delay and noise, and a load is generated on the IP network 3.

  An object of the present invention is to provide an IP-PBX system capable of selecting an optimum intra-station trunk in an environment where IP intra-station trunks having the same function accommodated in one IP-PBX exist in a plurality of bases. is there.

  Note that the above-mentioned Patent Document 1 enables the content of voice guidance to be serviced for each call request to be different depending on the base of the call request destination, and the intra-station trunk having the same function exists at different bases. Is not described, and is therefore unrelated to the above problems.

  In addition, the above-mentioned Patent Document 2 describes the detour in the case of outgoing call of the outside trunk, and does not relate to the detour route at the time of connection to the intra-station trunk regardless of outgoing / incoming call as in the present invention. This is unrelated to the above-mentioned problems.

  Further, in Patent Document 3 described above, since weighting is performed by a route between two points, it is not possible to deal with a three-party conference trunk as in the present invention.

  In the IP-PBX system of the present invention, a plurality of bases (A, B, C, D in FIG. 1) accommodated in one IP-PBX (1 in FIG. 1) are connected by an IP network (3 in FIG. 1). In the IP-PBX system, each base is composed of an IP terminal (10, 20, 30, 40 in FIG. 1) and an IP intra-station trunk (11, 12, 21, 22, 31, 31, 32, 41, 42 in FIG. 1). ) And a storage device (2 in FIG. 1) connected to the IP-PBX, a base number identification table (FIG. 2) indicating correspondence between the IP terminal and the base number, and any IP terminal trunk A selection table (FIGS. 4 and 5) showing information for indicating whether or not to be used preferentially for each base number is stored, and the preferential use is determined based on the bandwidth and delay of the IP network, When a terminal performs a service for capturing an intra-station trunk, refer to the base number identification table and the selection table. The IP station trunk is selected from the combination of the base numbers of the IP terminals, and is connected to the IP station trunk existing at the selected base.

  More specifically, the selection table is a detour base selection table (FIG. 3) indicating a detour base destination when the intra-station trunk of each base is in use. Further, the storage device stores an intra-station trunk selection table (FIG. 2) that indicates which of the same-type intra-station trunks in the base is to be used preferentially for each base number. This intra-station trunk is, for example, an external reserved trunk and a talk device that are selectively used.

  Further, the intra-station trunk is a conference trunk, and the selection table gives priority to the terminal base number indicating the base to which the IP terminal using the conference trunk belongs for each conference trunk base number indicating the base to which the conference trunk belongs. In the conference trunk selection table (FIG. 5), when performing a service in which a plurality of IP terminals capture a conference trunk, for each conference trunk site number, for each terminal site number obtained from the site number identification table, The priority is obtained from the conference trunk selection table, the priorities are summed for the conference trunks of each conference trunk base number, and the conference trunk having the highest value is captured.

  According to the present invention, an IP intra-station trunk accommodated in one IP-PBX is present in an environment where a plurality of bases exist, and which IP intra-station trunk is preferentially used depends on the bandwidth of the IP network. In addition, since it is determined based on the delay, an optimum intra-station trunk can be selected.

  Next, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a network diagram showing a mode for carrying out the present invention. As shown in FIG. 1, this network configuration includes an IP-PBX 1 having a storage device 2, an IP terminal 10, and two IP intra-station trunks (hereinafter referred to as “intra-station trunks”) 11 and 12. The base B that houses the IP terminal 20 and the two intra-station trunks 21 and 22, the base C that accommodates the IP terminal 30 and the two intra-station trunks 31 and 32, the IP terminal 40 and the two intra-station trunks 41 and 42 Is connected via the IP network 3. The IP-PBX 1, the IP terminals 10, 20, 30, 40 and the intra-station trunks 11, 12, 21, 22, 31, 32, 41, 42 are connected to the IP network 3.

  Now, a case where an external reserved trunk or a talk device is used as the intra-station trunk will be described. The intra-station trunk X1 (X = 1 to 4) is an external reserved trunk, and the intra-station trunk X2 is a talk device. An external hold trunk is a device that emits a hold sound to be heard by the other party when an extension is put on hold, and a toy device is a device that listens to music and voice guidance instead of a busy tone when busy. , Selectively used.

  The storage device 2 stores a base number identification table, an intra-station trunk selection table, and a detour base selection table. FIG. 2 is a diagram showing the configuration of the base number identification table, and shows the number of the base to which it belongs for each IP terminal. It can be seen that the base numbers of the bases A, B, C, and D are 001, 002, 003, and 004, respectively.

  FIG. 3 is a diagram showing the configuration of the intra-station trunk selection table, and shows intra-station trunks that are used preferentially for each site. For example, the base A having the base number 001 indicates that the intra-station trunk 11 is preferentially used instead of the intra-station trunk 12. This means that in the above example, the external reserved trunk has priority over the talkie device. This preferential use is specified by the user.

  FIG. 4 is a diagram showing the configuration of the detour base selection table, showing the detour base correspondence when the intra-station trunk of the base is busy. For example, in the base B of the base number 002, when the intra-station trunk of the base B is busy, first, detour to the base A of the base number 001. If the intra-station trunk is busy even at the base C, the base station D bypasses the base number 004. The detouring order is determined from the bandwidth of the IP network 3 and the delay.

Pattern 1 (when the IP terminal 10 operates and the intra-station trunk 11 is empty)
When the IP terminal 10 at the site A captures the intra-station trunk, it can be seen from the site number identification table (FIG. 2) that the IP terminal 10 exists at the site A. Next, the intra-station trunk used preferentially is read from the intra-station trunk selection table (FIG. 3), and the intra-station trunk 11 is preferentially selected at the site A. When a busy busy check is performed for this intra-station trunk 11, since the intra-station trunk 11 is empty in this pattern 1, the IP terminal 10 captures the intra-station trunk 11.

Pattern 2 (when the IP terminal 20 operates, the intra-station trunk 21 is busy, and the intra-station trunk 11 is empty)
When the IP terminal 20 seizes the intra-station trunk, it can be seen from the base number identification table that the IP terminal 20 exists at the base B. From the intra-station trunk selection table, the base station 21 preferentially uses the intra-station trunk 21. When a busy busy check is performed on the intra-station trunk 21, it is determined that the pattern 2 is busy.

  Next, when the base B reads the next available base number from the detour base selection table, it is determined that the base B can next use the intra-station trunk of the base A. Thereafter, the intra-station trunk that can be preferentially used at the site A is read from the priority trunk selection table, and it can be seen that the intra-station trunk 11 can be used. Thereafter, a busy busy check is performed, and in this pattern 2, since the intra-station trunk 11 is free, the IP terminal 20 captures the intra-station trunk 11.

Pattern 3 (when the IP terminal 30 operates, the intra-station trunks 31 and 41 are busy, and the intra-station trunk 21 is empty)
When the IP terminal 30 captures the intra-station trunk, it can be seen from the base number identification table that the IP terminal 30 exists at the base C. In the case of the base C from the intra-station trunk selection memory, the intra-station trunk 31 is preferentially used. When a busy busy check is performed on the intra-station trunk 31, it is determined that the pattern 3 is busy. Next, when the base number that can be used next by the base C is read from the detour base selection table, it is determined that the intra-station trunk of the base D can be used.

  Thereafter, the intra-station trunk that can be used at the site D is read from the intra-station trunk selection table, and it can be seen that the intra-station trunk 41 can be used preferentially. Thereafter, when a busy busy check is performed, in this pattern 3, it is determined that the intra-station I trunk 41 is busy. Next, when the base number that can be used next by the base C is read from the detour base table, it is determined that the intra-station trunk of the base B can be used. Thereafter, when the intra-station trunk that can be preferentially used at the site B is read from the intra-station trunk selection table, it can be seen that the intra-station trunk 21 can be preferentially used. Thereafter, a busy busy check is performed, and in this pattern 3, since the intra-station trunk 21 is free, the IP terminal 30 captures the intra-station trunk 21.

  In this way, when the intra-station trunk is busy, detouring is performed according to the detour base selection table and the optimum trunk is captured.

  Next, a case where a conference trunk is used as the intra-station trunk will be described. Hereinafter, the case of a three-party conference will be described, but the present invention is not limited to a three-party conference. In this case, the base number identification table (FIG. 2) and the conference trunk selection table (FIG. 5) are stored in the storage device 2. As shown in FIG. 5, the conference trunk selection table lists the priority of the site to which the IP terminal using the conference trunk belongs for each site to which the conference trunk belongs.

  Referring to FIG. 5, for example, if an IP terminal using a conference trunk belonging to the base number 001 belongs to the bases 001, 002, 003, and 004, the priorities are 0.5, 0.25, 0.25, and 0.15, respectively. Here, the priority is a reference value for determining the order in which intra-station trunks are captured, and an optimum value is assigned in advance from the bandwidth, delay, etc. of the IP network 3.

  When conducting a three-party conference, first, the base number to which the IP terminal belongs is determined from the base number identification table. Next, the priority for each IP terminal that captures the conference trunk belonging to each base is obtained from the conference trunk selection table. Then, the priorities of the conference trunks belonging to the respective bases are summed up, and it is determined that the conference trunk having the highest value has the best call quality among these three parties, and this conference trunk is captured.

Pattern 1 (when terminals at bases A, B, and C hold a three-party conference)
When the IP terminals 10, 20, and 30 hold a three-party conference, the base number to which the IP terminal 10 belongs is 001, the base number to which the IP terminal 20 belongs is 002, and the base number to which the IP terminal 30 belongs is 003 from the base number identification table. I understand that there is. In the pattern 1, when using the conference trunk belonging to the site number 001, the priority is 0.5 when the IP terminal belongs to the site A, 0.25 when the IP terminal belongs to the site B, and when the IP terminal belongs to the site C. In total, the priority of the three-party conference trunk with the base number 001 is 1.0. When the priority of each base is obtained by the same method, since the base number 002 is 0.9, the base number 003 is 0.75, and the base number 004 is 0.35, the conference trunk belonging to the base A is selected and captured as an intra-IP station trunk.

Pattern 2 (when terminals at locations B, C, and D hold a three-party conference, provided that intra-station trunk 21 is busy and trunk 41 is empty)
When the IP terminals 20, 30, and 40 hold a three-party conference, it can be seen from the base number identification table that the IP terminal 20 belongs to the base B, the IP terminal 30 belongs to the base C, and the IP terminal 40 belongs to the base D. Next, the priority for capturing the conference trunk at each site is obtained from the conference trunk selection table. In this pattern, since the base A is 0.65, the base B is 0.9, the base C is 0.7, and the base D is 0.75, the conference trunk of the base B is first selected as the conference trunk. However, when a busy check is performed on the conference trunk 21, it is determined that the call is busy, so the next highest priority is selected. In this case, the conference trunk 41 at the site D is selected and captured because it has the next highest priority and is empty.

  Note that the priority order when the conference trunk is busy may be determined separately in a separate table. The priority of the conference trunk selection table may be changed in real time according to time or the like.

IP network diagram showing an embodiment for carrying out the present invention Configuration of base number identification table Configuration diagram of intra-station trunk selection table Configuration diagram of detour base selection table Configuration diagram of conference trunk selection table Conventional IP network diagram

Explanation of symbols

1,4 IP-PBX
2 Storage device 3 IP network
10, 20, 30, 40 IP terminal
11,12,21,22,31,32,41,42 Intra-station trunk

Claims (5)

In an IP-PBX system in which a plurality of bases accommodated in one IP-PBX are connected by an IP network,
Each base includes an IP terminal and an IP intra-station trunk having the same function,
In order to indicate to the storage device connected to the IP-PBX, a base number identification table indicating the correspondence between the IP terminal and the base number, and which IP intra-station trunk should be preferentially used by the IP terminal A selection table showing the information for each base number,
The preferential use is determined based on the bandwidth and delay of the IP network, and when the IP terminal performs a service for capturing the IP intra-station trunk, refer to the base number identification table and the selection table. An IPPBX system, wherein an IP intra-station trunk is selected from a combination of base numbers of the IP terminal and connected to an IP intra-station trunk existing at the selected base. 2. The IP-PBX system according to claim 1, wherein the selection table includes a detour base selection table indicating a detour base destination when an IP intra-station trunk at each base is in use. The storage device stores a same-type intra-station trunk selection table indicating, for each base number, which one of the same-type IP intra-station trunks in a base is to be used preferentially. IP-PBX system. 4. The IP-PBX system according to claim 3, wherein the same kind of IP intra-station trunk is an external reserved trunk and a talk device that are selectively used. The IP intra-station trunk is a conference trunk, and the selection table sets a priority for a terminal base number indicating a base to which the IP terminal using the conference trunk belongs for each conference trunk base number indicating the base to which the conference trunk belongs. A conference trunk selection table,
When a plurality of the IP terminals perform a service for capturing the conference trunk, for each conference trunk base number, for each terminal base number of each IP terminal that uses the conference trunk, the priority from the conference trunk selection table 2. The IP-PBX system according to claim 1, further comprising: summing up the priorities of the conference trunks of each conference trunk site number, and capturing the conference trunk having the highest conference trunk site number.

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