JP4764894B2 - Call control device, call control method, and call control program - Google Patents

Description

  The present invention relates to a call control device, a call control method, and a call control program.

  2. Description of the Related Art Conventionally, a call control device that controls a call signal (call) has a signal processing control card on which a plurality of signal processing units (DSP, Digital Signal Processor) are mounted, and each of the signal processing units includes a plurality of call processing units. Were processed in parallel. Here, in the conventional call control device, when a failure occurs in a certain signal processing unit, the signal processing control card having the signal processing unit is set as an exchange target.

  In Patent Document 1 (Japanese Patent Laid-Open No. 2003-32285), each signal processing control card has a spare signal processing unit that operates when a failure occurs in the signal processing unit mounted on the signal processing control card. The method is disclosed.

JP 2003-32285 A (page 1-5, FIG. 1)

  By the way, the above-described conventional technique has a problem that when a failure occurs in the signal processing unit, it is not possible to reduce calls that are affected by the failure.

  For example, in a conventional call control device, all calls processed by a signal processing control card having a signal processing unit in which a failure has occurred are temporarily disconnected and temporarily excluded from service. In the conventional call control device, all calls once disconnected are transferred to the signal processing control card (standby) included in the call control device for processing. As a result, when a failure occurs in a certain signal processing unit, all calls processed by the signal processing control card equipped with the signal processing unit are temporarily out of service.

  Even in the technique described in Patent Document 1, when a failure occurs again in the signal processing unit mounted on the signal processing control card after the operation of the spare signal processing unit is started, the signal processing is performed. All calls processed by the signal processing control card equipped with the unit were temporarily out of service.

  Therefore, the present invention has been made to solve the above-described problems of the prior art, and it is possible to reduce the number of calls that are not serviced when a failure occurs in the signal processing unit. It is an object to provide a call control device, a call control method, and a call control program.

  In order to solve the above-described problems and achieve the object, this call control device is a call control device having a signal processing control unit equipped with a plurality of signal processing units capable of processing a plurality of call signals in parallel. A failure detection unit that detects that a failure has occurred in the signal processing unit mounted in the signal processing control unit; and when the failure detection unit detects the occurrence of a failure, the signal in which the occurrence of the failure is detected About the signal processing control unit mounting the fault signal processing unit which is a processing unit, the signal processing unit other than the fault signal processing unit mounted by the signal processing control unit is processed by the fault signal processing unit A call control device comprising a distribution means for distributing a call signal is required.

  According to the disclosed call control device, it is possible to reduce the number of calls that are not serviced when a failure occurs in the signal processing unit.

  Exemplary embodiments of a call control device, a call control method, and a call control program according to the present invention will be explained below in detail with reference to the accompanying drawings. Hereinafter, the outline and features of the call control device according to the first embodiment, the configuration of the call control device, and the flow of processing will be described in order, and then other embodiments will be described.

[Outline and features of call control device]
First, the outline and features of the call control apparatus according to the first embodiment will be described with reference to FIG. FIG. 1 is a diagram for explaining the outline and features of the call control device according to the first embodiment.

  As shown in the figure, the call control device according to the first embodiment includes a signal processing control card (provided with a plurality of signal processing units capable of processing a plurality of call signals (calls) in parallel). Corresponding to a “signal processing control unit”.

  For example, in the example illustrated in FIG. 1, the call control device according to the first embodiment includes an “MGW (Media Gate Way) device” having a plurality of signal processing control cards, and controls the “MGW device”. Has “soft”. Here, each of the plurality of signal processing control cards includes n signal processing units (for example, a DSP (Digital Signal Processor)) and a CPU that is a control unit that controls the signal processing unit.

  Then, as described below, the call control device according to the first embodiment can reduce the number of calls that are not serviced when a failure (failure) occurs in the signal processing unit. The point has the main feature.

  That is, the call control device according to the first embodiment detects that a failure has occurred in the signal processing unit mounted on the signal processing control card. For example, the call control apparatus according to the first embodiment detects that a failure has occurred in the signal processing unit “2” in the signal processing control card “1” as illustrated in (1) of FIG.

  When the call control device according to the first embodiment detects the occurrence of a failure, the call control device receives a call processed by a signal processing control card equipped with a failure signal processing unit that is a signal processing unit in which the occurrence of the failure is detected. To other signal processing units. Here, as shown in (2) of FIG. 1, the call control apparatus according to the first embodiment distributes calls to signal processing units other than the failure signal processing unit mounted on the signal processing control card.

  For example, in the example shown in (2) of FIG. 1, the call control device according to the first embodiment receives all calls processed by the signal processing unit “2” that is the failure occurrence signal processing unit as other signal processing units. Distributed (distributed processing). Explaining with a specific example, the call control device according to the first embodiment is provided with other signal processing units (for example, signal processing units “1”, “3” installed in the signal processing control card “1”). "..." n "etc.).

  For this reason, the call control apparatus according to the first embodiment can reduce the number of calls that are not serviced when a failure occurs in the signal processing unit, as described above. .

  More specifically, when a failure occurs in a certain signal processing unit, the signal processing control card having the signal processing unit becomes an exchange target. In addition, when a call is disconnected once and the disconnected call is processed (switched) by another signal processing unit, the service is temporarily interrupted when the call is temporarily disconnected. Will be out of service. Here, in the conventional call processing device, all the calls that have been processed by the signal processing control card having the signal processing unit in which the failure has occurred are temporarily disconnected, and the spare signal processing that the call processing device has all the calls that have been disconnected once The control card was processing.

  In other words, when a failure occurs in a certain signal processing unit, in a conventional call processing device, processing is performed not only by the call being processed by the signal processing unit in which the failure has occurred but also by a signal processing unit that is functioning normally. Calls that have been made are also temporarily disconnected. In the conventional call processing device, all the calls are processed by a spare signal processing control card included in the call processing device.

  As a result, in a conventional call processing device, when a failure occurs in a certain signal processing unit, a call processed by the signal processing unit in the signal processing control card on which the failure signal processing unit is mounted processes the call. Even if it is a fault signal processing unit or a signal processing unit functioning normally, the service is temporarily interrupted and excluded from service.

  Compared with such a conventional method, according to the call control device according to the first embodiment, when a failure occurs in a certain signal processing unit, only the call being processed by the failure signal processing unit is temporarily disconnected. To be processed by another signal processing unit. For this reason, according to the call control device according to the first embodiment, calls processed by other signal processing units (normally functioning signal processing units) in the signal processing control card equipped with the failure signal processing unit. It is possible to reduce the number of calls that are out of service without temporarily disconnecting the service.

  Note that the call control device according to the first embodiment is a signal processing control card (spare) that is a signal processing control card that starts operation when a failure occurs in the signal processing control card. Corresponding to the “signal processing control unit”. For example, as shown in (3) of FIG. 1, in the call control device according to the first embodiment, “soft” indicates that a failure has occurred in any of the signal processing control cards used as the active (ACT) device. ”. In the call control device according to the first embodiment, as shown in (4) of FIG. 1, “software” activates the signal processing control card (standby).

  Then, when the occurrence of a failure is detected, the call control device according to the first embodiment distributes a new call to be newly started after the detection to the signal processing control card (standby). As a result, the call control device according to the first embodiment can replace the signal processing control card equipped with the failure signal processing unit as soon as all calls processed when the failure is detected are completed. .

[Configuration of call control device]
Next, the configuration of the call control device shown in FIG. 1 will be described with reference to FIGS. Here, FIG. 2 is a block diagram for illustrating the configuration of the call control device according to the first embodiment. FIG. 3 is a diagram for explaining the software storage unit according to the first embodiment. FIG. 4 is a diagram for explaining a control card storage unit according to the first embodiment. FIG. 5 is a diagram for explaining the signal processing unit storage unit according to the first embodiment.

  As shown in FIG. 2, the call control apparatus includes software 100, a signal processing control card 200, and a signal processing control card (reserved) 200a. The signal processing control card 200 and the signal processing control card (reserve) 200aa have a plurality of signal processing units 300 (or a plurality of signal processing units 300a). In the following, first, the configuration of the software 100 will be described, the configuration of the signal processing control card 200 and the signal processing control card (reserve) 200a will be described, and then the configuration of the signal processing unit 300 will be described.

[Software configuration]
As shown in FIG. 2, the software 100 that distributes calls to the signal processing control card 200 and the signal processing control card (standby) 200 a includes a software storage unit 101 and a distribution control (software) unit 102. Further, the software 100 includes a fault distribution control (software) unit 103 inside the distribution control (software) unit 102. The distribution control (software) unit 102 and the failure distribution control (software) unit 103 correspond to “control means” described in the claims.

  The software storage unit 101 stores “physical link information” for all calls processed in the call control device according to the first embodiment. Note that the “physical link information” is information regarding a call, and corresponds to, for example, a call rate or information for identifying two connected terminals. The “physical link information” is information that is required when a call is once disconnected and then resumed.

  The software storage unit 101 stores information used by the distribution control (software) unit 102 and the fault distribution control (software) unit 103. In addition, the software storage unit 101 receives (or changes and deletes) information from the distribution control (software) unit 102 and the fault distribution control (software) unit 103.

  In the following, for convenience of explanation, as shown in FIG. 3, the software storage unit 101 associates a combination of “card identification information” and “resource ID” with “physical link information” and indicates a call rate “ In the following description, it is assumed that “rate” and “identification information” for identifying two connected terminals are stored. Here, the “card identification information” is information for identifying the signal processing control card 200 from other signal processing control cards 200. The “resource ID” is information for identifying a call. For example, it is given to each new call when the new call is distributed by the distribution control (software) unit 102 or the failure distribution control (software) unit 103. Information. For example, as illustrated in FIG. 3, the software storage unit 101 associates the combination of the card identification information “1” and the resource ID “1001” with “rate” and “identification information” as “physical link information”. Remember.

  The distribution control (software) unit 102 distributes the call controlled by the call control device to one of the signal processing control cards 200. Note that the call controlled by the call control device corresponds to, for example, a call for which a control request has been made to the call control device according to the first embodiment from an external device connected to the call control device.

  For example, the distribution control (software) unit 102 receives an instruction to process a new call and “physical link information” for the new call from an external device. Then, the distribution control (software) unit 102 selects the signal processing control card 200 that distributes the received new call. Then, the distribution control (software) unit 102 transmits an instruction to that effect to the selected signal processing control card 200 via the software IF unit 201.

  A specific example will be described. When the distribution control (software) unit 102 receives an instruction to process a new call and “physical link information” for the new call, the distribution control (software) unit 102 relates to the first embodiment. One of the plurality of signal processing control cards 200 included in the call control device is selected. For example, the distribution control (software) unit 102 determines the amount of resources currently used when processing a call for each signal processing control card 200 from the “physical link information” stored in the software storage unit 101. calculate. Then, the distribution control (software) unit 102 selects the signal processing control card 200 that uses the least amount of the resource amount among the calculated resource amounts.

  For example, the distribution control (software) unit 102 calculates that the resource amount is “100” for the signal processing control card “1”, and calculates that the resource amount is “200” for the signal processing control card “2”. A description will be given using this case. It is assumed that the resource amount calculated for the other signal processing control card 200 is “200” or more. Here, the distribution control (software) unit 102 selects the signal processing control card “1” as the signal processing control card 200 that distributes a new call.

  Further, the distribution control (software) unit 102 assigns a “resource ID” to the new call as information for identifying the new call. Then, the distribution control (software) unit 102 selects an instruction to process a new call, “physical link information”, and “resource ID” via the software IF unit 201, and the signal processing control card 200. To communicate. Further, the distribution control (software) unit 102 associates “resource ID” and “physical link information” transmitted to the signal processing control card 200 in association with “card identification information” indicating the selected signal processing control card 200. Are associated with each other and input to the software storage unit 101.

  For example, the distribution control (software) unit 102 will be described using a case where a resource ID “1001” is assigned to a new call and the new call is distributed to the signal processing control card “1”. Here, the distribution control (software) unit 102 sends an instruction to process a new call, “physical link information”, and resource ID “1001” via the software IF unit 201 to the signal processing control card “ 1 ”. Further, for example, the distribution control (software) unit 102 associates the “physical link information” with the resource ID “1001” in association with the card identification information “1” indicating the signal processing control card “1”. , Input to the software storage unit 101.

  Further, when the “resource ID” of the call for which processing has been completed is transmitted from the signal processing control card 200 (to be described later) via the soft IF unit 201, the distribution control (software) unit 102 transmits the corresponding information to the software. Delete from the storage unit 101. For example, the distribution control (software) unit 102 includes, as corresponding information, a “resource ID” transmitted from the signal processing control card 200 described later and “physical link information” associated with the “resource ID”. Are deleted from the software storage unit 101.

  An example of the difference between the distribution control (software) unit 102 and the failure distribution control (software) unit 103 described below will be briefly described. The distribution control (software) unit 102 performs processing when no failure is detected. For example, the distribution control (software) unit 102 is configured to detect a failure when a failure is not detected or when a failure detected after the failure is detected (for example, a signal having a failure signal processing unit mounted). When the processing control card is exchanged for a normal signal processing control card and a message to that effect is transmitted from the user who uses the call control device, processing is performed. On the other hand, the fault distribution control (software) unit 103 performs processing when a fault is detected. For example, the fault distribution control (software) unit 103 performs processing after the occurrence of a fault is transmitted from the signal processing unit 300 (a fault detection unit 303 described later) until the detected fault is resolved. It is.

  The description of the failure distribution control (software) unit 103 described below will be omitted or briefly described for the same description as the distribution control (software) unit 102.

  The fault distribution control (software) unit 103 starts the operation of the signal processing control card (standby) 200a when a fault is detected. For example, the failure distribution control (software) unit 103 is notified via the software IF unit 201 that a failure has been detected from the signal processing control card 200 (failure distribution control (card) unit 222 described later). Then, an instruction to start operation (ACT control) is transmitted to the signal processing control card (preliminary) 200a. The processing for starting the operation of the signal processing control card (reserved) 200a is performed in parallel with the distribution processing by the failure distribution control (card) unit 222 described later.

  In addition, when a fault is detected, the fault distribution control (software) unit 103 sends a new call to start processing after the detection to a signal other than the signal processing control card 200 equipped with the fault signal processing unit. Allocate (switch) to the processing control card 200. For example, a case where a failure has occurred in the signal processing control card “1” is transmitted to the failure distribution control (software) unit 103 will be described. The failure distribution control (software) unit 103 thereafter receives an instruction to process a new call and “physical link information” for the new call. Here, the fault distribution control (software) unit 103 selects a signal processing control card 200 other than the signal processing control card “1” as the signal processing control card 200 for distributing the received new call.

  Further, the failure distribution control (software) unit 103 performs alarm control (ALM control) when there is no call being processed by the signal processing control card 200 in which a failure is detected. The alarm control is notification that the signal processing control card 200 in which a failure is detected is a replacement target. For example, alarm control refers to “card identification information” indicating the signal processing control card 200 in which a failure has been detected for a user who uses the call control device according to the first embodiment, and is to be replaced because a failure has occurred. Applicable to convey that there is.

  For example, the fault distribution control (software) unit 103 soft-stores “resource ID” and “physical link information” associated with “card identification information” indicating the signal processing control card 200 in which the fault is detected. After deleting all from the unit 101, alarm control is performed. As described above, each of the association between the “resource ID” and “physical link information” stored in the software storage unit 101 has been processed for the call identified by the “resource ID”. In such a case, the distribution control (software) unit 102 or the failure distribution control (software) unit 103 deletes them.

[Configuration of signal processing control card and signal processing control card (spare)]
Next, the configuration of the signal processing control card 200 and the signal processing control card (standby) 200a will be described. In the following, the configuration of the signal processing control card 200 will be described first, and then the configuration of the signal processing control card (standby) 200a will be described.

  2, the signal processing control card 200 includes a soft IF (interface) unit 201, a signal processing unit IF (interface) unit 202, a control card storage unit 210, a control unit 220, and a plurality of signal processing. Part 300.

  The software IF unit 201 controls communication between the software 100 and the signal processing control card 200. Specifically, the software IF unit 201 transmits information transmitted from the software 100 to the control unit 220, and transmits information transmitted from the control unit 220 to the software 100. The signal processing unit IF unit 202 controls communication between the control unit 220 and the signal processing unit 300. Specifically, the signal processing unit IF unit 202 transmits information transmitted from the signal processing unit 300 to the control unit 220, and transmits information transmitted from the control unit 220 to the signal processing unit 300. For example, when an instruction for processing a new call and “physical link information” are transmitted from the software 100, the software IF unit 201 transmits the transmitted information to the control unit 220.

  In the first embodiment, for convenience of explanation, for example, “the software 100 transmits the information A to the software IF unit 201. Then, the software IF unit 201 transmits the information A to the control unit 220”. In such a case, a description such as “the software 100 transmits the information A to the control unit 220 via the software IF unit 201” is performed to simplify the expression.

  The control card storage unit 210 stores “physical link information” for all calls processed in the signal processing control card 200. Specifically, as shown in FIG. 4, the control card storage unit 210 sets “physical link information” for all of the plurality of signal processing units 300 mounted on the signal processing control card 200 having the control card storage unit 210. Remember.

  The control card storage unit 210 stores information used by the distribution control (card) unit 221 and the failure distribution control (card) unit 222. The control card storage unit 210 receives information transmitted from the software 100 by the distribution control (card) unit 221 and the distribution control (card) unit 222 at the time of failure. After that, the control card storage unit 210 changes (or deletes) the stored information by the distribution control (card) unit 221 and the failure distribution control (card) unit 222. is there.

  For example, in the example shown in FIG. 4, the control card storage unit 210 has “resource ID” and “physical link information” (“rate” and “rate” for each “signal processing unit identification information” indicating information for identifying the signal processing unit. The association with “identification information”) is stored. Further, the control card storage unit 210 stores “resource amount” indicating the amount of calls being processed for each “signal processing unit identification information”. To explain with a specific example, the control card storage unit 210 stores the association of the resource “1001”, “rate”, and “identification information” with the signal processing unit identification information “1”. . Further, the control card storage unit 210 stores the resource amount “40” in association with the signal processing unit identification information “1”. Further, the control card storage unit 210 stores the association between the resource “1202”, “rate”, and “identification information” in association with the signal processing unit identification information “2”, and stores the resource amount “43”. To do.

  The resource amount stored in the control card storage unit 210 is updated by the control unit 220 every time “physical link information” and “resource ID” are input, changed, or deleted. .

  The control unit 220 executes a distribution process. The control unit 220 includes a distribution control (card) unit 221 and a failure distribution control (card) unit 222, which are particularly closely related to the present invention. The distribution control (card) unit 221 corresponds to the “processing unit distribution unit” described in the claims. The fault distribution control (card) unit 222 corresponds to the “distribution means” described in the claims.

  The distribution control (card) unit 221 distributes the call distributed by the distribution control (software) unit 102 to one of the signal processing units 300 mounted on the signal processing control card 200 to which the call is distributed. For example, the distribution control (card) unit 221 receives an instruction to process a new call from the distribution control (software) unit 102 and the failure distribution control (software) unit 103 via the soft IF unit 201. , “Resource ID” and “physical link information” are received. Then, the distribution control (card) unit 221 selects one signal processing unit 300 among the signal processing units 300 mounted on the signal processing control card 200.

  To explain with a specific example, the distribution control (card) unit 221 reads the “resource amount” stored in the control card storage unit 210, and among the read resource amounts, the most used amount of the resource amount The signal processing unit 300 having a small number is selected.

  In addition, the distribution control (card) unit 221 includes an instruction to process a new call received from the distribution control (software) unit 102 or the failure distribution control (software) unit 103 via the soft IF unit 201. The “resource ID” and “physical link information” are transmitted to the selected signal processing unit 300. In addition, the distribution control (software) unit 102 is associated with “signal processing unit identification information” indicating the selected signal processing unit 300, and transmits “resource ID” and “physical link information” to the signal processing unit 300. Are input to the control card storage unit 210.

  In addition, the distribution control (card) unit 221 receives a signal indicating that the call has been terminated and a “resource ID” identifying the call from a signal processing unit 300 (a signal processing unit IF unit 202 described later). It is received via the processing unit IF unit 202. Then, the distribution control (card) unit 221 deletes the received “resource ID” and “physical link information” associated with the “resource ID” from the control card storage unit 210. Further, the distribution control (card) unit 221 transmits the transmitted information to the distribution control (software) unit 102 and the failure distribution control (software) unit 103 via the software IF unit 201.

  Further, the distribution control (card) unit 221 inputs “physical link information” and “resource ID” to the control card storage unit 210, or updates “resource amount” each time it is changed or deleted.

  An example of the difference between the distribution control (card) unit 221 and the failure distribution control (card) unit 222 described below will be briefly described. The distribution control (card) unit 221 performs processing when no failure is detected. For example, the distribution control (card) unit 221 determines that a failure has not been detected, or a failure detected after the failure has been detected (for example, a signal having a failure signal processing unit mounted). When the processing control card is exchanged for a normal signal processing control card and a message to that effect is transmitted from the user who uses the call control device, processing is performed. On the other hand, the fault distribution control (card) unit 222 performs processing when a fault is detected. For example, the fault distribution control (card) unit 222 performs processing until the detected fault is resolved after the occurrence of the fault is transmitted.

  The description of the failure distribution control (card) unit 222 described below is omitted or briefly described for the same description as the distribution control (card) unit 222.

  The failure distribution control (card) unit 222 executes a distribution process when the occurrence of a failure is detected. More specifically, the fault distribution control (card) unit 222 is configured so that the fact that a failure has occurred and information for uniquely identifying the signal processing unit 300 (for example, the signal processing unit “1”, etc.) Accepted from a failure detection unit 303 (to be described later) via the signal processing unit IF unit 202. Then, the fault distribution control (card) unit 222 sends a fault signal to the signal processing unit 300 other than the fault signal processing unit mounted on the signal processing control card 200 for the signal processing control card 200 mounted with the fault signal processing unit. The call being processed by the processing unit is distributed.

  For example, the signal processing control card has ten signal processing units (signal processing units “1” to “10”), the fault signal processing unit is the signal processing unit “1”, and the signal processing unit “1”. In the example, a case where 40 calls are processed will be described in detail. The fault distribution control (card) unit 222 selects the signal processing unit 300 to distribute from the signal processing units 300 other than the signal processing unit “1” for each of the 40 calls processed by the fault signal processing unit.

  Specifically, the failure distribution control (card) unit 222 provides information indicating that a failure has occurred in the signal processing unit “1” to the signal processing unit 300 (a failure detection unit 303 described later). ) Through the signal processing unit IF unit 202. Then, the fault distribution control (card) unit 222 selects the signal processing unit “2” as the signal processing unit 300 that distributes five calls out of the 40 calls processed by the fault signal processing unit. To do. Similarly, the fault distribution control (card) unit 222 selects the signal processing unit 300 that distributes the other 35 calls.

  In addition, the fault distribution control (card) unit 222 reads the “resource amount” from the control card storage unit 210 and reduces the difference in resource amount between the signal processing units 300 after distributing 40 calls. Alternatively, the signal processing unit 300 that distributes calls may be selected. Note that the method of selecting the signal processing unit 300 that distributes the call being processed by the failure signal processing unit is not limited to the above-described method. For example, the failure distribution control (card) unit 222 may determine the signal processing unit 300 that has a free resource amount and distribute the signal processing unit 300 that has determined that there is a free space.

  Further, the failure distribution control (card) unit 222 instructs the signal processing unit 300 selected as the signal processing unit 300 to distribute the call being processed by the failure signal processing unit, The “resource ID” and “physical link information” for the call are transmitted via the signal processing unit IF unit 202. Further, the failure distribution control (card) unit 222 controls “resource ID” and “physical link information” for the distributed call in association with “signal processing unit identification information” indicating the distributed signal processing unit 300. Input to the card storage unit 210. Further, the fault distribution control (card) unit 222 associates “resource ID” and “physical link information” stored in the control card storage unit 210 in association with “signal processing unit identification information” indicating the fault signal processing unit. ”Is deleted.

  In addition, the failure distribution control (card) unit 222 includes a signal processing unit 300 (to be described later), and information that uniquely identifies the signal processing unit 300 (for example, the signal processing unit “1”). When it is transmitted from the failure detection unit 303) via the signal processing unit IF unit 202, that fact is transmitted to the failure distribution control (software) unit 103 via the software IF unit 201. For example, when the failure distribution control (card) unit 222 receives information indicating that a failure has occurred in the signal processing unit “1”, the information indicating that a failure has occurred in the signal processing unit “1” This is transmitted to the fault distribution control (software) unit 103 via the soft IF unit 201.

  Further, the failure distribution control (card) unit 222, after the occurrence of the failure is transmitted, when the processing of all the calls processed in the signal processing control card 200 equipped with the failure signal processing unit is completed, The fact is transmitted to the fault distribution control (software) unit 103 via the soft IF unit 201. For example, the failure distribution control (card) unit 222 deletes all the “resource ID” and “physical link information” stored in the distribution control (card) unit 221 (processing of all calls). Is transmitted to the fault distribution control (software) unit 103 via the soft IF unit 201.

  Here, the process of distributing the call processed by the failure signal processing unit by the failure distribution control (card) unit 222 to the other signal processing unit 300 and the signal by the failure distribution control (software) unit 103 The activation process of the process control card (spare) 200a is executed in parallel.

  In addition, the failure distribution control (card) unit 222 distributes the call processed by the failure signal processing unit to the other signal processing unit 300. For the call processed by the other signal processing unit 300, The processing is continued until the processing is completed.

  Next, the configuration of the signal processing control card (standby) 200a will be described. Here, the signal processing control card (standby) 200a is a signal processing control card 200 that starts operation when a failure occurs in the signal processing control card 200. For example, the signal processing control card (standby) 200a starts operation when receiving an instruction (ACT control) to start operation from the fault distribution control (software) unit 103. Each unit of the signal processing control card (reserve) 200a has the same function as each unit of the signal processing control card 200.

[Configuration of signal processor]
Next, the configuration of the signal processing unit 300 will be described. As illustrated in FIG. 2, the signal processing unit 300 includes a signal processing unit control unit 302 and a failure detection unit 303. The failure detection unit 303 corresponds to the “failure detection unit” described in the claims.

  As shown in FIG. 5, the signal processing unit storage unit 301 includes “physical link information” (“rate” and “identification” for all calls processed in the signal processing unit 300 having the signal processing unit storage unit 301. Information "). For example, the signal processing unit storage unit 301 stores “rate” and “identification information” in association with the resource ID “1001”. In addition, the signal processing unit storage unit 301 stores “resource amount” for the signal processing unit 300 including the signal processing unit storage unit 301. For example, the signal processing unit storage unit 301 stores the resource amount “40”.

  The signal processing unit storage unit 301 stores information used by the signal processing unit control unit 302. The signal processing unit storage unit 301 receives information transmitted from the signal processing control card 200 via the signal processing unit IF unit 202 by the signal processing unit control unit 302. Thereafter, in the signal processing unit storage unit 301, the stored information is changed (or deleted) by the signal processing unit control unit 302.

  The resource amount stored in the signal processing unit storage unit 301 is updated by the signal processing unit control unit 302 every time “physical link information” and “resource ID” are input, changed, or deleted. Is.

  The signal processing unit control unit 302 processes a call. Specifically, each “physical link information” stored in the signal processing unit storage unit 301 is used to process each call in parallel.

  Further, the signal processing unit control unit 302 receives “resource ID” and “physical link information” from the signal processing control card 200 via the signal processing unit IF unit 202. Then, the signal processing unit control unit 302 inputs the received “resource ID” and “physical link information” to the signal processing unit storage unit 301.

  Further, when there is a call for which processing has been completed, the signal processing unit control unit 302 deletes the “resource ID” and “physical link information” for the call from the signal processing unit storage unit 301, and the “resource ID” Is transmitted to the distribution control (card) unit 221 and the failure distribution control (card) unit 222 via the signal processing unit IF unit 202.

  Further, the signal processing unit control unit 302 inputs “physical link information” and “resource ID” to the signal processing unit storage unit 301, or updates the “resource amount” every time it is changed or deleted.

  The failure detection unit 303 detects that a failure has occurred in the signal processing unit 300 mounted on the signal processing control card 200. Further, when the failure detection unit 303 detects that a failure has occurred in the signal processing unit 300 having the failure detection unit 303, the failure detection unit 303 uniquely identifies the fact that the failure has occurred and the signal processing unit 300 (for example, a signal The processing unit “1” and the like are transmitted to the fault distribution control (card) unit 222 via the signal processing unit IF unit 202. For example, information indicating that a failure has occurred in the signal processing unit “1” is transmitted to the on-failure distribution control (card) unit 222 via the signal processing unit IF unit 202.

[Processing by call control device]
Next, processing by the call control device will be described with reference to FIG. FIG. 6 is a sequence diagram illustrating the processing flow of the call control device according to the first embodiment.

  In the description of the processing by the call control device, it is assumed that a failure has occurred in the signal processing unit “2” mounted on the signal processing control card “1”.

  As shown in FIG. 6, when a failure occurs in the signal processing unit 300, the failure detection unit 303 detects that a failure has occurred in the signal processing unit 300, and indicates that the failure has occurred. Minute control (card) unit 222) (step S101). For example, the failure detection unit 303 transmits information indicating that a failure has occurred in the signal processing unit “2” to the failure distribution control (card) unit 222 via the signal processing unit IF unit 202.

  Then, the controller 220 (failure distribution control (card) unit 222) transmits information indicating that a failure has occurred to the failure distribution control (software) unit 103 (step S102). For example, information indicating that a failure has occurred in the signal processing unit “2” is transmitted to the failure distribution control (software) unit 103 via the soft IF unit 201.

  When the occurrence of a failure is detected, the control unit 220 (failure distribution control (card) unit 222) executes a distribution process (step S103). That is, the failure distribution control (card) unit 222 distributes the call processed by the failure signal processing unit to the signal processing unit 300 other than the failure signal processing unit mounted on the signal processing control card 200. For example, the fault distribution control (card) unit 222 distributes all calls processed by the signal processing unit “2” to the other signal processing units 300.

  In parallel with the above-described distribution process, the failure distribution control (software) unit 103 starts the operation of the signal processing control card (standby) 200a (step S104). For example, the failure distribution control (software) unit 103 transmits an instruction to start operation (ACT control) to the signal processing control card (standby) 200a.

  Thereafter, each of the signal processing units 300 mounted on the signal processing control card on which the failure signal processing unit is mounted transmits information to that effect to the control unit 220 (failure distribution control unit (card) 222). Then, the control unit 220 (failure distribution control (card) unit 222) transmits to the software 100 (failure distribution control (software) unit 103) (step S106).

  When all calls processed by the signal processing units 300 mounted on the signal processing control card mounted with the failure signal processing unit are completed, the software 100 (failure distribution control (software) unit 103) performs alarm control. (ALM control) is performed (step S107).

[Effect of Example 1]
As described above, according to the first embodiment, when the occurrence of a failure is detected in the signal processing unit 300 and the occurrence of the failure is detected, the signal processing control card 200 that includes the failure signal processing unit is controlled. The call processed by the failure signal processing unit is distributed to the signal processing unit 300 other than the failure signal processing unit mounted on the card 200. For this reason, according to the first embodiment, it is possible to reduce the number of calls that are not serviced when a failure occurs in the signal processing unit 300.

  More specifically, when a failure occurs in a certain signal processing unit 300, the signal processing control card 200 having the signal processing unit 300 becomes an exchange target. Also, when a call is disconnected once and the disconnected call is processed (switched) by another signal processing unit 300, the service is temporarily interrupted when the call is temporarily disconnected, so it is temporarily out of service. .

  Here, in the conventional call processing device, as shown in FIG. 7, when a failure occurs, distribution processing to the signal processing control card (standby) (standby system) is performed immediately. Specifically, as shown in FIG. 8, all calls that have been processed by the signal processing control card 200 having the signal processing unit 300 in which the failure has occurred are temporarily disconnected, and the call processing device has all the calls that have been disconnected once. The signal processing control card (reserved) 200a performs processing (call setting relief). 7 and 8 are diagrams for explaining the effect of the call control device according to the first embodiment.

  In other words, when a failure occurs in a certain signal processing unit 300, in the conventional call processing device, processing is performed by the signal processing unit 300 in which the failure has occurred (for example, the signal processing unit “2” in the example shown in FIG. 8). In addition to the call being made, the call being processed by the normally functioning signal processing unit 300 is temporarily disconnected. In the conventional call processing device, all the calls are processed by the signal processing control card (standby) 200a included in the call processing device.

  As a result, in the conventional call processing device, when a failure occurs in a certain signal processing unit 300, the call processed by the signal processing unit 300 in the signal processing control card 200 having the signal processing unit 300 in which the failure has occurred. Is a signal processing unit that is processing a call but is not faulty (functioning normally) even if the signal processing unit 300 is generating a failure. Even in the case of 300, until the service was interrupted once and the handover to the standby system was completed, it was out of service (service suspension period), and it took time to recover.

  Compared to such a conventional method, according to the disclosed call processing device, when a failure occurs in a certain signal processing unit 300, only a call being processed by the signal processing unit 300 in which the failure has occurred is temporarily stored. Cut and cause the other signal processing unit 300 to process. For this reason, according to the disclosed call processing device, a call being processed by another signal processing unit 300 (a signal processing unit 300 functioning normally) in the signal processing control card 200 having the signal processing unit 300. It is possible to reduce the number of calls that are out of service without temporarily disconnecting the service.

  Further, in the conventional method, since the software 100 that has received the instruction that a failure has occurred resets all the settings that have been processed by the signal processing control card 200 that is the replacement target, It took a long time to distribute calls to the control card (reserve) 200a. On the other hand, according to the disclosed call processing device, since only calls that have been processed by the signal processing unit 300 in which a failure has occurred are distributed and set, compared with the conventional method, It is possible to shorten the processing time required at times. Further, the activation instruction and the new call setting to the signal processing control card (reserved) 200a are performed in parallel with the distributed processing in the signal processing control card 200, so that the signal processing control card 200 (reserved) Switching time to 200a can be eliminated.

  Further, according to the first embodiment, when the occurrence of a failure is detected, a call for newly starting processing after the detection is sent to the signal processing control card 200 other than the signal processing control card 200 equipped with the failure signal processing unit. Distribute. Therefore, according to the disclosed call processing device, it is possible to replace the signal processing control card equipped with the failure signal processing unit as soon as all the call signals controlled when the failure is detected are completed.

  So far, as the first embodiment, the method of distributing all the calls processed by the fault signal processing unit to the signal processing unit 300 mounted on the signal processing control card 200 mounting the fault signal processing unit has been described. The present invention is not limited to this. For example, all or some of the calls being processed by the failure signal processing unit may be distributed to the signal processing unit 300 included in the other signal processing control card 200.

  Therefore, in the following, as a second embodiment, a method for distributing all or part of the call being processed by the failure signal processing unit to the signal processing unit 300 included in the other signal processing control card 200 will be described. In the following, the same points as those of the call control device according to the first embodiment will be described briefly or the description thereof will be omitted.

  The failure distribution control (card) unit 222 checks whether it is allowed to distribute all calls processed by the failure signal processing unit detected by the failure detection unit 303. Specifically, the failure distribution control (card) unit 222 distributes all the calls to the signal processing unit 300 other than the failure signal processing unit installed in the signal processing control card 200 including the failure signal processing unit. Make sure that it is acceptable. The failure distribution control (card) unit 222 according to the second embodiment corresponds to the “confirming unit” described in the claims.

  For example, as illustrated in (1) and (2) of FIG. 9, when a failure occurs in the signal processing unit “2”, the signal processing unit 300 causes the failure detection unit 303 to pass through the signal processing unit IF unit 202. This is transmitted to the fault distribution control (card) unit 222. Then, as shown in (3) of FIG. 9, the failure distribution control (card) unit 222 includes information indicating that the failure received from the failure detection unit 303 via the signal processing unit IF unit 202 has occurred. This is transmitted to the fault distribution control (software) unit 103 via the soft IF unit 201. Further, the failure distribution control (card) unit 222, as shown in (5) of FIG. 9, is information stored in the control card storage unit 210 (for example, “physical link information” and “resource ID”). ). Then, the failure distribution control (card) unit 222 distributes the call being processed by the failure signal processing unit to the other signal processing unit 300 as shown in (6) of FIG.

  Here, for example, the failure distribution control (card) unit 222 checks whether it is permitted to distribute all calls processed by the failure signal processing unit to the other signal processing units 300. To explain with a specific example, the failure distribution control (card) unit 222 determines the amount of resources allowed to be distributed to other signal processing units 300 and the call processed by the failure signal processing unit. Compare the amount of resources required for processing. Here, when the amount of resources allowed to be distributed to other signal processing units 300 is larger than the amount of resources required when processing a call being processed by the failure signal processing unit, The minute control (card) unit 222 confirms that distribution is permitted. Also, for example, the failure distribution control (card) unit 222 distributes the calls processed by the failure signal processing unit to the other signal processing units 300 one by one, and the calls processed by the failure signal processing unit. When it cannot be distributed to other signal processing units 300, it is confirmed that it is not allowed. For example, the fault allocation control (card) unit 222 has a remaining resource amount in the other signal processing unit 300 even though the other signal processing unit 300 has a call being processed by the fault signal processing unit. Confirm that it is not acceptable when the

  Further, for example, when the failure distribution control (card) unit 222 confirms that it is not allowed, the “resource ID” is assigned to the failure distribution control (software) for calls that are not allowed to be distributed to other signal processing units 300. Is transmitted to the unit 103 via the soft IF unit 201. Further, for example, if the failure allocation control (card) unit 222 is “unrecoverable” as information indicating that it has been confirmed that the failure is not permitted, the fault allocation control (software) unit 103 is informed of the software IF. This is transmitted via the unit 201.

  Further, when it is confirmed that the failure distribution control (software) unit 103 is not allowed by the failure distribution control (card) unit 222, the failure distribution control (software) unit 103 transfers the call processed by the failure signal processing unit to the signal processing control card ( (Reserved) Allocate to one of the signal processing units 300 mounted on 200a. In other words, the failure distribution control (software) unit 103 resets resources that cannot be recovered. The failure distribution control (software) unit 103 according to the second embodiment corresponds to “non-permissible distribution means” described in the claims.

  For example, when the failure distribution control (software) unit 103 receives information indicating that a failure has occurred from the failure distribution control (card) unit 222 via the soft IF unit 201, the process shown in (4) of FIG. As shown, the signal processing control card (spare) 200a is activated. To explain with a specific example, the fault distribution control (software) unit 103 transmits an instruction to change from “standby” to “act” to the signal processing control card (standby) 200a. In addition, when the fault distribution control (software) unit 103 activates the signal processing control card (reserved) 200a and sets a new call, it sets the activated signal processing control card (reserved) 200a.

  Further, for example, when it is confirmed that the failure distribution control (software) unit 103 is not permitted by the failure distribution control (card) unit 222, the failure distribution control (card) unit 222 to the soft IF unit 201. The “resource ID” is accepted via Then, as shown in (8) of FIG. 9, the fault distribution control (software) unit 103 uses the received “resource ID” to process the call being processed by the fault signal processing unit. The signal is allocated to one of the signal processing units 300 mounted on the card (spare) 200a. To explain with a specific example, the fault distribution control (software) unit 103 acquires “physical link information” corresponding to the received “resource ID” from the software storage unit 101. Then, the fault distribution control (software) unit 103 sends the received “resource ID” and the acquired “physical link information” to the distribution control (card) unit (reserve) 221a and the soft IF unit (reserve) 201a. Communicate through. Then, the distribution control (card) unit (reserve) 221a distributes the received “resource ID” and the acquired “physical link information” to one of the signal processing units (reserve) 300a.

  For example, the failure distribution control (software) unit 103 performs a process of setting a new call (new call setting request), a process of distributing a call being processed by the failure signal processing unit (recovery process of the failure processing unit) ) In parallel. Specifically, the fault distribution control (software) unit 103 executes the above two processes asynchronously.

  Also, here, for example, the failure distribution control (software) unit 103 performs a process of setting a new call (new call setting request) and a process of distributing the call being processed by the failure signal processing unit (failure processing unit) Recovery process) is congested, the recovery process is prioritized. In addition, the fault distribution control (software) unit 103 completes the activation process of the signal processing control card (standby) 200a, and the other normal functioning signal processing of the signal processing control card 200 having the fault signal processing unit. Even if the unit 300 is continuing the call processing, the new call is distributed to the signal processing control card (standby) 200a. In other words, the failure distribution control unit (software) unit 103 does not distribute the new call to the other normally functioning signal processing unit 300 included in the signal processing control card 200 having the failure signal processing unit.

[Processing by Call Control Device According to Second Embodiment]
Next, processing performed by the call control device according to the second embodiment will be described with reference to FIG. FIG. 10 is a sequence diagram illustrating the processing flow of the call control device according to the second embodiment.

  In the call control device according to the second embodiment, when a failure occurs in the signal processing unit 300, the failure distribution control (card) unit 222 transmits the failure to the failure distribution control (software) unit 103, The processing of the signal processing unit is distributed to other signal processing units 300 (steps S201 to S203).

  Here, the fault distribution control (card) unit 222 sends all calls processed by the fault signal processing unit to signals other than the fault signal processing unit mounted on the signal processing control card 200 on which the fault signal processing unit is mounted. It is confirmed whether or not the distribution to the processing unit 300 is allowed. If the failure distribution control (card) unit 222 confirms that the failure is not allowed, the failure distribution control (card) unit 222 notifies the failure distribution control (software) unit 103 (step S205). In other words, for example, the failure distribution control (card) unit 222 transmits the “resource ID” and “unrecoverable” to the failure distribution control (software) unit 103 via the soft IF unit 201.

  Then, when it is confirmed that the failure distribution control (software) unit 103 is not allowed by the failure distribution control (card) unit 222, the failure distribution processor (software) unit 103 converts the call processed by the failure signal processing unit to the signal processing control card ( (Reserved) The signal is distributed to any one of the signal processing units 300 mounted in 200a (step S206). For example, the fault distribution control (software) unit 103 acquires “physical link information” corresponding to the received “resource ID” from the software storage unit 101. Then, the fault distribution control (software) unit 103 sends the received “resource ID” and the acquired “physical link information” to the distribution control (card) unit (reserve) 221a and the soft IF unit (reserve) 201a. Communicate through. Then, the distribution control (card) unit (reserve) 221a distributes the received “resource ID” and the acquired “physical link information” to one of the signal processing units (reserve) 300a.

  Further, the failure distribution control (software) unit 103 performs a process of setting a new call (new call setting request), a process of distributing the call being processed by the failure signal processing unit (a recovery process of the failure processing unit) Process in parallel (step S209).

  Here, steps S201 to S204 in FIG. 10 are the same as steps S101 to S104 in FIG. Steps S207 and S208 in FIG. 10 are the same as steps S105 and S106 in FIG. Step S210 in FIG. 10 is the same as step S107 in FIG.

[Effect of Example 2]
As described above, in the second embodiment, all calls processed by the fault signal processing unit are distributed to the signal processing units 300 other than the fault signal processing unit installed in the signal processing control card 200 including the fault signal processing unit. Make sure that it is acceptable. In the second embodiment, when it is confirmed that the call is not permitted, the call processed by the failure signal processing unit is distributed to one of the signal processing units 300 mounted on the signal processing control card (reserve) 200a.

  For this reason, in Example 2, all calls processed by the failure signal processing unit cannot be distributed to the signal processing unit 300 other than the failure signal processing unit mounted on the signal processing control card 200 on which the failure signal processing unit is mounted. In this case, only calls processed by the failure signal processing unit are distributed to the signal processing control card (standby) 200a, so that when the signal processing unit 300 fails, the number of calls that are not serviced is reduced. Is possible.

  Although the embodiments of the present invention have been described so far, the present invention may be implemented in various different forms other than the embodiments described above. Therefore, in the third embodiment, other embodiments will be described below.

[Combination of Examples]
In the first embodiment described above, for example, (1) In addition to the technique of distributing calls processed by the signal processing unit 300 in which a failure has occurred to the signal processing units 300 other than the failed signal processing unit included in the signal processing control card 200 Thus, (2) the method of allocating a new call to the signal processing control card (standby) 200a has been described. In the second embodiment, (3) when the signal processing unit 300 is not allocated to the signal processing unit 300 other than the failure signal processing unit mounted on the signal processing control card 200, the signal processing unit 300 is allocated to the signal processing unit 300 of the signal processing control card (standby) 200a. The method was explained. However, the present invention is not limited to the combination of the above-described methods. For example, only (1) or (2) and (3) may be implemented in addition to (1). Well, you may implement (3) together.

[System configuration]
In addition, among the processes described in the first and second embodiments, all or a part of the processes described as being automatically performed can be manually performed (for example, a sorting process) or manually. All or part of the processing described as being performed automatically can be automatically performed by a known method. In addition, the processing procedures, specific names, and information including various data and parameters (for example, FIGS. 1 to 11) shown in the above documents and drawings may be arbitrarily changed unless otherwise specified. Can do.

  Further, each component of each illustrated apparatus is functionally conceptual, and does not necessarily need to be physically configured as illustrated. In other words, the specific form of distribution / integration of each device is not limited to that shown in the figure, and all or a part thereof may be functionally or physically distributed or arbitrarily distributed in arbitrary units according to various loads or usage conditions. Can be integrated and configured.

  For example, referring to the example shown in FIG. 2, the distribution control (software) unit 102, the failure distribution control (software) unit 103, the distribution control (card) unit 221, and the failure distribution control (card). You may integrate in arbitrary combinations with the part 222. FIG. Moreover, you may install the integrated distribution control part in arbitrary places. A specific example will be described. The failure distribution control (software) unit 103 and the failure distribution control (card) unit 222 are integrated, and the integrated distribution control unit is installed in the “soft 100”. May be. Further, the failure detection unit 303 may be installed not in the signal processing unit 300 but in an arbitrary place (for example, in the software 100), and the failure detection unit 303 may be installed in the software 100, the signal processing control card 200, and the signal. You may disperse | distribute and install in the process part 300. FIG.

[program]
In the first embodiment, the case where various processes are realized by hardware logic has been described. However, the present invention is not limited to this, and is realized by executing a program prepared in advance by a computer. You may do it. Therefore, in the following, an example of a computer that executes a call control program having the same function as the call control apparatus shown in the first embodiment will be described with reference to FIG. FIG. 11 is a diagram for explaining a program of the call control device according to the first embodiment.

  As shown in the figure, the call control device 3000 according to the first embodiment includes an operation unit 3001, a microphone 3002, a speaker 3003, a signal processing unit 3004, a display 3005, a communication unit 3006, a CPU 3010, a ROM 3011, an HDD 3012, a RAM 3013, and a bus 3009. It is connected and configured.

  The ROM 3011 includes a distribution control (software) unit 102, a failure distribution control (software) unit 103, a distribution control (card) unit 221 and a failure distribution control (shown in the first embodiment). Card) unit 222, signal processing unit control unit 302, failure detection unit 303, a processing program that exhibits the same function, that is, as shown in the figure, distribution control (software) program 3011a, A distribution control (software) program 3011b, a distribution control (card) program 3011c, a failure distribution control (card) program 3011d, a signal processing unit control program 3011e, and a failure detection program 3011f are stored in advance. Yes. Note that these programs 3011a to 3011f may be appropriately integrated or separated as in the case of each component of the call control device shown in FIG.

  Then, the CPU 3010 reads out these programs 3011a to 3011f from the ROM 3011 and executes them, so that as shown in FIG. 11, for each program 3011a to 3011f, the distribution control (software) process 3010a and the distribution at the time of failure It functions as a control (software) process 3010b, a distribution control (card) process 3010c, a failure distribution control (card) process 3010d, a signal processing unit control process 3010e, and a failure detection process 3010f. Each of the processes 3010a to 3010f includes the distribution control (software) unit 102, the failure distribution control (software) unit 103, the distribution control (card) unit 221, and the failure distribution shown in FIG. It corresponds to the minute control (card) unit 222 and the signal processing unit control unit 302, respectively.

  The HDD 3012 is provided with a software storage table 3012a, a control card storage table 3012b, and a signal processing unit storage table 3012c. Each table 3012a to 3012c corresponds to the software storage unit 101, the control card storage unit 210, and the signal processing unit storage unit 301 illustrated in FIG.

  The CPU 3010 reads the software storage table 3012a, the control card storage table 3012b, and the signal processing unit storage table 3012c, stores them in the RAM 3013, and stores the software storage data 3013a, the control card storage data 3013b stored in the RAM 3013, The call control program is executed using the signal processing unit storage data 3013c.

[Others]
Note that the call control device described in this embodiment can be realized by executing a program prepared in advance on a computer such as a personal computer or a workstation. This program can be distributed via a network such as the Internet. The program can also be executed by being recorded on a computer-readable recording medium such as a hard disk, a flexible disk (FD), a CD-ROM, an MO, and a DVD and being read from the recording medium by the computer.

  The following appendices are further disclosed with respect to the embodiments including the first to third embodiments.

(Supplementary note 1) A call control device having a signal processing control unit equipped with a plurality of signal processing units capable of processing a plurality of call signals in parallel,
A failure detection means for detecting that a failure has occurred in the signal processing unit mounted on the signal processing control unit;
When occurrence of a failure is detected by the failure detection means, the signal processing control unit is mounted on the signal processing control unit including the failure signal processing unit that is the signal processing unit in which the occurrence of the failure is detected. A distribution unit that distributes the call signal being processed by the failure signal processing unit to the signal processing unit other than the failure signal processing unit;
A call control device comprising:

(Supplementary note 2) The call control device has a spare signal processing control unit that is the signal processing control unit that starts operation when a failure occurs in the signal processing control unit constituting the call control device. Because
All the call signals processed by the failure signal processing unit in which the occurrence of a failure is detected by the failure detection means, other than the failure signal processing unit installed in the signal processing control unit equipped with the failure signal processing unit Confirming means for confirming whether the signal processing unit is allowed to be distributed,
When it is confirmed by the confirmation means that it is not permitted, the call signal processed by the failure signal processing unit is not allowed to be distributed to any of the signal processing units mounted on the backup signal processing control unit. Sorting means;
The call control device according to appendix 1, further comprising:

(Additional remark 3) The said call control apparatus is comprised from the said several signal processing control part,
Control means for distributing the call signal controlled by the call control device to any of the signal processing control units;
A processing unit distribution unit that distributes the call signal distributed by the control unit to any one of the signal processing units mounted on the signal processing control unit to which the call signal is distributed,
Further comprising
When the occurrence of a failure is detected by the failure detection unit, the control unit outputs the call signal to be newly started after the detection, and the signal other than the signal processing control unit including the failure signal processing unit. The call control device according to appendix 1 or 2, wherein the call control device is assigned to a processing control unit.

(Supplementary Note 4) The call control device includes a backup signal processing control unit that is a signal processing control unit that starts operation when a failure occurs in the signal processing control unit constituting the call control device. There,
When the occurrence of a failure is detected by the failure detection unit, the control unit converts all the call signals to be newly allocated to the signal processing control unit equipped with the failure signal processing unit into the standby signal processing control unit. 4. The call control device according to appendix 3, wherein the call control device distributes only to the call.

(Supplementary Note 5) A call control method for controlling a call control device having a signal processing control unit equipped with a plurality of signal processing units capable of processing a plurality of call signals in parallel,
A failure detection step of detecting that a failure has occurred in the signal processing unit mounted on the signal processing control unit;
When the occurrence of a failure is detected by the failure detection step, the signal processing control unit is mounted on the signal processing control unit including the failure signal processing unit that is the signal processing unit in which the occurrence of the failure is detected. A distribution step of distributing the call signal being processed by the failure signal processing unit to the signal processing unit other than the failure signal processing unit;
The call control method characterized by including.

(Supplementary Note 6) A call control program that is executed by a computer having a signal processing control unit equipped with a plurality of signal processing units capable of processing a plurality of call signals in parallel,
A failure detection procedure for detecting that a failure has occurred in the signal processing unit mounted on the signal processing control unit;
When the occurrence of a failure is detected by the failure detection procedure, the signal processing control unit is mounted on the signal processing control unit including the failure signal processing unit that is the signal processing unit in which the occurrence of the failure is detected. A distribution procedure for distributing the call signal being processed by the failure signal processing unit to the signal processing unit other than the failure signal processing unit;
A call control program for causing a computer to execute.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram for explaining an overview and features of a call control device according to a first embodiment. 1 is a block diagram for illustrating a configuration of a call control device according to a first embodiment. FIG. 3 is a diagram for explaining a software storage unit according to the first embodiment. FIG. 3 is a diagram for explaining a control card storage unit according to the first embodiment. FIG. 3 is a diagram for explaining a signal processing unit storage unit according to the first embodiment. It is a sequence diagram which shows the flow of a process of the call control apparatus which concerns on Example 1. FIG. It is a figure for demonstrating the effect of the call control apparatus which concerns on Example 1. FIG. It is a figure for demonstrating the effect of the call control apparatus which concerns on Example 1. FIG. FIG. 6 is a diagram for explaining a call control device according to a second embodiment. It is a sequence diagram which shows the flow of a process of the call control apparatus which concerns on Example 2. FIG. It is a figure for demonstrating the program of the telephone call control apparatus which concerns on Example 1. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Software 101 Software memory | storage part 102 Distribution control (software) part 103 Fault distribution control (software) part 200 Signal processing control card 201 Software IF part 202 Signal processing part IF part 210 Control card memory | storage part 220 Control part 221 Distribution Control (card) unit 222 Fault distribution control (card) unit 300 Signal processing unit 301 Signal processing unit storage unit 302 Signal processing unit control unit 303 Fault detection unit 200a Signal processing control card (standby)
201a Soft IF part (reserved)
202a Signal processing unit IF unit (reserved)
210a Control card storage (reserved)
220a Control unit (reserved)
221a Distribution control (card) section (reserved)
222a Fault distribution control (card) section (reserved)
300a Signal processor (reserved)
301a Signal processing unit storage unit (reserved)
302a Signal processing unit control unit (reserved)
303a Fault detection unit (standby)

Claims (5)

Preliminary signal processing which is a signal processing control unit having a plurality of signal processing units capable of processing a plurality of call signals in parallel, and the signal processing control unit which starts operation when a failure occurs in the signal processing control unit a call control apparatus and a control unit,
A failure detection means for detecting that a failure has occurred in the signal processing unit mounted on the signal processing control unit;
All the call signals processed by the failure signal processing unit in which the occurrence of the failure is detected by the failure detection means, other than the failure signal processing unit installed in the signal processing control unit equipped with the failure signal processing unit Confirmation means for confirming whether the signal processing unit is allowed to be distributed;
When the confirmation means confirms that the failure is detected, the signal processing control unit mounted with the failure signal processing unit that is the signal processing unit in which the occurrence of the failure is detected is mounted on the signal processing control unit. A distribution unit that distributes the call signal being processed by the failure signal processing unit to the signal processing unit other than the failure signal processing unit;
When it is confirmed by the confirmation means that it is not permitted, the call signal processed by the failure signal processing unit is not allowed to be distributed to any of the signal processing units mounted on the backup signal processing control unit. A call control device comprising a distribution means . The call control device includes a plurality of the signal processing control units,
Control means for distributing the call signal controlled by the call control device to any of the signal processing control units;
A processing unit distribution unit that distributes the call signal distributed by the control unit to any one of the signal processing units mounted on the signal processing control unit to which the call signal is distributed,
Further comprising
When the occurrence of a failure is detected by the failure detection unit, the control unit outputs the call signal to be newly started after the detection, and the signal other than the signal processing control unit including the failure signal processing unit. The call control device according to claim 1 , wherein the call control device is assigned to a processing control unit. The call control device includes a standby signal processing control unit that is a signal processing control unit that starts operation when a failure occurs in the signal processing control unit constituting the call control device,
When the occurrence of a failure is detected by the failure detection unit, the control unit converts all the call signals to be newly allocated to the signal processing control unit equipped with the failure signal processing unit into the standby signal processing control unit. The call control device according to claim 2 , wherein the call control device distributes only to the call. Preliminary signal processing which is a signal processing control unit having a plurality of signal processing units capable of processing a plurality of call signals in parallel, and the signal processing control unit which starts operation when a failure occurs in the signal processing control unit a call control method for controlling a call control device and a control unit,
A failure detection step of detecting that a failure has occurred in the signal processing unit mounted on the signal processing control unit;
All the call signals processed by the failure signal processing unit in which the occurrence of the failure is detected by the failure detection step, other than the failure signal processing unit mounted by the signal processing control unit mounted with the failure signal processing unit A confirmation step for confirming whether the signal processing unit is allowed to be distributed;
When it is confirmed that it is permitted by the confirmation step, the signal processing control unit mounted on the signal processing control unit including the failure signal processing unit that is the signal processing unit in which the occurrence of the failure is detected is mounted on the signal processing control unit. A distribution step of distributing the call signal processed by the failure signal processing unit to the signal processing unit other than the failure signal processing unit;
When it is confirmed that it is not permitted by the confirmation step, the call signal processed by the failure signal processing unit is not allowed to be distributed to any of the signal processing units mounted on the backup signal processing control unit. A call control method characterized by including a distribution step . Preliminary signal processing which is a signal processing control unit having a plurality of signal processing units capable of processing a plurality of call signals in parallel, and the signal processing control unit which starts operation when a failure occurs in the signal processing control unit A call control program to be executed by a computer having a control unit ,
A failure detection procedure for detecting that a failure has occurred in the signal processing unit mounted on the signal processing control unit;
All of the call signals processed by the failure signal processing unit in which the occurrence of the failure is detected by the failure detection procedure, other than the failure signal processing unit installed in the signal processing control unit equipped with the failure signal processing unit A confirmation procedure for confirming whether the signal processing unit is allowed to be distributed;
When it is confirmed that it is allowed by the confirmation procedure, the signal processing control unit mounted on the signal processing control unit mounted on the failure signal processing unit that is the signal processing unit on which the occurrence of the failure is detected is mounted on the signal processing control unit. A distribution procedure for distributing the call signal processed by the failure signal processing unit to the signal processing unit other than the failure signal processing unit;
When it is confirmed by the confirmation procedure that the call signal being processed by the failure signal processing unit is not allowed to be distributed to any of the signal processing units mounted in the backup signal processing control unit A call control program that causes a computer to execute a distribution procedure .

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