JP5091186B2 - IP communication system and IP communication method for realizing ISDN packet communication on IP rope - Google Patents

Description

  The present invention converts the communication data of an Integrated Services Digital Network (ISDN) communication service to IP (Internet Protocol), and performs communication between devices in a communication carrier network by IP, thereby allowing ISDN packet communication to be performed by IP. The present invention relates to an IP communication system and an IP communication method realized on the rope.

  An IP conversion apparatus accommodating a subscriber line of an existing ISDN user / network interface; In a packet transfer device that relays 25 layer 3 signals, and a system that terminates by sharing each layer protocol of ISDN packet communication, a technology is known in which devices are connected by IP (for example, Non-Patent Document 1 or Non-Patent Document 2).

  In this technique, X. A communication system necessary for providing an ISDN packet communication service by defining each method of transferring 25 layer 3 signals by IP and mutually communicating information necessary for linking operation of the IP conversion device and the packet transfer device by IP Can be realized on the IP network.

"TTC Standard 4th Edition JT-X31 ISDN Packet Mode Terminal Support and Interface Specifications", Information and Communication Technology Committee, April 27, 1993, p.1-82 “Multiservice Switching Forum System Architecture Implementation Agreement”, Multiservice Switching Forum, May 23, 2000, p1-81

  However, since the conventional IP conversion apparatus is not a simple transfer system apparatus that accommodates ISDN packet terminals, but also has a control system function (Q.931 signal processing), call processing software is implemented. Therefore, there has been a problem that the processing speed of the IP conversion device itself is reduced. In addition, there is a problem that the development / maintenance cost of the IP converter increases.

  In order to solve the above problems, an object of the present invention is to separate a control system and a transfer system in a carrier network of an ISDN packet communication service, improve the processing performance of the IP conversion device, and develop and maintain the IP conversion device. It is an object of the present invention to provide an IP communication system and an IP communication method.

  In order to solve the above-described problems, an IP communication system according to the present invention is an IP communication system that realizes communication with a terminal for a network other than an IP network (for example, an ISDN network) on the IP network, An IP connection device that receives data from a terminal and extracts a frame, a call processing device that establishes and releases a call, and a packet transfer device that performs packet transfer, the IP connection device connected to the terminal Each of the IP connection device, the call processing device, and the packet transfer device, when transmitting the data between these devices, from a subscriber line number and a subscriber line channel associated with the data, It has an IP interface unit for specifying and transmitting an IP address of a device as a transmission destination.

  Also, in the IP communication system according to the present invention, the IP interface unit, when the IP address of the device as the transmission destination is associated in advance with the pair of the subscriber line number and the subscriber line channel Is characterized in that the IP address is specified from the subscriber line number and the subscriber line channel.

  Further, in the IP communication system according to the present invention, the IP interface unit, when the IP address of the device as the transmission destination is associated with the subscriber line number in advance, the subscriber line number. The IP address is specified from the above.

  In the IP communication system according to the present invention, the IP interface unit may specify a fixed IP address when the subscriber line number and the subscriber line channel are not associated with an IP address in advance. Features.

  Also, in the IP communication system according to the present invention, the IP connection device stores a correspondence between a subscriber line number and a subscriber line number, and based on the correspondence, a subscriber is determined from a subscriber line number of data received from the terminal. The means for identifying the line number and the DPD data received from the terminal, extracting the LAPD frame, determining the service access point identifier, and indicating that the service access point identifier is a call control signal procedure In this case, if the service access point identifier indicates a packet communication procedure, the means for transmitting to the packet transfer device and the B channel data from the terminal are transmitted to the call processing device. Means for receiving and extracting a LAPB frame and transmitting it to a packet transfer apparatus.

  Further, in the IP communication system according to the present invention, the call processing device records a correspondence of data relating to communication for continuing call establishment in order to distinguish a received signal from a signal of another communication that has already been accepted. When the LAPD frame is received from the IP connection device, the Q.D. 931 signal is extracted. 931 means for identifying the message type of the signal, means for establishing and releasing the call based on the identified message, and storing the number of simultaneously communicable for each call type that can be processed, And means for controlling so as not to exceed.

  Also, in the IP communication system according to the present invention, the IP connection device periodically records usage information regarding bearers used for communication, and the call processing device is configured to communicate the IP connection device for communication during call establishment. Means for determining whether there is an abnormality by transmitting an inquiry notification together with the contractor line number and the B channel number.

  Furthermore, an IP communication method according to the present invention is an IP communication method for realizing communication with a terminal for a network other than the IP network (for example, an ISDN network) on the IP network, comprising: (a) an IP connection device, a call A step of connecting a processing device and a packet transfer device over an IP network; (b) receiving data from the terminal by the IP connection device and extracting a frame; and (c) calling a call by the call processing device. A step of establishing and releasing a call; (d) a step of transferring a packet by the packet transfer device; and (e) each of the IP connection device, the call processing device, and the packet transfer device. When the data is transmitted between them, the IP interface unit sends the IP of the device as the transmission destination from the subscriber line number and the subscriber line channel associated with the data. Characterized in that it comprises the steps of transmitting by specifying the address.

  The IP communication method according to the present invention further includes (f) storing a correspondence between a subscriber line number and a subscriber line number by the IP connection device, and a subscriber of data received from the terminal based on the correspondence. Identifying the subscriber line number from the line number; and (g) receiving the D channel data from the terminal by the IP connection device, extracting the LAPD frame, determining the service access point identifier, and determining the service access When the point identifier indicates a call control signal procedure, the packet is transmitted to the call processing device. When the service access point identifier indicates a packet communication procedure, the packet transfer device And (h) receiving the B channel data from the terminal by the IP connection device and transmitting the LAPB frame Extracting and transmitting to the packet transfer device; and (i) correspondence of data relating to communication for continuing call establishment in order to distinguish the received signal from other communication signals already received by the call processing device. And (j) receiving a LAPD frame from the IP connection device by the call processing device and performing Q.Q. 931 signal is extracted. Identifying the message type of the 931 signal, establishing a call and releasing the call based on the identified message, and (k) storing the number of simultaneously communicable for each call type that can be processed by the call processing device And (l) storing, by the packet transfer device, resources usable for packet communication with each subscriber line number as user subscriber information by the packet transfer device, And (m) receiving a LAPB or LAPD frame from the IP connection device by the packet transfer device and receiving the X. 25 layer 3 signal is extracted, And transmitting a 25 layer 3 signal to the other packet transfer apparatus.

  According to the present invention, it is possible to improve the processing performance of a system including an IP connection device, a call processing device, and a packet transfer device corresponding to a conventional IP conversion device, and to reduce development and maintenance costs.

1 is a configuration diagram of an IP communication system according to the present invention. It is a block diagram of the IP connection apparatus by this invention. It is a block diagram of the packet transfer apparatus by this invention. It is a block diagram of the call processing apparatus by this invention. It is a sequence diagram at the time of transmitting data from a user to a network direction in the system of the present invention. It is a sequence diagram at the time of cutting | disconnecting packet communication in the system of this invention. It is a figure explaining the information which the IP connection apparatus by this invention, a call processing apparatus, and a packet transfer apparatus records.

  The IP communication system according to the present invention terminates layers 1 to 3 of the ISDN user / network interface. 25 layer 3 signals are converted into IP packets and routed on the IP network. Description of the IP packetization method will be omitted because the conventional technology is applied, and a system that separates the control system and the transfer system, which is a characteristic part of the present invention, will be described below with reference to the drawings. .

  First, the configuration of the IP communication system according to the present invention will be described.

[System configuration]
FIG. 1 is a configuration diagram of an IP communication system according to the present invention. The IP communication system includes an IP connection device 10, a packet transfer device 20, and a call processing device 30. The IP connection device 10, the packet transfer device 20, and the call processing device 30 are connected by an IP network. The IP connection device 10 is connected to a TE (ISDN terminal device) 40, and the packet transfer device 20 is connected to another packet transfer device 21.

  The IP connection apparatus 10 receives data from the TE 40, performs LAPB core processing (frame extraction / error detection) on B channel data, and LAPD core processing (frame extraction / error detection) on D channel data. Detection). The packet transfer device 20 secures resources and performs packet communication with other packet transfer devices 2n. The call processing device 30 establishes a call and releases the call.

  Next, the configuration of the IP connection device 10, the packet transfer device 20, and the call processing device 30 will be described.

[Configuration of IP connection device]
FIG. 2 is a configuration diagram of the IP connection device 10 according to the present invention. The IP connection apparatus 10 includes a front processing unit 101, a bearer switch unit 102, a bearer information collection unit 103, and an IP interface unit 104.

  The front processing unit 101 terminates layer 1 of the basic / primary group speed user / tuna interface with the TE 40, and receives the subscriber line number (1-n) and the channel (B channel number or D channel). ). Subsequently, based on the correspondence between the subscriber line number stored in advance and the subscriber line number, the subscriber line number is identified from the subscriber line number (FIG. 7A).

  Further, when the front processing unit 101 receives D channel data from the TE 40, the front processing unit 101 performs LAPD core processing (frame extraction and error detection), and for the extracted LAPD frame, a service access point identifier (SAPI) in the address field and terminal termination A point identifier (TEI) is determined. SAPI is an identifier for identifying whether data flowing on a channel is a control signal or a packet, and TEI is an identifier for distinguishing when a plurality of terminals are connected to the DSU. Subsequently, the front processing unit 101 determines the SAPI value, and if the call control signal procedure (SAPI = 0), the call processing device 30 together with the subscriber line number and the SAPI and TEI of the subscriber line channel. To the call control unit 301. On the other hand, in the case of the packet communication procedure (SAPI = 16), it has a function of transmitting to the packet control unit 203 of the packet transfer device 20 together with the subscriber line number and the SAPI and TEI of the subscriber line channel.

  When receiving the switch setting notification from the call control unit 301 of the call processing device 30, the bearer switch unit 102 records the contractor line number and the B channel number received simultaneously as a pair (FIG. 7B). . When a switch release notification is received from the call control unit 301, it has a function of deleting from the record a pair of subscriber line number and B channel number received simultaneously.

  Also, the bearer switch unit 102, for the data received from the front processing unit 101, a pair of the subscriber line number and the B channel number of the subscriber line channel received at the same time is already recorded in the bearer switch unit 102 To accept. The received data is subjected to LAPB core processing (frame extraction / error detection), and the extracted LAPB frame is transmitted to the packet control unit 203 of the packet transfer apparatus 20 together with the subscriber line number and the B channel number of the subscriber line channel. Has the function of

  The bearer information collection unit 103 has a function of periodically recording usage information regarding bearers recorded by the bearer switch unit 102 and used for communication. The usage information includes, for example, the packet type, transmission / reception direction, packet data amount, communication time, no communication time, and the like (FIG. 7C).

  The IP interface unit 104 has a function of connecting the IP connection device 10 to the packet transfer device 20 and the call processing device 30 via the IP network.

[Configuration of packet transfer device]
FIG. 3 is a configuration diagram of the packet transfer apparatus 20. The packet transfer apparatus 20 includes an IP interface unit 201, an outgoing / incoming control unit 202, a packet control unit 203, and an IP interface unit 204.

  The IP interface unit 201 connects the packet transfer device 20 to the IP connection device 10 and the call processing device 30 via the IP network.

  The outgoing / incoming call control unit 202 has a function of preliminarily storing, as user subscriber information, resources that can be used for packet communication with each subscriber line number. The resources that can be used for packet communication are, for example, the number of channels that can be simultaneously communicated and the channel number that can be communicated for the B channel, and the terminal endpoint identifier (TEI) that can be simultaneously communicated for the D channel. The TEI is communicable with respect to the number and TE 40 (FIG. 7D).

  Upon receipt of the resource reservation notification from the call control unit 301 or the packet control unit 203 of the packet call processing device 30, the outgoing / incoming control unit 202 identifies the resource of the target user from the subscriber line number received at the same time, and at the same time It has a function of determining whether the received resource information can be secured by checking the resource. When reservation is possible, resource information is used and reflected in the resource of the target user, and the notification of acceptance is received together with the contractor line number and resource information, and the source of the resource reservation notification is the call control unit 301 Is sent to the call control unit 301, and the packet control unit 203 transmits the resource reservation notification source to the packet control unit 203. On the other hand, if it cannot be secured, a notification indicating that acceptance is not possible is transmitted to the call control unit 301 or the packet control unit 203 together with the contractor line number and the resource information.

  The packet control unit 203 identifies the LAPB and the LAPD from the subscriber line channel simultaneously received with respect to the LAPB (Link Access Procedure-Balanced) frame or LAPD (Link Access Procedure on the D-channel) frame received from the IP connection device 10. And has a function of performing protocol termination of LAPB or LAPD, respectively.

  In addition, the packet control unit 203 reads the X. 25 layer 3 signal is extracted, and the extracted X.25 layer 3 signal is extracted. It has a function of transmitting a 25 layer 3 signal to the packet control unit 303 of another packet transfer apparatus 2n.

  The IP interface unit 204 has a function of connecting the packet transfer device 20 to another packet transfer device 2n via the IP network.

[Configuration of Call Processing Device]
FIG. 4 is a configuration diagram of the call processing device 30. The call processing device 30 includes a call control unit 301, a scenario management unit 302, a bearer information reference unit 303, and an IP interface unit 304.

  The call control unit 301 distinguishes between a received signal and a signal of another communication that has already been accepted, for example, data relating to communication for which call establishment is continued, such as a subscriber line number, TEI, call number, B channel number, and communication destination It has a function of recording correspondences such as addresses (FIG. 7E). This record (management table) refers to and updates the same information not only in packet communication but also in line communication such as telephone.

  The call control unit 301 has a function of performing LAPD protocol termination on the LAPD frame transmitted from the front processing unit 101 of the IP connection apparatus 10. At this time, the Q. 931 signal is extracted. It has a function of identifying the common part call number and message type for the 931 signal. If the call number is not the call setup message (SETUP) but matches the call number used in the already accepted communication, the signal is accepted to continue the call processing. If the message is SETUP, the transmission capability of the individual unit is identified. If the message is in the packet mode, the signal is accepted and call establishment is started.

  Q. When releasing the call based on the 931 signal, the call control unit 301 notifies the bearer switch unit 102 of the IP connection device 10 of the switch release notification together with the contractor line number and the B channel number being used in the call.

  The scenario management unit 302 has a function of storing in advance the number of simultaneously communicable for each call type that can be processed in the call processing device 30 (FIG. 7 (f)). The call type is, for example, B channel packet transmission or packet reception. The number of simultaneously communicable is the number of communications that can be managed simultaneously in a certain time unit. Further, the subscriber line number of the subscriber accommodated for each IP connection device 10 connected to the call processing device 30 is stored in advance.

  The bearer information reference unit 303 periodically transmits an inquiry notification together with the subscriber line number and the B channel number to the bearer information collection unit 103 of the IP connection device 10 for the communication during the call establishment, and the response notification is received for a certain time. If there is no communication or the non-communication time in the received reply notification exceeds a certain time, it has a function of notifying the call control unit 301 of an abnormality together with the subscriber line number and the B channel number.

  The IP interface unit 304 has a function of connecting the call processing device 30 to the IP connection device 10 and the packet transfer device 20 via the IP network.

  The IP interface unit 104 of the IP connection device 10, the IP interface unit 201 of the packet transfer device 20, and the IP interface unit 304 of the call processing device 30 are connected to each other between the IP connection device 10, the packet transfer device 20, and the call processing device 30. When the data is transmitted by IP, the function has a function of specifying and transmitting the IP address of the transmission destination device from the subscriber line number and the subscriber line channel associated with the data.

  For example, when the IP address of the device as the transmission destination is associated in advance with the pair of the subscriber line number and the subscriber line channel, the IP from the subscriber line number and the subscriber line channel Identify the address.

  Further, when the IP address of the transmission destination device is associated with the contractor line number in advance, the IP address is specified from the contractor line number.

  Further, when the subscriber line number and the subscriber line channel are not associated with an IP address in advance, the subscriber line number is specified by a fixed IP address.

  When data is transmitted between the packet transfer apparatuses by IP, the destination packet transfer apparatus 2n is connected to the X.X. It has a function of specifying from the destination address information of the 25 layer 3 signal. For example, a translator is built in the IP interface unit 204 of the packet transfer apparatus, or a DNS (Domain Name System) is constructed in the communication carrier network, and a DNS access function is built in the IP interface unit 204 to make an ENUM (Telephone Number Mapping). Is used to identify the IP address of the destination packet transfer apparatus 21 from the destination address information.

  Depending on the destination address information, the destination IP address identified by a packet transfer device 20 may be the own packet transfer device 20. In this case, the data needs to be internally folded by the IP interface unit 204 of the packet transfer apparatus 20.

  Next, the operation (IP communication method) of the IP communication system of the present invention will be described.

[IP communication method]
In the IP communication method, the IP connection device 10, the call processing device 30 and the packet transfer device 20 are connected by an IP network, the IP connection device 10 receives data from the TE 40, extracts a frame, and the call processing device 30 Call establishment and call release are performed, and packet transfer is performed by the packet transfer apparatus 20.

  When each of the IP connection device, the call processing device, and the packet transfer device transmits the data between these devices, the IP interface unit 104 of the IP connection device 10 and the IP interface unit 201 of the packet transfer device 20 Then, the IP interface unit 304 of the call processing device 30 specifies and transmits the IP address of the transmission destination device from the subscriber line number and the subscriber line channel associated with the data.

  The front processing unit 101 stores the correspondence between the subscriber line number and the subscriber line number, and identifies the subscriber line number from the subscriber line number of the data received from the terminal based on the correspondence.

  Further, the front processing unit 101 receives D channel data from the TE 40, extracts the LAPD frame, determines the SAPI and TEI, and if the call control signal procedure (SAPI = 0), the call control unit If it is a packet communication procedure (SAPI = 16), it is transmitted to the packet control unit 203.

  The bearer switch unit 102 receives B channel data from the TE 40, extracts a LAPB frame, and transmits the LAPB frame to the packet transfer apparatus 20.

  The call control unit 301 records the correspondence of data related to communication for which call establishment is continued in order to distinguish the received signal from the signal of another communication that has already been accepted.

  Further, the call control unit 301 receives the LAPD frame from the IP connection device 10 and transmits the Q.D. 931 signal is extracted. The message type of the 931 signal is identified, and the call is established and the call is released based on the identified message.

  Further, the call processing device 30 stores the number of simultaneously communicable for each call type that can be processed, and controls so as not to exceed the simultaneous communicable number.

  The outgoing / incoming control unit 202 stores, as user subscriber information, resources that can be used for packet communication with each subscriber line number. Based on the resource information received from the TE 40 and the stored resources, Release resources.

  When the packet control unit 203 receives a LAPB or LAPD frame from the IP connection apparatus 10, 25 layer 3 signal is extracted, A 25 layer 3 signal is transmitted to the other packet transfer apparatus 2n.

  Next, a sequence when data is transmitted from the user in the network direction will be described.

[Sequence when sending data from the user to the network]
FIG. 5 is a sequence diagram when data is transmitted from the user in the network direction. When the front processing unit 101 receives D channel data from the TE 40 (S501), the front processing unit 101 performs LAPD core processing and identifies the SAPI and TEI for the extracted LAPD frame.

  If the SAPI value is determined and the call control signal procedure (SAPI = 0), it is transmitted to the call control unit 301 together with the subscriber line number and the SAPI and TEI of the subscriber line channel (S502). On the other hand, if it is a packet communication procedure (SAPI = 16), it is transmitted to the packet control unit 203 together with the subscriber line number and the SAPI and TEI of the subscriber line channel.

  As described above, the call control unit 301 is connected to the Q.P. extracted from the LAPD frame transmitted from the front processing unit 101. The common part call number and message type are identified for the 931 signal. When it is SETUP, the transmission capability of the individual unit is identified. When it is in the packet mode, the signal is accepted and call establishment is started. Hereinafter, the description of the sequence will be continued for the case where the call establishment is started.

  Q. When a call is established using the 931 signal, a call establishment notification is transmitted to the scenario management unit 302 together with the contractor line number (S503).

  As described above, the scenario management unit 302 stores in advance the number of simultaneously communicable for each call type that can be processed and the subscriber line number of the subscriber accommodated for each IP connection device 10 connected to the call processing device 30. ing. As for the call establishment notification (S503) received from the call control unit 301, the subscriber line number is identified, and 1 is subtracted from the number of simultaneously communicable calls of the corresponding call type. The data is transmitted to the control unit 301 (S504).

  For example, if the contractor line number matches the line number of the contractor accommodated in the IP connection device 10 connected to the call processing device 30, it is determined that the B channel is transmitted, and if not, it is determined that the packet is received. is there. If the number of simultaneously communicable calls of a certain call type is 0, the call establishment notification received thereafter is not accepted. When a call release notification is received from the call control unit 301, the subscriber line number is identified, and 1 is added to the number of simultaneously communicable calls of the corresponding call type.

  Upon receiving the acceptance notification from the scenario management unit 302 (S504), the call control unit 301 transmits a resource reservation notification together with the contractor line number and resource information to the outgoing / incoming control unit 202 (S505). Here, the resource information refers to channel information that is desired to be used in a call and information related to the use status of a channel that includes the line side with reference to a record of data related to communication that continues call establishment (FIG. 7 (e)).

  Upon receiving a resource reservation notification from the call control unit 301 (S505), the outgoing / incoming call control unit 202 identifies the target user's resource from the contractor line number received at the same time, and the resource information received at the same time includes the resource information Judge whether it can be secured by checking. If it can be secured, it is reflected in the resource of the target user, and a notification of acceptance is transmitted to the call control unit 301 together with the contractor line number and the resource information (S506).

  When the call control unit 301 receives a notification of acceptance from the outgoing / incoming control unit 202 (S506), the switch setting notification is sent to the bearer switch unit of the IP connection device 10 together with the contractor line number and the B channel number used in the call. 102 (S507) and call establishment is continued.

  When receiving the switch setting notification from the call control unit 301 (S507), the bearer switch unit 102 transmits a switch setting acceptance notification to the call control unit 301 (S508).

  When the call control unit 301 receives a switch setting acceptance notification from the bearer switch unit 102 (S508), the Q.Q. A call setting acceptance message (CALLPROC; call proceeding) of 931 signal is transmitted to the front processing unit 101 (S509).

  When the front processing unit 101 receives CALLPROC from the call control unit 301 (S509), the front processing unit 101 sets Q.L. The 931 signal CALLPROC is set and transmitted to the TE 40 (S510).

  Subsequently, the call control unit 301 sends the Q. A response message (CONN; connect) of the 931 signal is transmitted (S511). When the front processing unit 101 receives the message, the Q. The CONN of the 931 signal is set and transmitted to the TE 40 (S512).

  The TE 40 receives Q.Q. When the CONN of the 931 signal is received, the Q. A 931 signal response confirmation message (CONNACK; connect acknowledge) is set and transmitted to the front processing unit 101 (S513).

  When the front processing unit 101 receives the LAPD frame from the TE 40, the front processing unit 101 determines the SAPI value. In this case, since it is a call control signal procedure (SAPI = 0), the front processing unit 101 transmits it to the call control unit 301 (S514).

  Thereafter, the TE 40 transmits data to the front processing unit 101 (S515). In the case of the B channel, a set asynchronous balanced mode (SABM) command is set in the control field of the LAPB frame.

  When receiving the B channel data from the TE 40, the front processing unit 101 transmits the data to the bearer switch unit 102 together with the subscriber line number and the B channel number of the subscriber line channel (S516).

  When the bearer switch unit 102 receives the B channel data from the front processing unit 101 (S516), the pair of the subscriber line number and the B channel number of the subscriber line channel received at the same time becomes the bearer switch unit 102. To determine if it has already been recorded, and accept if it has already been recorded. LAPB core processing is performed on the received data, and the extracted LAPB frame is transmitted to the packet control unit 203 of the packet transfer apparatus 20 together with the subscriber line number and the B channel number of the subscriber line channel (S517).

  Upon receiving the SABM command (S517), the packet control unit 203 sets an unnumbered acknowledgment (UA) response in the control field of the LAPB frame, and the bearer switch unit 102 and the front processing unit 101 set the LAPB frame. Is transmitted to the TE 40 via (steps S518 to S520).

  Thereafter, the packet control unit 203 performs X. A 25 signal restart indication (SI) is transmitted to the TE 40 via the bearer switch unit 102 (S521, 522).

  TE40 is an X. When the SI of 25 signals is received, X. The 25 signal restart confirmation (SF) is transmitted to the packet control unit 203 (S523, 524).

  Subsequently, TE40 is X. A call request (CR) of 25 signals is transmitted to the other packet transfer apparatus 2n via the bearer switch unit 102 and the packet control unit 203 (S525 to 527).

  X. The packet transfer apparatus 2n that receives the CR of 25 signals transmits the X.25 signal CR. 25 signal connection completion (CC; call connected) is transmitted to the TE 40 via the packet control unit 203 and the bearer switch unit 102 (S528 to S530).

  Thereafter, bucket communication is performed. The packet control unit 203 reads the X.X from the information field of the received LAPB or LAPD frame. 25 layer 3 signal is extracted, and the extracted X.25 layer 3 signal is extracted. The 25 layer 3 signal is transmitted to the packet control unit of any one of the packet transfer apparatuses 2n (S531).

  The bearer information reference unit 303 periodically transmits an inquiry notification together with the contractor line number and the B channel number to the bearer information collection unit 103 for communication during call establishment (S532).

  When there is a status inquiry notification from the bearer information reference unit 303 (S532), the bearer information collection unit 103 identifies the contractor line number and the B channel number, and extracts the corresponding usage information from the recorded usage information. It transmits to the bearer information reference part 303 (S533).

  The bearer information reference unit 303, when the reply notification from the bearer information collection unit 103 (S533) does not arrive for a certain time or when the no-communication time in the received reply notification exceeds a certain time, The call controller 301 is notified of the abnormality together with the number and the B channel number.

  The above-described sequence is a case where the TE 40 transmits B channel data in S515, but when the TE 40 transmits D channel data, a SABME (Set Asynchronous Balanced Mode Extended) command is displayed in the control field of the LAPD frame. Set to operate in extended asynchronous balanced mode. In this case, since SAPI = 16, the front processing unit 101 transmits to the packet control unit 203 together with the subscriber line number and the SAPI and TEI of the subscriber line channel.

  The packet control unit 203 transmits a resource reservation notification to the outgoing / incoming control unit 202 together with the subscriber line number and the resource information (SAPI and TEI of the subscriber line channel) when setting the link by the LAPD SABME command.

  When receiving a resource reservation notification from the packet control unit 203, the transmission / reception control unit 202 identifies the resource of the target user from the contractor line number received at the same time, and the resource information received at the same time includes the resource information Judge whether it can be secured by checking. If it can be secured, it is reflected in the resource of the target user, and a notification of acceptance is transmitted to the packet control unit 203 together with the contractor line number and the resource information.

  When the packet control unit 203 receives the acceptance result by the processing of the outgoing / incoming call control unit 202, the packet control unit 203 continues the link setting.

  In the bucket communication in S531, the packet control unit 203 uses the information field of the received LAPD frame from the X.X. 25 layer 3 signal is extracted, and the extracted X.25 layer 3 signal is extracted. The 25 layer 3 signal is transmitted to the packet control unit of any one of the packet transfer apparatuses 2n (S531).

  Next, a sequence for disconnecting packet communication will be described.

[Sequence when packet communication is disconnected]
FIG. 6 is a sequence diagram when the packet communication is disconnected. After the data transfer, the TE 40 passes through the front processing unit 101, the bearer switch unit 102, and the packet control unit 203 through the X.X. A restoration request (CQ; clear request) is transmitted to one of the packet transfer apparatuses 2n using the 25 signal (S601 to 604).

  X. The packet transfer apparatus 2n that has received the CQ of 25 signals transmits the X.X signal via the packet control unit 203, the bearer switch unit 102, and the front processing unit 101. A restoration confirmation (CF; clear confirmation) is transmitted to the TE 40 by the 25 signal (S605 to 608).

  The TE 40 sets a disconnect (DISC) command in the control field of the LAPB frame in order to release the link on the B channel, and transmits the command to the packet control unit 203 via the front processing unit 101 and the bearer switch unit 102. (S609-611).

  When receiving the disconnect command, the packet control unit 203 sets an unnumbered acknowledgment (UA) response in the control field of the LAPB frame, and transmits it to the TE 40 via the bearer switch unit 102 and the front processing unit 101. (S518).

  Next, in order to release the layer 2 link, the TE 40 sets a disconnect (DISC) command in the control field of the LAPD frame, and transmits it to the call control unit 301 via the front processing unit 101 (S615, S616). ).

  The call control unit 301 receives the Q.D. 931 signal is extracted. When the DISC of the 931 signal is received (S616), Q.D. A 931 signal release complete (RELCOMP; release complete) message is transmitted to the TE 40 via the front processing unit 101 (S617, S618).

  Q. When releasing the call based on the 931 signal, the call control unit 301 notifies the bearer switch unit 102 of the switch release notification together with the subscriber line number and the B channel number being used in the call (S619). In addition, a resource release notification is transmitted to the outgoing / incoming call control unit 202 together with the subscriber line number and resource information (B channel number being used in the call) (S620). Further, a call release notification is transmitted to the scenario management unit 302 together with the contractor line number (S621). Then, the call control unit 301 deletes the correspondence between the contracted subscriber line number, TEI, call number, and B channel number that has been held for the released communication from the record (FIG. 7 (e)).

  Further, as described in the sequence in FIG. 5, the bearer information reference unit 303 does not receive the reply notification (S533) from the bearer information collection unit 103 for a certain period of time, or the constant no-communication time in the received reply notification. When the time is exceeded, the call control unit 301 is notified of the abnormality together with the contractor line number and the B channel number. In this case, the call control unit 301 also determines the contractor line number, the B channel number, And release the call as described above.

  The above-described sequence is a case where the link on the B channel is released in S609, but when the link on the D channel is released, a disconnect (DISC) command is set in the control field of the LAPD frame.

  When the link is disconnected by the LAPD DISC command, the packet control unit 203 transmits a resource release notification together with the subscriber line number and the resource information (SAPI and TEI of the subscriber line channel) to the outgoing / incoming control unit 202.

  When receiving a resource release notification from the packet control unit 203, the transmission / reception control unit 202 first identifies the resource of the target user from the contractor line number received at the same time. Next, the resource information received at the same time is reflected in the resource of the target user, as the use of the resource information is terminated.

  Next, an operation when data is transmitted from the network in the user direction will be described.

[Operation when sending data from network to user]
The layer termination form, protocol termination form, and data structure follow the transmission from the user to the network direction, and the X.B between the packet forwarding apparatus 20 and another packet forwarding apparatus 2n. In conjunction with transmission / reception of the 25 layer 3 signal, a call control signal for packet communication and B channel data are transmitted.

  When transmitting data from the network to the user, Q. Call setting / call release by the 931 signal is performed from the call control unit 301 to the TE 40. Then, the management of the resources for each subscriber line number is performed by the transmission / reception control unit 202, and the bearer switch setting is recorded and deleted by the bearer switch unit 102 based on the notification from the call control unit 301, respectively. And

  Each of the above-described embodiments has been described as a representative example, but many changes and substitutions can be made within the spirit and scope of the present invention, and each embodiment can be combined to realize another embodiment. It will be apparent to those skilled in the art that Therefore, the present invention should not be construed as being limited by the above-described embodiments, and various modifications and changes can be made without departing from the scope of the claims.

  For example, the front processing unit 101 of the IP connection apparatus 10 can perform LAPD (SAP1 = 0) protocol termination. In this case, the Q.D. The 931 signal is extracted and transmitted to the call control unit 301 of the call processing device 30 together with the contract line number and the SAP1 and TE1 of the subscriber line channel. For example, LAPD (Q.921) is protocol-converted to IUA (ISDN User Adaptation), and Q.A. There are methods such as transferring 931 signals. The call processing device 30 receives the received Q.Q. The above-described processing is performed on the 931 signal.

  In addition, the IP connection device 10 may have the function of the bearer information reference unit 303. In this case, if the reply notification from the bearer information collection unit 103 does not arrive for a certain period of time or if the no-communication time in the received reply notification exceeds a certain period of time, the abnormality notice is sent to the subscriber line number. And the B channel number are transmitted to the call control unit 301 of the call processing device 30.

  Further, in the above-described embodiment, the IP communication system that realizes ISDN packet communication on the IP network has been described. However, the ISDN voice communication can be performed on the IP network by using the IP connection device 10 and the call processing device 30. Can be realized. Then, by sharing this system for packet communication and voice communication and consolidating call processing, the number of installed systems can be reduced and the equipment introduction cost can be reduced.

  As described above, according to the present invention, ISDN communication can be realized on the IP line, which is useful for any application for performing ISDN communication on the IP line.

10 IP connection device 20 packet transfer device 30 call processing device 40 TE (ISDN terminal device)
DESCRIPTION OF SYMBOLS 101 Front processing part 102 Bearer switch part 103 Bearer information collection part 104 IP interface part 201 IP interface part 202 Transmission / reception control part 203 Packet control part 204 IP interface part 301 Call control part 302 Scenario management part 303 Bearer information reference part 304 IP interface Part

Claims (10)

An IP communication system that realizes communication with a terminal for a network other than the IP network on the IP network,
An IP connection device that receives data from the terminal and performs frame extraction;
A call processing device for establishing and releasing a call;
A packet transfer device that performs packet transfer,
The IP connection device is connected to the terminal, the IP connection device, the call processing device and the packet transfer device are connected to each other via an IP network, and the packet transfer device is connected to another packet transfer device via an IP network. ,
When each of the IP connection device, the call processing device, and the packet transfer device transmits the data between these devices, the destination is determined from the subscriber line number and the subscriber line channel associated with the data. An IP communication system comprising: an IP interface unit that specifies and transmits an IP address of the device.   When the IP address of the device as the transmission destination is associated in advance with the pair of the subscriber line number and the subscriber line channel, the IP interface unit and the subscriber line number and subscriber The IP communication system according to claim 1, wherein an IP address is specified from a line channel.   The IP interface unit specifies an IP address from the contractor line number when the IP address of the device as the transmission destination is associated with the contractor line number in advance. The IP communication system according to claim 1.   2. The IP according to claim 1, wherein the IP interface unit specifies a fixed IP address when the subscriber line number and the subscriber line channel are not associated with an IP address in advance. Communications system. The IP connection device stores a correspondence between the subscriber line number and the subscriber line number, and based on the correspondence, means for identifying the subscriber line number from the subscriber line number of the data received from the terminal;
D channel data is received from the terminal, an LAPD frame is extracted, a service access point identifier is determined, and if the service access point identifier indicates a call control signal procedure, it is transmitted to the call processing device. If the service access point identifier indicates a packet communication procedure, means for transmitting to the packet transfer device;
Means for receiving B channel data from the terminal, extracting a LAPB frame, and transmitting it to a packet transfer device;
The IP communication system according to any one of claims 1 to 4, further comprising: The call processing device records a correspondence of data related to communication for continuing call establishment in order to distinguish a received signal from a signal of another communication that has already been accepted;
When the LAPD frame is received from the IP connection device, the Q.D. 931 signal is extracted. Means for identifying the message type of the 931 signal; means for establishing and releasing a call based on the identified message;
Means for storing the number of simultaneously communicable for each call type that can be processed, and controlling so as not to exceed the simultaneous communicable number;
The IP communication system according to any one of claims 1 to 5, further comprising: The packet transfer device stores, as user subscriber information, resources that can be used for packet communication with each subscriber line number. Based on the resource information received from the terminal and the stored resources, resource reservation and resource A means of releasing
When a LAPB or LAPD frame is received from the IP connection device, X. 25 layer 3 signal is extracted, Means for transmitting a 25 layer 3 signal to the other packet transfer device;
The IP communication system according to any one of claims 1 to 6, further comprising:   The IP connection device periodically records usage information regarding bearers used for communication, and the call processing device inquires the IP connection device together with a subscriber line number and a B channel number for communication during call establishment. The IP communication system according to any one of claims 1 to 7, further comprising means for determining the presence or absence of an abnormality by transmitting a notification. An IP communication method for realizing communication with a terminal for a network other than the IP network on the IP network,
(A) connecting the IP connection device, the call processing device, and the packet transfer device with an IP network;
(B) receiving data from the terminal by the IP connection device and performing frame extraction;
(C) establishing a call and releasing the call by the call processing device;
(D) performing packet transfer by the packet transfer device;
(E) When each of the IP connection device, the call processing device, and the packet transfer device transmits the data between these devices, the IP interface unit and the contractor line number associated with the data Identifying and transmitting the IP address of the device to be transmitted from the subscriber line channel;
An IP communication method comprising: And (f) storing a correspondence between the subscriber line number and the subscriber line number by the IP connection device, and identifying the subscriber line number from the subscriber line number of the data received from the terminal based on the correspondence. When,
(G) The IP connection apparatus receives D-channel data from the terminal, extracts a LAPD frame, determines a service access point identifier, and indicates that the service access point identifier is a call control signal procedure. If the service access point identifier indicates a packet communication procedure, the step of transmitting to the packet transfer device,
(H) receiving the B channel data from the terminal by the IP connection device, extracting a LAPB frame, and transmitting the LAPB frame to the packet transfer device;
(I) recording a correspondence of data related to communication for continuing call establishment in order to distinguish a received signal from a signal of another communication already accepted by the call processing device;
(J) The LAPD frame is received from the IP connection device by the call processing device, and the Q.D. 931 signal is extracted. Identifying the message type of the 931 signal and establishing a call and releasing the call based on the identified message;
(K) storing the number of simultaneously communicable for each call type that can be processed by the call processing device, and controlling so as not to exceed the simultaneous communicable number;
(L) The packet transfer device stores, as user subscriber information, resources that can be used for packet communication with each subscriber line number. Based on the resource information received from the terminal and the stored resources, Securing and releasing resources;
(M) The packet transfer device receives a LAPB or LAPD frame from the IP connection device and receives the X. 25 layer 3 signal is extracted, Transmitting a 25 layer 3 signal to the other packet transfer device;
The IP communication method according to claim 9, further comprising:

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