JP2019068189A - Communication control unit and program, and communication terminal and communication processing program, and communication system - Google Patents

Abstract

To allow for stable connection of a communication terminal with a communication control unit performing call control.SOLUTION: In a communication system including the communication control unit and multiple communication terminals, the communication control unit has means for managing connection address for connection with the communication terminal, along with the effective time, and means for transmitting a re-connection request packet for requesting transmission of a connection request, with the broadcast address of a network to which the communication terminal belongs as the destination, upon detection of reset of the communication control unit. The communication terminal transmits the connection request signal to the communication control unit at regular intervals, while furthermore transmits the connection request signal to the communication control unit upon receiving the re-connection request packet for requesting transmission of a connection request signal from the communication control unit.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a communication control apparatus and program, a communication terminal and communication processing program, and a communication system, for example, to SIP (Session Initiation Protocol) terminal connection (accommodation) in IP-PB (Intenet Protocol Private Branch eXchange). Applicable

  At present, in an IP-PBX that performs signaling (call control) by connecting to a communication terminal (telephone terminal) on an IP network, it is common to use SIP for signaling.

  Conventionally, in an IP-PBX (SIP server), as a signaling procedure (protocol) for creating, modifying, and disconnecting a session required to exchange voice, video, text messages, etc. with two or more parties. Is described in IETF RFC 3261 (Internet Engineering Task Force Request for Comments 3261; Non-Patent Document 1).

  According to IETF RFC 3261, an identifier of an own apparatus (a URI (Uniform Resource Identifier) such as an extension number or a host name) at an interval less than a predetermined period (expiration period) from a SIP client (communication terminal) to a SIP server (IP-PBX) Described is a procedure for recognizing an on-line (connected) SIP client on the SIP server side by transmitting a REGISTER request in which) is set.

IETF, RFC3261, [Online], INTERNET, [September 21, 2017 search], <URL: https://www.ietf.org/rfc/rfc3261.txt>

  However, in the conventional IP-PBX (SIP server) compatible with SIP, when information related to the on-line (connected) communication terminal (SIP client) is reset due to the occurrence of reset or the like, the communication terminal is next registered. Until the request is sent, connection (for example, call control processing such as call origination and reception) can not be performed.

  In view of the above problems, a communication control apparatus and program capable of stably connecting a communication terminal (for example, a SIP client) to a communication control apparatus (for example, an IP-PBX) that performs call control, and A communication terminal, a communication processing program, and a communication system are desired.

  According to a first aspect of the present invention, in a communication control apparatus for performing communication control between a plurality of communication terminals, (2) managing a connection address for connecting to the communication terminal together with the remaining effective time of the connection address, Management means for updating the connection address and the remaining valid time related to the communication terminal of the transmission source of the connection request signal each time a connection request signal requesting connection to the communication control device is received from the communication terminal; (3) Communication control means for communicating with the communication terminal using the connection address managed by the management means and performing communication control processing for the communication terminal, and (4) reset detection means for detecting reset of the communication control device And (5) a connection request signal with the broadcast address of the network to which the communication terminal belongs as a destination when the reset detection means detects the reset. And having a packet transmitting means for transmitting a reconnect request packet requesting the transmission.

  A communication control program according to a second aspect of the present invention comprises: (1) a connection address for connecting a computer mounted on a communication control apparatus for performing communication control between a plurality of communication terminals to the communication terminal; The management is performed along with the valid time, and the connection address and the remaining valid time concerning the communication terminal of the transmission source of the connection request signal every time the connection request signal for requesting the connection to the communication control device is received from the communication terminal. (2) communication control means for communicating with the communication terminal using the connection address managed by the management means, and (2) performing communication control processing for the communication terminal; (3) the communication control A reset detection unit that detects a reset of the device; and (4) a broad spectrum of a network to which the communication terminal belongs when the reset detection unit detects a reset. The catcher strike address as a destination, characterized in that to function as a packet transmitting means for transmitting a reconnect request packet requesting transmission of a connection request signal.

  A communication terminal according to a third aspect of the present invention is connected to a communication control apparatus, performs communication by receiving communication control by the communication control apparatus, and performs the communication to the communication control apparatus at predetermined intervals. It transmits a connection request signal requesting connection to the control device, and further transmits a connection request signal to the communication control device even when receiving a reconnection request packet requesting transmission of the connection request signal from the communication control device. A communication processing means is included.

  A communication processing program according to a fourth aspect of the invention connects a computer installed in a communication terminal to a communication control device, and performs communication by receiving communication control by the communication control device, and performs communication at regular intervals, The communication is transmitted when a connection request signal requesting connection to the communication control device is transmitted to the communication control device, and a reconnection request packet requesting transmission of the connection request signal is further received from the communication control device. It is characterized in that it functions as communication processing means for transmitting a connection request signal to the control device.

  A fifth aspect of the present invention is a communication system comprising: a communication control device; and a plurality of communication terminals connected to the communication control device and performing communication by receiving communication control by the communication control device, (1) the communication A communication control apparatus according to a first aspect of the present invention is applied as a control apparatus, and (2) a communication terminal according to a third aspect of the present invention is applied as each of the communication terminals.

  According to the present invention, it is possible to provide a communication control apparatus and program for stably connecting a communication terminal to a communication control apparatus that performs call control, a communication terminal and communication processing program, and a communication system.

FIG. 1 is a block diagram showing an entire configuration of a communication system according to a first embodiment. It is a block diagram shown about an example of an internal configuration of a communication terminal concerning a 1st embodiment. It is explanatory drawing shown about the structural example of SIP extension management data hold | maintained by IP-PBX which concerns on 1st Embodiment. It is a sequence diagram shown about an example of operation of a communication system concerning a 1st embodiment. It is explanatory drawing shown about transition (the 1) of SIP extension management data hold | maintained by IP-PBX which concerns on 1st Embodiment. It is explanatory drawing shown about transition (the 2) of SIP extension management data hold | maintained by IP-PBX which concerns on 1st Embodiment. It is a sequence diagram shown about an example of operation of a communication system concerning a 2nd embodiment.

(A) First Embodiment Hereinafter, a first embodiment of a communication control apparatus and program, a communication terminal and communication processing program, and a communication system according to the present invention will be described in detail with reference to the drawings. In the following, an example will be described in which the communication control apparatus and program of the present invention are applied to an IP-PBX and the communication terminal and communication processing program are applied to an SIP terminal.

(A-1) Configuration of First Embodiment FIG. 1 is a block diagram showing the overall configuration of a communication system 1 of this embodiment.

  In the communication system 1, one IP-PBX 10 and N SIP terminals 20 (20-1 to 20-N) connected to the IP-PBX 10 as communication terminals (telephone terminals; extension terminals) are arranged. . A plurality of IP-PBXs 10 may be arranged on the communication system 1.

  In the communication system 1, each device is connected to the IP network X, and the IP-PBX 10 and each SIP terminal 20 have a network configuration capable of mutual IP communication. The network configuration of the IP network X is not limited. In this embodiment, each SIP terminal 20 is arranged in one broadcast domain (segment) on the IP network X. In the example of this embodiment, each SIP terminal 20 is arranged on a subnetwork whose network address is 192.168.1.0/24 (subnet mask length is 24 bits). In this embodiment, it is assumed that 192.168.1.255 is set (reserved) as the broadcast address of the subnetwork 192.168.1.0/24 on the IP network X. On the IP network X, when a packet is sent to 192.168.1.25, the packet is processed as a broadcast packet and all nodes on the subnetwork 192.168.1.0/24 (ie, It will be transferred to all SIP terminals 20).

  Further, in this embodiment, the IP-PBX 10 is also arranged in the 192.168.1.0/24 subnetwork. In this embodiment, the IP address of the IP-PBX 10 is set to 192.168.1.10. Furthermore, it is described here that the address of the SIP terminal 20-1 is set to 192.168.1.201 and the address of the SIP terminal 20-2 is set to 192.168.1.202. The following description is given also on the assumption that one of the IP addresses on the 192.168.1.0/24 subnetwork is assigned to the SIP terminals 20-3 to 20-N.

  The telephone communication between the IP-PBX 10 and each SIP terminal 20 is basically signaled (call control) using SIP signals (messages). In the IP-PBX 10, each SIP terminal 20 is managed as an extension terminal.

  The IP network X may be connected to the Internet or a network of various communication carriers. Further, in FIG. 1, although the IP-PBX 10 is connected only to the IP network X, it is also connected to various external lines (for example, lines of the public telephone network and dedicated lines) to connect the SIP terminal 20 to outside lines. You may make it respond | correspond.

  Next, the internal configuration of the IP-PBX 10 will be described.

  The IP-PBX 10 includes a control unit 11, a communication unit 12, a communication processing unit 13, and a data storage unit 14.

  The IP-PBX 10 may be realized, for example, by installing a program (a communication control program according to the embodiment) in a computer (server apparatus) including a processor and a memory.

  The control unit 11 has a function of controlling the entire device of the IP-PBX 10.

  The communication unit 12 has a function of a network interface in the IP-PBX 10. In this embodiment, the communication unit 12 is connected to the IP network X.

  The communication processing unit 13 communicates (connects) with each SIP terminal 20 using SIP signals or the like, and establishes a telephone communication call (eg, extension call or outside call with another SIP terminal 20) to each SIP terminal 20. Call control processing (communication control processing) such as The communication processing unit 13 performs call control processing using various data stored in the data storage unit 14.

  The data storage unit 14 is a storage unit that stores data applied to various processes in the IP-PBX 10. As shown in FIG. 1, it is assumed that at least the SIP extension management data 141 and the notification address data 142 are stored in the data storage unit 14.

  The SIP extension management data 141 is a table (database) for managing information for each extension number (SIP URI) (information of the SIP terminal 20 corresponding to each extension number). In this embodiment, although the extension number is described as the destination information (SIP URI) of the call on SIP, other information (for example, user ID or mail address in other format) is used as the destination information of the call. It may be used.

  FIG. 2 is an explanatory view showing a configuration example of the SIP extension management data 141. As shown in FIG.

  At least the IP address (contact address; connection address) of the corresponding SIP terminal 20 is registered in the SIP extension management data 141 shown in FIG. 2 together with the information of the valid time (expiration date) of the IP address for each extension number. ing. In the SIP extension management data 141, other information (for example, information or remarks of the user who uses the SIP terminal 20) may be managed together.

  For example, the communication processing unit 13 performs management of the IP address for each extension number and the valid time (update processing of the SIP extension management data 141) by the same processing as the IETF RFC 3261 (non-patent document 1). Good. Specifically, when the communication processing unit 13 receives a REGISTER request for requesting connection from the SIP terminal 20 (a REGISTER request in which an extension number and an IP address as a contact address are set), the communication processing unit 13 receives the SIP extension management data 141. Then, the IP address corresponding to the extension number (SIP URI) set to the REGISTER request is updated to the IP address set to the REGISTER request, and the valid time corresponding to the IP address is initialized to the initial value (hereinafter, Update to “initial time T1”.

  The initial time T1 can be set to any time. That is, as the initial time T1, it is desirable to set a suitable time according to the design of the communication system 1. As the initial time T1, for example, an expiration date interval in IETF RFC 3261 (Non-Patent Document 1) corresponds. In this embodiment, it is assumed that the initial value T1 = 60 minutes.

  Then, the communication processing unit 13 counts down (subtracts) the valid time of the IP address for each extension number, and the SIP extension management data for the IP address whose valid time has become 0 (IP address whose valid time has expired) It shall delete (clear) from 141.

  As described above, the communication processing unit 13 manages the IP address and the valid time of each extension number based on the REGISTER request supplied from each SIP terminal 20 according to IETF RFC 3261 (Non-Patent Document 1). The specific process in which the communication processing unit 13 manages the IP address of each extension number and the valid time based on the REGISTER request supplied from each SIP terminal 20 is not limited to the above example, and various processing methods are used. It can apply.

  Next, the internal configuration of each SIP terminal 20 will be described using FIG.

  In this embodiment, in order to simplify the description, it is assumed that all the SIP terminals 20 have the configuration shown in FIG.

  The specific hardware configuration of each SIP terminal 20 is not limited. For example, each SIP terminal 20 may be realized (implemented as a soft phone) by installing a program (including the communication processing program according to the embodiment) in a general-purpose computer such as a smart phone or PC. The present invention may be realized by installing a program (including the communication processing program according to the embodiment) in a computer installed in a dedicated telephone device.

  The SIP terminal 20 illustrated in FIG. 3 includes a communication unit 21, a control unit 22, a speaker 23, a microphone 24, and an operation display unit 25.

  The control unit 22 has a function of controlling the entire apparatus of the SIP terminal 20.

  The communication unit 21 has a function of a network interface in the SIP terminal 20. In this embodiment, the communication unit 21 is connected to the IP network X.

  The speaker 23 outputs a far end sound and the like in a phone call.

  The microphone 24 is for capturing near-end sounds and the like in a call.

  The operation display unit 25 has a function of an operation means for receiving an operation from the user (for example, an input of an extension number), and an information output to the user (for example, display of an extension number of a caller when a call arrives) Responsible for the function of the display means for As the operation display unit 25, for example, a touch panel display or a device in which a hard button and a liquid crystal display are combined can be applied.

  Next, the detailed configuration of the control unit 22 will be described.

  The control unit 22 can be configured by installing a program (including the communication processing program according to the embodiment) in a computer configured of a processor, a memory, and the like. The control unit 22 will be described on the assumption that at least an application program corresponding to the telephone communication processing unit 221 for connecting to the IP-PBX 10 and performing telephone communication is installed. In the control unit 22, an application program corresponding to the telephone communication processing unit 221 may be installed on middleware such as an OS.

  The telephone communication processing unit 221 performs call control processing by connecting to the IP-PBX 10 using the communication unit 21 and transmitting and receiving a call control signal such as a SIP signal, and when a call (call status) with the destination is established, Transmission / reception of media signals such as voice signals with the destination, and input / output processing of media signals to be transmitted / received (for example, output processing of far end sound using the speaker 23, and processing of collecting near end sound using the microphone 24) I do.

  Further, the telephone communication processing unit 221 holds setting information 221a, and performs call control processing and the like according to the setting information 221a. It is assumed that at least an extension number (SIP URI) and a time (hereinafter, referred to as “registration time T2”) indicating a transmission interval for transmitting a REGISTER request to the IP-PBX 10 are set in the setting information 221a.

  The telephone communication processing unit 221 transmits a REGISTER request (an extension number and a REGISTER request in which an IP address corresponding to the extension number is set) addressed to the IP-PBX 10 at intervals of registration time T2 during activation.

  Although the registration time T2 set for each SIP terminal 20 may be different, in this embodiment, the same registration time T2 is set for all the SIP terminals 20. Specifically, in the example of this embodiment, it is assumed that half of the initial time T1 (60 minutes), that is, 30 minutes, is set as the registration time T2. Therefore, the telephone communication processing unit 221 transmits a REGISTER request every 30 minutes during activation.

  Next, the configuration relating to the case where a reset occurs in the IP-PBX 10 (communication processing unit 13) will be described.

  The IP-PBX 10 may be reset during operation. In this specification, the concept of reset in the IP-PBX 10 is not only the entire hardware restart but also some software functions (essential functions to operate properly as an IP-PBX) Also includes restart of the element responsible for). For example, in the following, in the IP-PBX 10, initialization of at least the contents of the SIP extension management data 141 (for example, clearing of IP address and / or validity time for each extension number) or partial discarding (for example, IP address for each extension number) Processing involving data discarding of valid time and / or valid time shall be called reset.

  After the occurrence of a reset in the IP-PBX 10, when the communication processing unit 13 performs a restart (restoration), the communication processing unit 13 detects that the reset has occurred, and sends each SIP terminal 20 A packet requesting reconnection (transmission of REGISTER message) (hereinafter referred to as "reconnection request packet") is transmitted. The means for detecting the occurrence of reset in the communication processing unit 13 is not limited, but various computer configurations can be applied. The communication processing unit 13 may use, for example, a program for detecting that a reset has occurred based on a system log or the like when restarting after a reset. Further, in the communication processing unit 13, a program for transmitting a reconnection request packet may be embedded in a sequence to be restarted after reset (a program to be always executed at the time of restart).

  It is desirable for the reconnection request packet to reach all the SIP terminals 20 (20-1 to 20-N) managed by the IP-PBX 10. However, depending on the operation status (for example, usage and importance) of each SIP terminal 20, there may be a SIP terminal 20 to which the reconnection request packet does not reach (it is difficult to reach).

  Although a specific transmission method of the reconnection request packet is not limited, this embodiment will be described as using broadcast transmission. Specifically, for example, the IP-PBX 10 (communication processing unit 13) sets the broadcast address of the broadcast domain (subnetwork) to which each SIP terminal 20 belongs, and sets predetermined data in the header portion or data portion. It shall transmit a packet.

  In this embodiment, it is assumed that the information on the broadcast address that the communication processing unit 13 sets in the reconnection request packet is held as the notification address data 142 of the data storage unit 14. When the SIP terminals 20 subordinate to the IP-PBX 10 are distributed to a plurality of broadcast domains (a plurality of sub networks), the broadcast address (each sub network) of each broadcast domain (the respective sub networks) is included in the notification address data 142. Alternatively, information such as a network address that makes it possible to estimate a broadcast address may be set. Then, when a plurality of broadcast addresses are set in the notification address data 142, the communication processing unit 13 generates and transmits a reconnection request packet (broadcast packet) to each set broadcast address. You may do so.

  Note that the communication processing unit 13 does not rely on the notification address data 142 set separately, but the communication unit 12 (network interface) of the own device performs data related to the reconnection request packet on the broadcast domain to which the own device is connected. The set broadcast packet may be transmitted. In this case, the communication processing unit 13 simply sets a data related to the reconnection request packet in the communication unit 12 (network interface) of the own device (a packet addressed to a broadcast address of a subnetwork to which the own device is connected) Only needs to be performed. As described above, if the IP-PBX 10 and all the SIP terminals 20 belong to one broadcast domain (sub network), the communication processing unit 13 controls the communication unit 12 as described above, and simply broadcasts. It is possible to make all the SIP terminals 20 reach the reconnection request packet only by transmitting the packet. In this case, since it is not necessary to explicitly set the notification address data 142 in the data storage unit 14, the notification address data 142 may be excluded from the data storage unit 14.

  Since the address of the broadcast domain is normally reserved in the subnetwork constituting the IP network (router constituting the subnetwork), the communication processing unit 13 determines the IP address and subnet set in the communication unit 12 It is possible to grasp the broadcast address of the subnetwork to which the communication unit 12 is connected based on the mask length. For example, when the IP address set in the communication unit 12 is 192.168.1.10 and the subnet mask length is 24 bits, the network address of the subnetwork to which the communication unit 12 is connected is 192.168.1.0. The broadcast address can be grasped as 192.168.1.255.

  By the process as described above, the control unit 22 (telephone communication processing unit 221) of each SIP terminal 20 receives the reconnection request packet. Then, the control unit 22 (telephony communication processing unit 221) of each SIP terminal 20 is configured (programmed) to perform processing of returning (transmitting) a REGISTER message addressed to the IP-PBX 10 when receiving the reconnection request packet. It shall be. Note that the communication processing unit 13 displays in the data part of the reconnection request packet the IP address of its own device (IP address of IP-PBX 10: 192.168.1.10) and a message or code indicating that a reset has occurred. The IP address of the connection destination (the IP address of the IP-PBX 10) may be explicitly notified to each SIP terminal 20. Specifically, for example, the communication processing unit 13 generates a message indicating that “the IP-PBX at IP address 192.168.1.10 is reset is generated” in the data part of the reconnection request packet (specific description The format is not limited).

(A-2) Operation of the First Embodiment Next, the operation of the communication system 1 of the first embodiment having the configuration as described above will be described.

  FIG. 4 is a sequence diagram showing before and after the operation when the IP-PBX 10 is reset.

  In the example of FIG. 4, at least the SIP terminals 20-1 and 20-2 are described as being activated and being connected to the IP-PBX 10.

  Then, as shown in FIG. 4, the SIP terminals 20-1 and 20-2 continue the process of transmitting the REGISTER request periodically (every registration time T2 = 30 minutes). Then, the communication processing unit 13 of the IP-PBX 10 updates the SIP extension management data 141 based on the received REGISTER request (S101 to S104). It is assumed that the communication processing unit 13 continues the process of subtracting (counting down) the valid time of each extension number of the SIP extension management data 141. Then, when the extension number (IP address) whose valid time has become 0 in the SIP extension management data 141 (when the IP address of expired validity time is generated), the communication processing unit 13 displays the SIP extension management data 141. From this, it is assumed that the management process of deleting (clearing) the IP address of the extension number continues.

  As described above, the initial time T1 of the effective time on the IP-PBX 10 (communication processing unit 13) side is 60 minutes, and the registration time T2 on the SIP terminal 20 side is half of 30 minutes. Therefore, since the SIP terminals 20-1 and 20-2 continue to transmit REGISTER requests every 30 minutes (every half of the initial time T1 of the effective time), in the SIP extension management data 141 on the IP-PBX 10 side, The IP address valid time of the SIP terminals 20-1 and 20-2 is always maintained without being zero. Thus, when the SIP terminal 20-1 of the extension number 201 makes a call to the SIP terminal 20-2 of the extension number 202, the IP-PBX 10 (communication processing unit 13) transmits the IP address of the extension number 202 from the SIP extension management data 141. Read out, communicate (contact) with the SIP terminal 20-2 (IP address: 192.168.1.201) and call incoming (call control) of the call, and call between the SIP terminals 20-1 and 20-2 Connection is possible.

  After that, the IP-PBX 10 (the communication processing unit 13) generates a reset and restarts (S201). Here, it is assumed that the contents of the SIP extension management data 141 immediately before the occurrence of a reset in the IP-PBX 10 (communication processing unit 13) is as shown in FIG.

  In FIG. 2, the IP address corresponding to the extension number 201 is 192.168.1.201 (the IP address of the SIP terminal 20-1), and the valid time is 50 minutes. Further, in FIG. 2, the IP address corresponding to the extension number 202 is 192.168.1.202 (the IP address of the SIP terminal 20-2), and the effective time is 40 minutes remaining.

  Then, the IP address (contact ID) set in the SIP extension management data 141 and its valid time are deleted (cleared) in the process of resetting and restarting in the IP-PBX 10 (communication processing unit 13). become.

  FIG. 5 is an explanatory view showing the contents of the SIP extension management data 141 immediately after the IP-PBX 10 (the communication processing unit 13) generates a reset and restarts.

  In FIG. 5, the IP address and the valid time corresponding to the extension numbers 201 and 202 are deleted (unset state; empty state).

  Then, when restarted after being reset, the communication processing unit 13 of the IP-PBX 10 detects that the reset has occurred, generates a reconnection request packet (broadcast packet), and sends it (S202).

  At this time, the communication processing unit 13 sets the broadcast address set in the notification address data 142 of the data storage unit 14 as the destination, and “data reset of IP-PBX with IP address 192.168.1.10 occurs in the data section”. A packet in which a message (meaning not limited to a specific description format) is inserted is generated as a reconnection request packet and transmitted.

  By this, the reconnection request packet reaches all the SIP terminals 20 activated in the IP network X.

  Here, it is assumed that the SIP terminals 20-1 and 20-2 are activated and the reconnection request packet is received (S203 and S204).

  The SIP terminal 20 recognizes the IP address (the IP address of the IP-PBX where the reset has occurred) and the IP-PBX (SIP server) that recognizes that the own device is connected, and the IP address set in the received reconnection request packet. The IP address of the IP address may be compared, and it may be recognized that the IP-PBX (SIP server) connected to the device itself has been reset, and a REGISTER request may be returned only when the IP addresses match. If there are multiple IP-PBXs in the IP network X, there is a possibility that reconnection request packets may be supplied from multiple IP-PBXs. It is possible to continue connection to the same IP-PBX by returning a REGISTER request only for the reconnection request packet from the PBX.

  Here, the SIP terminals 20-1 and 20-2 receive the reconnection request packet from the IP-PBX 10 (IP address: 192.168.1.10), which recognizes that the own device is connected. Therefore, in response to the reconnection request packet, a REGISTER request (a REGISTER request in which the extension number and the IP address of the own apparatus are set) is returned (S205, S206).

  When receiving the REGISTER request from the SIP terminals 20-1 and 20-2, the IP-PBX 10 (communication processing unit 13) updates the contents of the SIP extension management data 141 based on the REGISTER request (S207, S208). At this time, the communication processing unit 13 sets an IP address corresponding to the extension number (201, 202) of the SIP terminals 20-1 and 20-2 in the SIP extension management data 141 based on the received REGISTER request. , Its effective time is set to the initial time T1 (60 minutes).

  FIG. 6 shows the SIP extension management data 141 after receiving and updating REGISTER requests from the SIP terminals 20-1 and 20-2 after the IP-PBX 10 (communication processing unit 13) has been reset (restarted). It is explanatory drawing shown about the content.

  In FIG. 6, the IP address corresponding to the extension number 201 is 192.168.1.201 (the IP address of the SIP terminal 20-1), and the effective time is 60 minutes remaining. Further, in FIG. 6, the IP address corresponding to the extension number 202 is 192.168.1.202 (the IP address of the SIP terminal 20-2), and the effective time is 60 minutes remaining.

(A-3) Effects of the First Embodiment According to the first embodiment, the following effects can be achieved.

  In the first embodiment, immediately after reset, the IP-PBX 10 (communication processing unit 13) notifies each SIP terminal 20 in operation that it has been reset by a reconnection request packet (broadcast packet). Then, in the first embodiment, the SIP terminal 20 that receives the reconnection request packet from the IP-PBX 10 responds to the REGISTER request, so that the IP-PBX 10 immediately receives a reset even if a reset occurs in the IP-PBX 10. The information (information on the IP address for each extension number) of the held SIP extension management data 141 is restructured (re-updated), and it is possible to perform call control such as transmission / reception to each SIP terminal 20.

  Further, in the first embodiment, since the backup of the SIP extension management data 141 is not required before the IP-PBX 10 (the communication processing unit 13) is reset, the contents of the SIP extension management data 141 are more reliably reconfigured. be able to.

(B) Second Embodiment Hereinafter, a second embodiment of a communication control apparatus and program, a communication terminal and communication processing program, and a communication system according to the present invention will be described in detail with reference to the drawings. In the following, an example will be described in which the communication control apparatus and program of the present invention are applied to an IP-PBX and the communication terminal and communication processing program are applied to an SIP terminal.

(B-1) Configuration of Second Embodiment The overall configuration of the communication system 1 according to the second embodiment can also be shown using FIG. 1 described above. The differences between the second embodiment and the first embodiment will be described below.

  Even when the telephone communication processing unit 221 is connected to the IP-PBX 10 on the SIP terminal 20, the telephone communication processing unit 221 may be in the sleep state (suspend state; stop state; inactive state). For example, on the SIP terminal 20, the power saving setting (for example, power saving setting on middleware such as OS) of the control unit 11 that controls the telephone communication processing unit 221 or the content of background processing (for example, middleware on OS or the like) Depending on the control content of the application turned to the background, the telephone communication processing unit 221 currently connected to the IP-PBX 10 may be paused (eg, paused in response to a predetermined event such as not being operated for a predetermined time) obtain.

  In the following description, the dormant state (suspended state; suspended state; inactive state) of the telephone communication processing unit 221 means that the telephone communication processing unit 221 immediately re-appears at least when the communication unit 21 receives a reconnection request packet. It is assumed that the contents of the connection request packet are confirmed and it is not possible to send back a REGISITER request. In addition, when the telephone communication processing unit 221 is in the sleep state, it is assumed that the periodic REGISTER request is not sent.

  Therefore, in the second embodiment, when the control unit 22 of the SIP terminal 20 receives the reconnection request packet, if the telephone communication processing unit 221 is in the sleep state, the control unit 22 controls the telephone communication processing unit 221. Processing to wake up (start up) and return to the normal state, and then supply the received reconnection request packet to the telephone communication processing unit 221 to transmit a REGISTER request (hereinafter referred to as "wakeup processing") Shall correspond to

  This wake-up process may be realized, for example, by being added as an optional function of the OS installed in the computer of the SIP terminal 20, or installed as an application separate from the telephone communication processing unit 221, the OS It may be realized by setting to a state where it is not paused above.

  Furthermore, in the second embodiment, the communication processing unit 13 not only sends a message indicating that “the IP-PBX at IP address 192.168.1.10 has been reset” to the reconnection request packet, but also “telephone communication”. A message indicating "request for processing unit wakeup" may be added. Then, the control unit 22 may execute wakeup processing (wakeup of the telephone communication processing unit 221) according to the message (request for telephone communication processing unit wakeup) set in the reconnection request packet. .

(B-2) Operation of Second Embodiment Next, the operation of the communication system 1 of the second embodiment having the configuration as described above will be described.

  FIG. 7 is a sequence diagram showing before and after the operation when a reset occurs in the IP-PBX 10 in the second embodiment. In FIG. 7, the steps performing the same operation as in the first embodiment are given the same reference numerals (step numbers) as those in FIG. 4 described above.

  The second embodiment differs from the first embodiment (FIG. 4 described above) in that steps S301 and S302 are added, and step S202 is replaced with step S302.

  In the following, parts of the operation of the second embodiment that differ from the first embodiment (the operations of the above-described steps S301 to S303) will be mainly described. The operations of the other steps are the same as in the first embodiment, and thus detailed description will be omitted.

  In FIG. 7, it is assumed that, in the SIP terminal 20-2, the telephone communication processing unit 221 is suspended before the IP-PBX 10 generates a reset (step S201) (S301).

  After that, when the IP-PBX 10 is reset and restarted, the communication processing unit 13 recognizes the occurrence of the reset, and generates and sends a reconnection request packet (S302).

  Here, in the reconnection request packet, the communication processing unit 13 indicates that “the IP-PBX with IP address 192.168.1.10 is reset is generated”, and “telephone communication processing unit (telephone communication application) wake up”. It is assumed that the message "request" is set.

  Then, when the reconnection request packet is received (S 204), the control unit 22 of the SIP terminal 20-2 wakes up the paused telephone communication processing unit 221 according to the reconnection request packet, and the telephone communication processing unit 221. A reconnection request packet is supplied to the device and a process (wake up process) for transmitting a REGISTER request is performed (S303).

  Then, when the telephone communication processing unit 221 of the SIP terminal 20-2 wakes up and receives the supply of the reconnection request packet, the telephone communication processing unit 221 sends back the REGISTER request according to the reconnection request packet by the same processing as the first embodiment. It will do (S206).

  On the other hand, in the SIP terminal 20-1, since the telephone communication processing unit 221 has not paused, the REGISTER request is returned by the same processing (steps S203 and S205) as the first embodiment.

(B-3) Effects of Second Embodiment According to the second embodiment, the following effects can be achieved in addition to the effects of the first embodiment.

  In the second embodiment, when a reset occurs in the IP-PBX 10 and the reconnection request packet arrives from the IP-PBX 10 to the SIP terminal 20 in which the telephone communication processing unit 221 is suspended, the SIP terminal 20 (control unit 22) A process (wakeup process) is performed to wake up the paused telephone communication processing unit 221, supply a reconnection request packet to the wakeup telephone communication processing unit 221, and transmit a REGISTER request.

  Thus, in the second embodiment, the SIP terminal 20 (telephone communication processing unit 221) can stably operate even when the telephone communication processing unit 221 may be paused due to the configuration or setting of the SIP terminal 20 (control unit 22). ) Can be connected to the IP-PBX 10.

(C) Other Embodiments The present invention is not limited to the above embodiments, and may include modified embodiments as exemplified below.

  (C-1) In the above embodiments, each SIP terminal 20 has been described as a telephone terminal, but may be a terminal that transmits and receives other media signals (for example, video data, text data, etc.). That is, in the communication terminal of the present invention, media data to be transmitted and received is not limited to voice data, and various media data can be applied.

  Reference Signs List 1 communication system 10 IP-PBX 11 control unit 12 communication unit 13 communication processing unit 14 data storage unit 141 SIP extension management data 142 notification address data 20 20 1 to 20-N: SIP terminal, 21: communication unit, 22: control unit, 221: telephone communication processing unit, 221a: setting information, 23: speaker, 24: microphone, 25: operation display unit, X: IP network, T1 ... initial time, T2 ... registration time.

Claims (7)

In a communication control apparatus that performs communication control between a plurality of communication terminals,
A connection address for connection to the communication terminal is managed along with the remaining effective time of the connection address, and a connection request signal is received each time a connection request signal for requesting a connection from the communication terminal to the communication control device is received. Management means for updating the connection address and the remaining effective time related to the communication terminal of the transmission source of
Communication control means for communicating with the communication terminal using the connection address managed by the management means, and performing communication control processing for the communication terminal;
Reset detection means for detecting reset of the communication control device;
Packet transmission means for transmitting a reconnection request packet requesting transmission of a connection request signal to a broadcast address of a network to which the communication terminal belongs when the reset detection means detects a reset. Communication control device.   2. The communication control apparatus according to claim 1, wherein information for notifying that a reset has occurred is inserted in the reconnection request packet together with the address of the communication control apparatus. A computer mounted on a communication control apparatus that performs communication control between a plurality of communication terminals;
A connection address for connection to the communication terminal is managed along with the remaining effective time of the connection address, and a connection request signal is received each time a connection request signal for requesting a connection from the communication terminal to the communication control device is received. Management means for updating the connection address and the remaining effective time related to the communication terminal of the transmission source of
Communication control means for communicating with the communication terminal using the connection address managed by the management means, and performing communication control processing for the communication terminal;
Reset detection means for detecting reset of the communication control device;
A function of packet transmission means for transmitting a reconnection request packet requesting transmission of a connection request signal to a broadcast address of a network to which the communication terminal belongs when the reset detection means detects a reset Communication control program that features.   A connection request signal which is connected to a communication control device and performs communication under the control of communication by the communication control device, and which requests the communication control device to connect to the communication control device at regular intervals. Communication, and communication processing means for transmitting a connection request signal to the communication control device when receiving a reconnection request packet requesting transmission of a connection request signal from the communication control device. Terminal.   It controls the communication processing means, and when the communication processing means receives a reconnection request packet requesting transmission of a connection request signal during hibernation, the communication processing means is switched from hibernation to normal state The communication terminal according to claim 4, further comprising control means for returning to. A computer mounted on a communication terminal,
A connection request signal which is connected to a communication control device and performs communication under the control of communication by the communication control device, and which requests the communication control device to connect to the communication control device at regular intervals. And, when receiving a reconnection request packet requesting transmission of a connection request signal from the communication control device, the communication control device is caused to function as communication processing means for transmitting the connection request signal. Communication processing program. In a communication system comprising: a communication control device; and a plurality of communication terminals connected to the communication control device and performing communication by receiving communication control by the communication control device.
The communication control device according to claim 1 is applied as the communication control device,
A communication system, wherein the communication terminal according to claim 4 is applied as each of the communication terminals.

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