JP4898603B2 - Communication apparatus and communication method - Google Patents

Description

  The present invention relates to a technique for establishing a session with a communication partner via an IP network.

  Next-generation network that replaces the current public network by integrating the IP network for the Internet service and the telephone network for the telephone service, which are currently constructed separately, as an IP network with improved quality assurance (QoS) and security. (NGN) has been proposed. A feature that NGN should have is end-to-end quality assurance. For this purpose, the NGN performs band control within the IP network to stabilize service quality. A quality class is designated by the INVITE message transmitted from the communication apparatus, and the edge router in the IP network secures the bandwidth of the session established by this INVITE message according to the designated quality class.

As a quality class designation method, it is conceivable to use SDP (Session Description Protocol) information included in the body part of the INVITE message. For example, a method of designating a quality class by describing type m indicating a media type such as voice, video, data, etc. and type a indicating a communication direction such as one-way or two-way is conceivable.
"What is NGN? [Next Generation Network]-Meaning and Explanation: IT Glossary", [online], [Search August 7, 2007], Internet <URL: http://e-words.jp/w/ NGN.html> "What is Next Generation Network (NGN)?" | Next Generation Network (NGN) Field Trial | NTT East], [online], [Search August 7, 2007], Internet <URL: http://www.ntt -east.co.jp/ngn-trial/about/index.html>

  By the way, in the communication service by NGN, it seems that the service fee becomes higher as the session is based on the higher quality class. On the other hand, as described above, in the NGN, a quality class is designated by an INVITE message transmitted from a communication device, and an edge router in the IP network follows the designated quality class and the session established by this INVITE message. Reserve bandwidth. Here, the communication device is assumed to be configured to specify a quality class determined by the type of the communication device (telephone, TV phone, data terminal, etc.) and receive a communication service with the specified quality class. It is. For example, when the communication device is a TV phone, it is assumed that a higher quality class (type m: video, audio, type a: bidirectional) is designated and a TV phone service is received with this quality class. It is. However, for example, there is a case where it is desired to prioritize the charge over the quality for a videophone call to a friend or the like.

  This invention is made | formed in view of the said situation, and the objective of this invention is providing the technique which can receive communication service by arbitrary quality classes.

  In order to solve the above-described problem, in the present invention, a calling communication device accepts specification of a quality class related to an IP network when making a call, and sends an INVITE message accompanied by the specification of the accepted quality class to an NGN or the like. It transmits to the SIP server on the IP network. The called communication device then sends 200 OK to the source of the INVITE message received from the SIP server on this IP network, and establishes a session between the calling communication device and the called communication device. .

For example, the present invention is a communication device that establishes a session with a communication partner via an IP network according to SIP,
Quality class accepting means for accepting designation of a quality class for the IP network when making a call to the communication partner;
Sending a first INVITE message to the SIP server on the IP network with a designation of the quality class received by the quality class receiving means to the SIP server on the IP network, and a session with the communication partner Session processing means for establishing
When a session is established with the communication partner by the first INVITE message, a second INVITE message with the communication partner on the called side, accompanied by a designation necessary for predetermined communication, Setting information sharing means for transmitting to the communication partner and sharing the setting information necessary for the predetermined communication with the communication partner;
Communication processing for performing the predetermined communication with the communication partner through a session established with the communication partner by the first INVITE message according to the setting information shared with the communication partner by the setting information sharing means Means .

Further, the present invention is a communication device for establishing a session with a communication partner via an IP network according to SIP,
Session processing means for transmitting a 200 OK to the communication partner that is the transmission source of the first INVITE message received from the SIP server on the IP network and establishing a session with the communication partner;
When a session is established with the communication partner by the first INVITE message, a second INVITE message with a designation necessary for predetermined communication is received from the communication partner, and the predetermined Setting information sharing means for sharing setting information necessary for communication with the communication partner;
Communication processing for performing the predetermined communication with the communication partner through a session established with the communication partner by the first INVITE message according to the setting information shared with the communication partner by the setting information sharing means Means.

  According to the present invention, the specification of the quality class applied to the IP network is accepted at the time of outgoing call, and the session is established by the INVITE message accompanied by the specification of the accepted quality class, so the communication service is received with an arbitrary quality class. be able to.

  Also, in the present invention, the originating communication device sends an INVITE message with a designation required for predetermined communication directly to the called communication partner without going through the SIP server on the IP network after the session is established. If transmitted, the INVITE message designating a quality class other than the quality class originally assumed for the predetermined communication includes the information that is not guaranteed to pass through the SIP server on the IP network. Setting information necessary for predetermined communication can be shared between the device and the communication device on the called side.

Embodiments of the present invention will be described below.
[First embodiment]
FIG. 1 is a schematic diagram of a communication system to which the first embodiment of the present invention is applied.

  As shown in the figure, the communication system of the present embodiment is configured by connecting a communication device 3 to an IP network 1 via a termination device 2 such as an ONU (Optical Network Unit).

  The IP network 1 is a quality-guaranteed IP network 1 such as NGN, and an edge router (not shown) in the IP network 1 follows the quality class specified by the INVITE message, and the session established by this INVITE message. Reserve bandwidth. Although not shown, an existing SIP terminal, SIP server, edge router, etc. other than the communication device 3 are connected to the IP network 1.

  The communication device 3 is a SIP terminal corresponding to the IP network 1, and the quality class specified by the user or the quality class determined according to the type of the own communication device (telephone, TV phone, data terminal, etc.) This is specified using SDP information included in the body part of the INVITE message. In the present embodiment, the quality class is designated by a combination of type m indicating the media type such as audio, video, data, etc. and type a indicating the communication direction such as one-way or two-way. May be included in the body part of the INVITE message.

  FIG. 2 is a schematic diagram of the communication device 3.

  As shown in the figure, the communication device 3 includes a LAN interface unit 31, an MM interface unit 32, a session processing unit 33, a communication processing unit 34, a quality class receiving unit 35, a quality class display unit 36, and setting information. And a sharing unit 37.

  The LAN interface unit 31 is an interface for connecting to a LAN. The communication device 3 is connected to the IP network 1 via the termination device 2 connected to this LAN.

  The MM interface unit 32 is a man-machine interface including a handset (speaker, microphone), a display panel such as an LCD, an operation panel such as dial keys and function keys, and a video camera. The MM interface unit 32 outputs the audio data and video data received from the communication processing unit 34 from the speaker of the handset and the display panel, respectively. Further, the MM interface unit 32 passes the audio data and video data output from the handset microphone and the video camera to the communication processing unit 34, respectively.

  The session processing unit 33 performs call control processing according to SIP (Session Initiation Protocol) to establish a session with the communication partner.

  The communication processing unit 34 transmits and receives communication data via the session established with the communication partner by the session processing unit 33. As illustrated, the communication processing unit 34 includes an RTP processing unit 341, an encoding processing unit 342, and an input / output control unit 343.

  In accordance with RTP (Realtime Transport Protocol), the RTP processing unit 341 extracts communication data from the RTP packet received from the communication partner via the session, and passes the communication data to the encoding processing unit 342. In addition, the communication data received from the encoding processing unit 342 is stored in the RTP packet and transmitted to the communication partner via the session.

  The encoding processing unit 342 performs decoding processing on the communication data received from the RTP processing unit 341, restores media data such as audio data and video data, and passes this to the input / output control unit 343. In addition, the encoding processing unit 342 performs encoding processing on the media data received from the input / output control unit 343 to generate communication data, and passes this to the RTP processing unit 341.

  The input / output control unit 343 passes the media data received from the encoding processing unit 342 to the MM interface unit 32. Further, the media data received from the MM interface unit 32 is transferred to the encoding processing unit 342.

  The quality class reception unit 35 receives a quality class designation from the user via the operation panel of the MM interface unit 32. Here, the designation of the quality class may be accepted by a dedicated key provided on the operation panel, or the designation of the quality class may be accepted by inputting a predetermined dial number string (special number). Then, the received quality class is notified to the session processing unit 33.

  In the present embodiment, four quality classes of quality class 1 (highest priority), quality class 2 (high priority), quality class 3 (priority), and quality class 4 (best effort) are assumed in order from the top. ing. The combinations of the delay / fluctuation magnitude corresponding to each quality class, the description of the type m of the SDP information, and the description of the type a are as shown in FIG. Here, reference numeral 351 is a quality class, reference numeral 352 is the magnitude of delay / fluctuation, reference numeral 353 is a description of type m of SDP information, and reference numeral 354 is a description of type a of SDP information.

  The quality class display unit 36 displays the quality class designated by the INVITE message transmitted to the communication partner by the session processing unit 33 or received from the communication partner on the display panel on the MM interface unit 32.

  The setting information sharing unit 37 directly exchanges the INVITE message with the communication partner with which the session has been established with the own communication device 3 without going through the SIP server on the IP network 1. Information (encoding method type, etc.) necessary for predetermined communication (IP phone etc.) to be performed is shared with this communication partner.

  FIG. 4 is a flowchart for explaining the calling process of the communication device 3. This flow starts when the MM interface unit 32 receives a transmission instruction such as off-hook from the user.

  If the quality class receiving unit 35 receives a quality class designation from the user via the operation panel of the MM interface unit 32 (YES in S101), the quality class receiving unit 35 notifies the session processing unit 33 of the quality class. If the session processing unit 33 receives the quality class from the quality class receiving unit 35 and then receives dial information of the communication partner from the user via the operation panel of the MM interface unit 32 (YES in S102), the session processing unit 33 proceeds to S104. . On the other hand, when the communication class dial information is received from the user via the operation panel of the MM interface unit 32 without being notified of the quality class from the quality class reception unit 35 (YES in S103), the process proceeds to S115.

  In S104, the session processing unit 33 includes the description of the type m and type a of the SDP information indicating the quality class notified from the quality class reception unit 35, and the dial information received from the MM interface unit 32 is the destination IP telephone number. Then, a SIP packet including the first INVITE message with the IP telephone number of the communication apparatus 3 as the connection source IP telephone number is generated. Then, the SIP packet is notified to the LAN interface unit 31.

  In response to this, the LAN interface unit 31 stores the SIP packet 331 storing the first INVITE message 330 in the UDP packet 332 as shown in FIG. The IP address is stored in an IP packet 333 having a destination address of a predetermined SIP server on the network 1. Then, the IP packet 333 is stored in the LAN frame and transmitted to the terminating device 2 (S105). FIG. 5A illustrates the case where “priority” is designated as the quality class.

  Next, if the session processing unit 33 receives a 200 OK response from the communication partner via the LAN interface unit 31 (OK in S106), the process proceeds to S107. If a BUSY response is received from the communication partner (BUSY at S106), a predetermined incomplete call process (S114) is performed and this flow is terminated. If an ERROR response is received from the communication partner (ERROR in S106), the communication partner may not correspond to the quality class specified in the first INVITE message. In this case, the process proceeds to S115.

  In S107, the session processing unit 33 acquires the address of the communication partner from the 200 OK response and establishes a session with the communication partner.

  After the session is established, the setting information sharing unit 37 controls the session processing unit 33 to set the dial information received from the MM interface unit 32 as the connection destination IP phone number and the IP phone number of the own communication device 3 as the connection source. A SIP packet including a second INVITE message that is an IP telephone number is generated. This SIP packet indicates the description of the type m and type a of the SDP information indicating the predetermined quality class supported by the own communication device 3, and information (encoding method etc.) necessary for the communication processing in the communication processing unit 34. A description of SDP information. Then, the SIP packet is notified from the session processing unit 33 to the LAN interface unit 31 (S108).

  In response to this, the LAN interface unit 31 stores the SIP packet 335 storing the second INVITE message 334 in the UDP packet 336 as shown in FIG. 5B, and further transmits the UDP packet 336 to the communication. The IP address is stored in the IP packet 337 having the destination address as the destination address. Then, the IP packet 337 is stored in the LAN frame and transmitted to the terminating device 2 (S109). In FIG. 5B, “highest priority” is designated as the default quality class, and G. The case where 711 is designated is illustrated.

  Next, when the session processing unit 33 receives a 200 OK response from the communication partner via the LAN interface unit 31 (OK in S110), the session processing unit 33 notifies the setting information sharing unit 37 to that effect and proceeds to S111. On the other hand, if a predetermined time has passed without receiving a 200 OK response from the communication partner (TIME OUT in S110), a BYE message is transmitted to the communication partner via the LAN interface unit 31, and the session established in S107 is disconnected. (S113). Thereafter, this flow is terminated.

  In S111, the setting information sharing unit 37 sets information (for example, encoding method) necessary for the communication process described in the SDP information of the second INVITE message 334 in the communication processing unit 34 (for example, the encoding processing unit 342). . Then, the communication processing unit 34 starts communication processing using the session established in S107.

  Thereby, the communication processing unit 34 extracts the communication data from the RTP packet received from the communication partner via the session by the RTP processing unit 341, and performs a decoding process on the communication data by the encoding processing unit 342, Restore media data. Then, if the restored media data is audio data, the input / output control unit 343 outputs it from the speaker of the MM interface unit 32, and if it is video data, displays it on the display panel of the MM interface unit 32. Further, the communication processing unit 34 receives media data from the MM interface unit 32 by the input / output control unit 343, and performs encoding processing on the media data by the encoding processing unit 342 to generate communication data. Then, the communication data is stored in the RTP packet by the RTP processing unit 341 and transmitted to the communication partner via the session.

  Further, the quality class display unit 36 follows the instruction received from the user via the MM interface unit 32, and the quality class specified by the first INVITE message 330 and the quality specified by the second INVITE message 334. At least one of the classes is displayed on the display panel of the MM interface unit 32 (S112).

  In S115, the session processing unit 33 uses the dial information received from the MM interface unit 32 as the connection destination IP phone number and the second INVITE using the IP phone number of the own communication device 3 as the connection source IP phone number. A SIP packet including the message is generated. This SIP packet indicates the description of the type m and type a of the SDP information indicating the predetermined quality class supported by the own communication device 3, and information (encoding method etc.) necessary for the communication processing in the communication processing unit 34. A description of SDP information. Then, the SIP packet is notified to the LAN interface unit 31.

  In response to this, the LAN interface unit 31 stores the SIP packet 338 storing the second INVITE message 334 in the UDP packet 339 as shown in FIG. 5C, and further stores the UDP packet 339 into the IP packet 339. The packet is stored in an IP packet 340 having the address of a predetermined SIP server on the network 1 as a destination address. Then, the IP packet 340 is stored in the LAN frame and transmitted to the terminating device 2 (S116). In FIG. 5C, “top priority” is designated as the default quality class, and G. The case where 711 is designated is illustrated.

  Next, if the session processing unit 33 receives a 200 OK response from the communication partner via the LAN interface unit 31 (OK in S117), the process proceeds to S118. On the other hand, if a BUSY response or an ERROR response is received from the communication partner (BUSY / ERROR in S106), predetermined incomplete call processing (S114) is performed and this flow is terminated.

  In S118, the session processing unit 33 establishes a session with the communication partner. After the session is established, the setting information sharing unit 37 sets information (for example, encoding method) necessary for the communication process described in the SDP information of the second INVITE message 334 in the communication processing unit 34 (for example, the encoding processing unit 342). To do. Then, the communication processing unit 34 starts communication processing using the session established in S118 (S119).

  The quality class display unit 36 displays the quality class specified by the second INVITE message 334 on the display panel of the MM interface unit 32 (S120).

  FIG. 6 is a flowchart for explaining the incoming call processing of the communication device 3. This flow starts when an INVITE message (corresponding to the first INVITE message) arrives from the IP network 1 to the session processing unit 33 via the LAN interface unit 31 to the communication partner whose session has not been established. To do.

  First, the session processing unit 33 checks whether or not the quality class specified by the INVITE message is a predetermined quality class corresponding to the communication apparatus 3 (S201).

  If the quality class specified in this INVITE message is the default quality class (YES in S201), the session processing unit 33 causes the communication processing unit 34 (for example, the encoding processing unit 342) to include the SDP information in this INVITE message. It is further examined whether or not the information (for example, encoding method) required for the communication processing described is supported (S202).

  When the communication processing unit 34 does not correspond to the information necessary for the communication processing described in the SDP information of the INVITE message (NO in S202), the session processing unit 33 is specified by the transmission source address of the INVITE message. An ERROR response is transmitted to the communication partner (S206), and this flow ends.

  On the other hand, when the communication processing unit 34 corresponds to the information necessary for the communication processing described in the SDP information of this INVITE message (YES in S202), the session processing unit 33 uses the transmission source address of this INVITE message. A 200 OK response is transmitted to the specified communication partner, and a session is established with this communication partner (S203).

  After the session is established, the setting information sharing unit 37 sends information (for example, encoding method) necessary for the communication process described in the SDP information of the INVITE message to the communication processing unit 34 (for example, the encoding processing unit 342). Set. Then, the communication processing unit 34 is caused to start communication processing using the session established in S203 (S204).

  Further, the quality class display unit 36 displays the quality class designated by the INVITE message on the display panel of the MM interface unit 32 (S205).

  On the other hand, if the quality class specified in this INVITE message is not the default quality class in S201 (NO in S201), the session processing unit 33 sends a 200 OK response to the communication partner specified by the source address of this INVITE message. To establish a session with this communication partner (S207). Then, it waits for a new INVITE message (corresponding to the second INVITE message) from this communication partner (S208, S209).

  If a new INVITE message has not arrived within a predetermined time (YES in S209), the session established in S207 is disconnected (S215), and this flow is terminated. On the other hand, when a new INVITE message is received within a predetermined time (YES in S208), the session processing unit 33 is described in the SDP information of the new INVITE message by the communication processing unit 34 (for example, the encoding processing unit 342). It is further checked whether or not it corresponds to information (for example, encoding method) necessary for the communication processing being performed (S210).

  When the communication processing unit 34 does not correspond to the information necessary for the communication processing described in the SDP information of the new INVITE message (NO in S210), the session processing unit 33 transmits an ERROR response to the communication partner ( Thereafter, the session established in S207 is disconnected (S215), and this flow is terminated.

  On the other hand, when the communication processing unit 34 supports information necessary for communication processing described in the SDP information of the new INVITE message (YES in S210), the session processing unit 33 transmits a 200 OK response to the communication partner. (S211). Thereafter, the setting information sharing unit 37 sets information (for example, encoding method) necessary for the communication process described in the SDP information of the new INVITE message in the communication processing unit 34 (for example, the encoding processing unit 342). . Then, the communication processing unit 34 starts communication processing using the session established in S207 (S212).

  Further, the quality class display unit 36 follows at least one of the quality class specified by the first INVITE message and the quality class specified by the new INVITE message in accordance with the instruction received from the user via the MM interface unit 32. Is displayed on the display panel of the MM interface unit 32 (S213).

  FIG. 7 is a diagram showing an example of an operation sequence of the communication system shown in FIG. Here, reference numeral 6 denotes a SIP server on the IP network 1.

  After the off-hook, for example, the communication device “A” 3 receives the designation of the quality class “priority” and the dial information of the communication device “B” 3 (S301), the communication device “A” 3 designates the quality class “priority”. A first INVITE message destined for “B” 3 is transmitted (S302). In this INVITE message, the IP address of the communication device “B” 3 is specified by the SIP server 6, and the communication device “B” 3 having the IP address is reached (S303).

  Upon receiving the first INVITE message, the communication device “B” 3 transmits a 200 OK response via the SIP server 6 to the communication device “A” 3 that is the transmission source of this message (S 304). Thereby, a session of quality class “priority” is established between the communication device “A” 3 and the communication device “B” 3 (S305).

  After the session is established, the communication device “A” 3 specifies the default quality class “highest priority” supported by the communication device, describes information necessary for the communication processing of the communication device, and is specified by the SIP server 6. The second INVITE message destined for the IP address of the communication device “B” 3 is transmitted (S306). This second INVITE message reaches the communication device “B” 3 directly without going through the SIP server 6.

  When the communication device “B” 3 receives the second INVITE message, the quality class specified in the second INVITE message is a predetermined quality class corresponding to the own communication device, and the own communication device Confirms that it corresponds to the information required for the communication processing described in the second INVITE message, and sends the SIP server 6 to the communication device “A” 3 that is the transmission source of the second INVITE message. A 200 OK response is transmitted without going through (S307).

  As a result, information necessary for the communication process described in the second INVITE message is set in each of the communication device “A” 3 and the communication device “B” 3 (S308, S309). Accordingly, communication (IP telephone) using the established session is started between the communication device “A” 3 and the communication device “B” 3 (S310).

  The first embodiment of the present invention has been described above.

  According to the present embodiment, the communication device 3 accepts designation of a quality class at the time of making a call, and establishes a session by a first INVITE message that designates the accepted quality class. For this reason, it is possible to receive a communication service with an arbitrary quality class.

  In the present embodiment, the originating communication device 3 designates a predetermined quality class to which the own communication device corresponds, and describes the information necessary for the communication processing to which the own communication device 3 corresponds. The INVITE message is directly transmitted to the communication device 3 on the called side without going through the SIP server on the IP network 1 after the session is established. On the other hand, if the communication device 3 on the called side corresponds to the quality class specified in the second INVITE message and the information necessary for the communication processing described in this message, A 200 OK message is transmitted to the communication device 3.

  In this way, the first INVITE message that specifies a quality class other than the default quality class originally assumed by a predetermined communication (for example, an IP phone) may pass through the SIP server on the IP network 1. Even in the case of non-guaranteed information, information (for example, encoding method) necessary for this predetermined communication between the originating communication device 3 and the called communication device 3 by the second INVITE message that does not pass through the SIP server. Can be shared. In this embodiment, since the INVITE message is used to share information necessary for the predetermined communication, it is not necessary to employ a special protocol for information sharing.

  In the present embodiment, when the communication device 3 receives an ERROR response from the communication partner as a response to the first INVITE message, the communication device 3 transmits the second INVITE message to the SIP server on the IP network 1. Establish a session with the communication partner. By doing in this way, even when the communication partner is a SIP terminal (for example, an existing IP telephone) other than the communication device 3 according to the present embodiment, a session can be established with the communication partner.

In the present embodiment, the communication device 3 displays at least one of the quality classes designated by the first INVITE message and the second INVITE message. In this way, the user can be informed of the quality class of the session being established or the quality class originally assumed for the ongoing communication.
[Second Embodiment]
FIG. 8 is a schematic diagram of a communication system to which the second embodiment of the present invention is applied. Here, components having the same functions as those in the first embodiment shown in FIG.

  As shown in the figure, the communication system of the present embodiment is configured by connecting a communication device 4 that accommodates an analog telephone 5 to an IP network 1.

  The communication device 4 is a SIP terminal compatible with the IP network 1 and has a quality class designated by the user of the analog telephone 5 or a quality class corresponding to the analog telephone 5 (quality class that should be originally applied to the telephone service). And SDP information included in the body part of the INVITE message. Similarly to the first embodiment, the present embodiment also has a quality class based on a combination of type m indicating media type such as voice, video, data, etc. and type a indicating communication direction such as one-way or two-way. However, a tag indicating the quality class may be included in the body part of the INVITE message.

  FIG. 9 is a schematic diagram of the communication device 4. Here, components having the same functions as those of the first embodiment shown in FIG.

  As shown in the figure, the communication device 4 according to the present embodiment includes an IP network interface unit 41, an analog telephone interface unit 42, a session processing unit 33, a communication processing unit 34, a quality class receiving unit 45, a quality class. A notification unit 46 and a setting information sharing unit 37 are provided.

  The IP network interface unit 41 is an interface for connecting to the IP network 1. The IP network interface unit 41 analyzes the IP packet received from the IP network 1, and when the SIP packet is stored in this IP packet, the SIP packet is passed to the session processing unit 33, and the RTP packet is stored. If it is, the RTP packet is passed to the communication processing unit 34. Further, the SIP packet received from the session processing unit 33 and the RTP packet received from the communication processing unit 34 are respectively stored in IP packets and transmitted to the IP network 1.

  The analog telephone interface unit 42 is an interface for connecting to the analog telephone 5. The analog telephone interface unit 42 passes the call control signal received from the analog telephone 5 to the session processing unit 33 and passes the call signal received from the analog telephone 5 to the communication processing unit 34. Further, a predetermined dial number string (special number) received from the analog telephone 5 is passed to the quality class reception unit 45. In addition, the analog telephone interface unit 42 passes the call control signal received from the session processing unit 33 and the call signal received from the communication processing unit 34 to the analog telephone 5.

  The quality class receiving unit 45 specifies a predetermined quality class according to the dialed number string received from the analog telephone interface unit 42 and notifies the session processing unit 33 of the quality class. In this embodiment as well, as in the first embodiment, quality class 1 (highest priority), quality class 2 (high priority), quality class 3 (priority), and quality class 4 are arranged in order from the top. Four quality classes (best effort) are assumed (see FIG. 3).

  The quality class notification unit 46 sends the notification signal of the quality class specified by the INVITE message transmitted to or received from the communication partner by the session processing unit 33 to the analog telephone 5 via the analog telephone interface unit 42. Notice. The quality class notification signal may be an audio signal or a signal for displaying the quality class on the display panel of the analog telephone 5.

  As described above, the communication device 3 according to the first embodiment includes the MM interface unit 32, whereas the communication device 4 according to the present embodiment includes an analog telephone interface unit that accommodates the analog telephone 5. 42 is installed. Except for the difference in operation associated with this point, the outgoing call process and incoming call process of the communication device 4 of this embodiment are the same as the outgoing call process and incoming call process of the communication process 3 of the first embodiment shown in FIGS. Basically the same.

  FIG. 10 is a diagram showing an example of an operation sequence of the communication system shown in FIG. Here, reference numeral 6 denotes a SIP server on the IP network 1.

  When the analog telephone “a” 5 is off-hooked by the user, the analog telephone “a” 5 transmits an off-hook signal to the communication device “A” 4 that accommodates the analog telephone “a” 5. Thereafter, the analog telephone “a” 5 transmits a special number indicating the quality class received from the user and dial information indicating the telephone number of the communication device “B” 4 to the communication device “A” 4 (S401).

  In response to this, the communication device “A” 4 designates the quality class “priority” previously associated with the special number received from the analog telephone “a” 5, and the communication device “B” 4 is the destination. One INVITE message is transmitted (S402). In the first INVITE message, the IP address of the communication device “B” 4 is specified by the SIP server 6, and the communication device “B” 4 having the IP address is reached (S403).

  When the communication device “B” 4 receives the first INVITE message, the communication device “B” 4 notifies the analog telephone “b” 5 accommodated by the own communication device of the quality class specified in the first INVITE message. The analog telephone “b” 5 is called (S404). When the analog telephone “b” 5 is off-hooked by the user, the analog telephone “b” 5 transmits an off-hook signal to the communication device “B” 4 (S405).

  When receiving the off-hook signal from the analog telephone “b” 5, the communication device “B” 4 transmits a 200 OK response via the SIP server 6 to the communication device “A” 4 that is the transmission source of the first INVITE message ( S406).

  Upon receiving the 200 OK response from the communication device “B” 4, the communication device “A” 4 notifies the analog telephone “a” 5 of the quality class specified by the first INVITE message, and responds (S 407). As a result, a session is established between the analog telephone “a” 5 and the analog telephone “b” 5 (S408 to S410). Here, a session of quality class “priority” is established between the communication device “A” 4 and the communication device “B” 4 (S409).

  After the session is established, the communication device “A” 4 specifies the default quality class “highest priority” supported by the communication device, describes information necessary for communication processing of the communication device, and is specified by the SIP server 6. The second INVITE message destined for the IP address of the communication device “B” 4 is transmitted (S411). The second INVITE message directly reaches the communication device “B” 4 without going through the SIP server 6.

  When the communication device “B” 4 receives the second INVITE message, the quality class specified in the second INVITE message is a default quality class corresponding to the own communication device, and the own communication device It confirms that it corresponds to the information required for the communication process described in the second INVITE message, and connects the SIP server 6 to the communication device “A” 4 that is the transmission source of the second INVITE message. A 200 OK response is transmitted without going through (S412).

  As a result, information necessary for the communication process described in the second INVITE message is set in each of the communication device “A” 4 and the communication device “B” 4 (S413, S414). Accordingly, communication (telephone) using the established session is started between the communication device “A” 4 and the communication device “B” 4 (S415 to S417). Here, the IP telephone is started between the communication device “A” 4 and the communication device “B” 4 (S416).

  The second embodiment of the present invention has been described above.

  According to the present embodiment, the analog telephone 5 accommodated in the communication device 4 can be used to obtain the same effect as in the first embodiment.

  In this embodiment, the analog telephone 5 is accommodated in the communication device 4, but an IP telephone may be accommodated instead of the analog telephone 5. In this case, an IP telephone interface unit is mounted instead of the analog telephone interface unit 42. Further, the quality class reception by the quality class reception unit 45 is performed when the quality class reception unit 45 receives a pressing signal of a predetermined multifunction button provided on the IP telephone, for example, via the IP telephone interface unit. It may be.

  Further, the communication device 4 of the present embodiment may be provided with a display panel and a quality class display unit that displays on the display panel at least one of the quality classes specified by the first and second INVITE messages. Good.

  The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the gist. For example, the configuration of the communication apparatus may be executed by an integrated logic IC such as ASIC (Application Specific Integrated Circuit), FPGA (Field Programmable Gate Array), or DSP (Digital Signal Process). It may be executed by software by a computer such as a personal computer.

  In each of the above embodiments, the information (eg, encoding method) required for predetermined communication is shared between the originating communication device and the called communication device using the second INVITE message. Yes. However, the present invention is not limited to this. For example, information necessary for predetermined communication may be shared between the originating communication device and the called communication device using a special communication protocol.

FIG. 1 is a schematic diagram of a communication system to which the first embodiment of the present invention is applied. FIG. 2 is a schematic diagram of the communication device 3. FIG. 3 is a diagram for explaining the quality class. FIG. 4 is a flowchart for explaining the calling process of the communication device 3. FIGS. 5A to 5C are diagrams for explaining a configuration example of an IP packet storing an INVITE message. FIG. 6 is a flowchart for explaining the incoming call processing of the communication device 3. FIG. 7 is a diagram showing an example of an operation sequence of the communication system shown in FIG. FIG. 8 is a schematic diagram of a communication system to which the second embodiment of the present invention is applied. FIG. 9 is a schematic diagram of the communication device 4. FIG. 10 is a diagram showing an example of an operation sequence of the communication system shown in FIG.

Explanation of symbols

  1: IP network, 2: terminating device, 3: communication device, 4: communication device, 5: analog telephone, 6: SIP server, 31: LAN interface unit, 32: MM interface unit, 33: S session processing unit, 34 : Communication processing unit, 35: Quality class reception unit, 36: Quality class display unit, 37: Setting information sharing unit, 41: IP network interface unit, 42: Analog telephone interface unit, 45: Quality class reception unit, 46: Quality Class notification unit, 341: RTP processing unit, 342: encoding processing unit, 343: input / output control unit

Claims (9)

A communication device that establishes a session with a communication partner via an IP network according to SIP,
Quality class accepting means for accepting designation of a quality class for the IP network when making a call to the communication partner;
Sending a first INVITE message to the SIP server on the IP network with a designation of the quality class received by the quality class receiving means to the SIP server on the IP network, and a session with the communication partner Session processing means for establishing
When a session is established with the communication partner by the first INVITE message, a second INVITE message with the communication partner on the called side, accompanied by a designation necessary for predetermined communication, Setting information sharing means for transmitting to the communication partner and sharing the setting information necessary for the predetermined communication with the communication partner;
Communication processing for performing the predetermined communication with the communication partner through a session established with the communication partner by the first INVITE message according to the setting information shared with the communication partner by the setting information sharing means communication device, comprising: the means. The communication device according to claim 1 ,
The session processing means includes:
When a predetermined error message is received from the communication partner as a response to the first INVITE message, the second INVITE message is transmitted to a SIP server on the IP network, and between the communication partner A communication apparatus for establishing a session. The communication device according to claim 1 or 2 ,
The communication apparatus further comprising quality class display means for displaying a quality class designated by the first INVITE message. The communication device according to any one of claims 1 to 3 ,
A connection means for connecting a telephone;
The quality class receiving means includes
A communication apparatus, wherein a predetermined special number or predetermined button press information received together with a call from the telephone connected to the connection means to the communication partner is received as a quality class designation. The communication device according to claim 4 ,
A communication apparatus, further comprising: a quality class notification unit that notifies the telephone set connected to the connection unit of the quality class specified in the first INVITE message. A communication device that establishes a session with a communication partner via an IP network according to SIP,
Session processing means for transmitting a 200 OK to the communication partner that is the transmission source of the first INVITE message received from the SIP server on the IP network and establishing a session with the communication partner;
When a session is established with the communication partner by the first INVITE message, a second INVITE message with a designation necessary for predetermined communication is received from the communication partner, and the predetermined Setting information sharing means for sharing setting information necessary for communication with the communication partner;
Communication processing for performing the predetermined communication with the communication partner through a session established with the communication partner by the first INVITE message according to the setting information shared with the communication partner by the setting information sharing means And a communication device. The communication device according to claim 6 ,
A communication apparatus, further comprising: a quality class display means for displaying a quality class related to the IP network designated by the first INVITE message. The communication device according to claim 6 or 7 ,
A connection means for connecting a telephone;
A communication apparatus, further comprising: a quality class notification unit that notifies the telephone set connected to the connection unit of the quality class specified in the first INVITE message. A communication method for establishing a session via an IP network in accordance with SIP,
The originating communication device accepts the designation of the quality class for the IP network when making a call, and sends a first INVITE message with the designation of the accepted quality class to the SIP server on the IP network,
The called communication device transmits 200 OK to the transmission source of the first INVITE message received from the SIP server on the IP network, and a session is established between the calling communication device and the called communication device. to establish a,
The destination communication device with a designation required for predetermined communication when a session is established between the source communication device and the destination communication device by the first INVITE message A second INVITE message with the callee as the callee is transmitted from the caller communication device to the callee communication device, and the setting information necessary for the predetermined communication is transmitted to the caller communication device and the callee as described above. Share with the communication device on the called side,
Established between the calling communication device and the called communication device by the first INVITE message according to the setting information shared between the calling communication device and the called communication device The communication method , wherein the predetermined communication is performed between the calling communication device and the called communication device via a session .

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