JP5844713B2 - SIP server - Google Patents

Description

  The present invention relates to a SIP server, and more particularly to a technology that enables a large number of communications.

  The Next Generation Network (NGN) is a network that realizes multimedia services compliant with IMS (IP Multimedia Subsystem). A call processing function unit called a Call Session Control Function) and a resource management unit called a RACS (Resource and Admission Control Subsystem).

JP 2011-166237 A

In the SIP server, the call processing function unit receives the SDP information on the SIP signal from the terminal that is newly starting communication in the NGN, and indicates the bandwidth used in the communication based on the media information in the SDP information. Generate control instruction information.

  The resource management unit of the SIP server manages the upper limit bandwidth and the used bandwidth for each section of the NGN, adds the bandwidth indicated in the control instruction information to the used bandwidth of the corresponding section, If it does not exceed the upper limit bandwidth of the corresponding section, new communication is started, and if it exceeds, control is performed so that new communication is not started.

  For example, in the event of a disaster, a large number of voice communications for the purpose of safety confirmation etc. will be newly started, but due to the large number of communications, after a while, the bandwidth in use will be the upper limit bandwidth It will reach near and will not be able to carry out further communication. Therefore, it is of course impossible to confirm the safety of communications that cannot be performed, and an inconvenient situation arises.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a SIP server capable of performing a large number of communications.

In order to solve the above problems, the present invention is a SIP server that performs communication control in a network that handles communication between a plurality of terminals, and uses a bandwidth that is newly started in the network A call processing function unit that generates control instruction information indicating the upper limit bandwidth and the bandwidth in use for each section of the network, and the bandwidth indicated in the control instruction information is used for the corresponding section. If the value added to the middle bandwidth does not exceed the upper limit bandwidth of the corresponding section, the new communication is started. On the other hand, if it exceeds, the resource is controlled so that the new communication is not started. The call processing function unit describes bandwidth information indicating a desired bandwidth for each of one or more media from the terminal that is about to start the new communication. It receives SDP information including media information, the each bandwidth information in the media information so that the total bandwidth is reduced, and, as bandwidth corresponding to the bandwidth information of the at least one media is reduced The rewritten control instruction information is generated.

For example, the call processing function unit, the bandwidth information of the at least one media, Ru rewrite the bandwidth information indicating the bandwidth predetermined in a fixed manner.

For example, the bandwidth is determined in a stepwise manner so that the larger the ratio of the number of calls being processed to the number of calls that can be processed by the SIP server, the smaller the bandwidth is. and Ru rewrite the bandwidth information indicating a predetermined bandwidth for the ratio of the number of calls in progress for the processable number of calls of the SIP server.

  ADVANTAGE OF THE INVENTION According to this invention, the SIP server which can implement many communication can be provided.

It is a figure which shows the outline | summary of the negotiation by the SIP signal via the SIP server 1 which concerns on this Embodiment. It is a figure which shows the process outline | summary in the SIP server. It is a figure which shows the outline | summary of the virtual path management in the resource management part. It is a figure which shows an example in case new communication is not started. It is a figure which shows operation | movement of Example 1 of the SIP server. It is a figure which shows operation | movement of Example 2 of the SIP server. It is a figure which shows the response | compatibility to SDP information by a call processing function part.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a diagram showing an outline of negotiation by a SIP signal via a SIP server according to the present embodiment.

  Terminals 101 and 102 are two terminals among many terminals that communicate on a network such as NGN, and establish a SIP session and try to perform a new communication via the SIP session. In this case, NGN or the like is a network responsible for communication between a plurality of terminals.

  When starting communication (voice communication, video communication, etc.), the terminals 101 and 102 negotiate via the SIP server 1 using the SIP signal and SDP (Session Description Protocol) information on the SIP signal. To do. As a result, a SIP session is established between the terminals 101 and 102, and communication becomes possible.

  The SDP information includes media information (not shown) indicating the type of media (such as audio and video) used for communication, the codec used, the bandwidth used for communication, the direction attribute, and the like.

  FIG. 2 is a diagram showing an outline of processing in the SIP server 1.

  In the SIP server 1, for example, the call processing function unit 11 and the resource management unit 12 cooperate with each other based on the SIP signal (SIP A) received from the terminal that made the call request and the SDP information (SDP B) therein. Connection determination and resource management are performed to establish a SIP session.

  The call processing function unit 11 that has received the SIP signal generates control instruction information necessary for resource management based on the media information included in the SDP information after a series of signal processing / connection determinations, and uses this as the resource management unit. 12 and a control instruction.

  The resource management unit 12 performs bandwidth control using this control instruction information. That is, the resource management unit 12 determines whether or not to perform new communication based on the control instruction information and the virtual path (details will be described later), and secures a bandwidth when performing new communication. Then, the resource management unit 12 responds such a processing result to the call processing function unit 11.

  The call processing function unit 11 shapes the SIP signal based on the processing result, and forwards or returns the SIP signal to the target node or terminal.

  FIG. 3 is a diagram showing an outline of virtual path management in the resource management unit 12.

  The resource management unit 12 virtually manages the route information on the communication network, the upper limit bandwidth, the bandwidth in use, and the like as virtual paths in advance for each section.

  The resource management unit 12 determines which section is used by the communication path to be established between the terminals and what priority is used.

  Further, the resource management unit 12 performs the new communication when the value obtained by adding the bandwidth indicated in the control instruction information to the bandwidth in use in the corresponding section does not exceed the upper limit bandwidth of the corresponding section. On the other hand, if it exceeds, control is performed so that the new communication is not started.

  For example, in the section 2a, voice communication and video communication by the terminal A are performed, and voice communication by the terminal B is also performed. Therefore, in the virtual path of section 2a, there are a bandwidth 11a used for voice communication by terminal A, a bandwidth 11b used for voice communication by terminal B, and a bandwidth 12a used for video communication by terminal A. Managed. Further, in the virtual path of the section 2a, an upper limit bandwidth 21 by voice, an upper limit bandwidth 22 other than audio such as video, and a total upper limit bandwidth 23 are also managed.

  FIG. 4 is a diagram illustrating an example of a case where new communication is not started.

  In FIG. 4, it is assumed that the terminals B to X are communicating by voice. Thereby, in the section 2a, the bandwidth used in the voice communication is substantially equal to the upper limit bandwidth of the voice communication. Here, the terminal A transmits a call request for voice communication to the SIP server 1. The call processing function unit 11 transmits control instruction information indicating the bandwidth used in the voice communication to the resource management unit 12.

  When the bandwidth indicated in the control instruction information is added to the bandwidth in use of the voice in the section 2a, the resource management unit 12 exceeds the upper limit bandwidth 21 of the voice in the section 2a, and thus starts a new communication. The call processing function unit 11 is notified of the processing result indicating that there is no bandwidth necessary for the processing. As a result, the call processing function unit 11 transmits to the terminal A an NG response indicating that communication cannot be started immediately.

  Note that, as the communication between the terminals B to X is gradually ended, so-called remaining bandwidth increases, so that there is a possibility that the terminal A can perform communication if it performs a re-transmission after a certain time.

(Example 1)
FIG. 5 is a diagram illustrating the operation of the SIP server 1 according to the first embodiment.

  In the first embodiment, the call processing function unit 11 determines the connection between a terminal (not shown), which transmits a call request, and a partner terminal (not shown, hereinafter referred to as a partner terminal). Do. Further, the call processing function unit 11 generates control instruction information by rewriting each bandwidth information described in the media information of the SDP information received from the calling terminal so that the total bandwidth is reduced.

  The resource management unit 12 manages the upper limit bandwidth and the bandwidth in use for each section of the network such as NGN, and uses the bandwidth indicated in the control instruction information received from the call processing function unit 11 for the corresponding section. When the value added to the middle bandwidth does not exceed the upper limit bandwidth of the corresponding section, the new communication is started. On the other hand, the control is performed so that the new communication is not started.

  The call processing function unit 11 of the SIP server 1 receives the SDP information by a SIP INVITE signal, which is a SIP signal, when making a call request from the calling terminal. The SDP information includes, for example, information (referred to as media information) describing bandwidth information for three media (communication types). The three pieces of bandwidth information are, for example, bandwidth information of Audio1, G.711, bandwidth 64, bandwidth information of Audio2, Codec_A2, bandwidth 100, and bandwidth information of Video1, Codec_V1, bandwidth 1000.

  Audio indicates that the media belongs to audio communication.

  Video indicates that the media belongs to video communication.

  That is, the media information in this example indicates that the calling terminal requests to communicate with the partner terminal using two audio communications and one video communication.

  1 such as Audio1 or Video1 is an identifier in media belonging to audio communication or video communication.

  G.711, Codec_A2, and Codec_V1 indicate codecs used in communication.

  Bands 64, 100 and 1000 of band 64, band 100 and band 1000 indicate the bandwidth used by the corresponding media. 64 is, for example, a value indicating 64 kbps (kilobit per second).

  When the call processing function unit 11 receives the SDP information including such media information, the call processing function unit 11 generates control instruction information by rewriting each bandwidth information described in the media information so that the total bandwidth is reduced, The control instruction information is transmitted to the resource management unit 12.

  For example, the call processing function unit 11 has bandwidth information in which the bandwidth 64 is rewritten to the bandwidth 32 (32 kbps) for Audio1, bandwidth information in which the bandwidth 100 is rewritten to the bandwidth 50 (50 kbps) in Audio2, and the bandwidth 1000 in Video1 Control instruction information including the bandwidth information rewritten to the band 500 (500 kbps) is generated and transmitted to the resource management unit 12.

  Here, a method for generating control instruction information will be described.

A-1) Method to prevent the bandwidth after rewriting from changing according to various conditions
A-1-1) A method to fix the ratio before and after rewriting, such as rewriting to 50% of the bandwidth before rewriting
A-1-2) There is a method to fix the fixed bandwidth after rewriting such that the bandwidth after rewriting is 50kbps.

A-2) Method to change the bandwidth after rewriting according to various conditions
A-2-1) For example, the ratio before and after rewriting is about 50% or 70% when a call is requested when the number of calls being processed is about 50% of the number of calls that can be handled by the server. A method to reduce the ratio before and after rewriting step by step so that it becomes 10% at the time of outgoing request and 0% at the time of outgoing request in the state of about 90%
A-2-2) For example, the bandwidth after rewriting is about 50 kbps and 70% when a call request is made when the number of calls being processed is about 50% of the number of calls that can be processed by the server. There is a method of gradually reducing the bandwidth ratio after rewriting so that it becomes 25 kbps when making a call request, and 0 kbps when making a call request at about 90%.

  If the value obtained by adding the bandwidth indicated in the control instruction information generated in this way to the bandwidth in use in the corresponding section does not exceed the upper limit bandwidth of the corresponding section, the resource management unit 12 New communication is started. On the other hand, if it exceeds, control is performed so that the new communication is not started.

  Since the bandwidth indicated in the control instruction information is smaller than the bandwidth indicated in the media information as described above, the value obtained by adding this to the bandwidth in use in the corresponding section is the upper limit bandwidth of the corresponding section. Is less than when the bandwidth of the control instruction information is the same as the bandwidth of the media information. Accordingly, more new communications can be performed, that is, a large number of communications can be performed.

  Further, the resource management unit 12 has a bandwidth such that the bandwidth for each medium between the transmitting terminal and the partner terminal is equal to or less than the bandwidth corresponding to the bandwidth information for the medium described in the control instruction information. Take control.

  In the above example, the resource management unit 12 controls the audio communication bandwidth corresponding to Audio1 to 32 kbps or less, controls the audio communication bandwidth corresponding to Audio2 to 50 kbps or less, and controls the video communication bandwidth corresponding to Video1. Control the width to 500kbps or less.

  As described above, according to the first embodiment, the call processing function unit 11 generates the control instruction information by rewriting each bandwidth information in the media information so that the total bandwidth is reduced. Since the control instruction information is generated by rewriting the bandwidth information so that the bandwidth corresponding to the bandwidth information of at least one medium is reduced, for each communication, the bandwidth used in the communication The width can be made smaller than the bandwidth indicated in the media information, and thus the number of communications can be increased.

(Example 2)
FIG. 6 is a diagram illustrating the operation of the SIP server 1 according to the second embodiment.

  As in the first embodiment, the SIP server 1 includes a call processing function unit 11 and a resource management unit 12, and the call processing function unit 11 receives SDP information from the calling terminal. The media information included in the SDP information includes, for example, bandwidth information of Audio1, G.711, bandwidth 64, bandwidth information of Audio2, Codec_A2, bandwidth 100, and bandwidth information of Video1, Codec_V1, bandwidth 1000.

  When the call processing function unit 11 receives the SDP information including such media information, the call processing function unit 11 generates control instruction information by rewriting each bandwidth information described in the media information so that the total bandwidth is reduced, The control instruction information is transmitted to the resource management unit 12.

  For example, the call processing function unit 11 generates control instruction information including only the bandwidth information for Audio1, that is, control instruction information obtained by deleting the bandwidth information for Audio2 and the bandwidth information for Video1. To the resource management unit 12.

  Here, a method for generating control instruction information will be described.

For example, in the event of a disaster, many safety confirmation calls are required. Therefore, in view of giving priority to voice media communication and increasing the number of communications, control instructions by deleting bandwidth information Information generation methods include
B-1) There is a method of generating control instruction information obtained by deleting bandwidth information of at least one medium other than audio media.

  Among them, there is a method of generating control instruction information obtained by deleting bandwidth information of all media other than B-2) audio media.

  Among them, B-3) is a method of generating control instruction information by deleting at least one of the bandwidth information of two or more audio media.

  Among them, B-4) there is a method of generating control instruction information obtained by deleting one piece of bandwidth information of two or more audio media and deleting other bandwidth information.

  Among the methods of B-3) and B-4), B-5) is large when generating control instruction information obtained by deleting one of the bandwidth information for two different bandwidths. There is a method of generating control instruction information obtained by deleting bandwidth information about a bandwidth.

  The above example corresponds to any of methods B-1) to B-5).

  Therefore, according to the second embodiment, the call processing function unit 11 specifically generates the control instruction information by rewriting the bandwidth information in the media information so that the total bandwidth is reduced. By generating the control instruction information obtained by deleting the bandwidth information of at least one medium other than the audio media, the number of audio media communications can be increased.

  In addition, by generating control instruction information obtained by deleting bandwidth information of all media other than audio media, the number of audio media communications can be increased.

  In addition, by generating control instruction information obtained by deleting at least one of the bandwidth information of two or more audio media, the number of terminals that perform audio media communication can be increased.

  Further, by generating control instruction information obtained by deleting one piece of bandwidth information of two or more audio media and deleting other bandwidth information, the number of terminals that perform audio media communication is increased. Can do.

  In addition, when generating the control instruction information by deleting any one of the bandwidth information for the two different bandwidths, the control instruction information by deleting the bandwidth information for the large bandwidth is generated. As a result, the number of terminals that perform voice media communication can be further increased.

  As described above, the first and second embodiments have been described. As illustrated in FIG. 7, in the SIP server 1, after the resource management unit 12 performs the processing for the bandwidth control codec based on the control instruction information, SDP information is transmitted to the terminal using a SIP INVITE signal. For the SDP information in this case, the following two patterns can be considered.

C-1) The SDP information received from the calling terminal is transmitted to the partner terminal as it is. The partner terminal receives this SDP information, and thereafter, the SIP negotiation is performed between the calling terminal and the partner terminal based on the SDP information. The However, since the SIP server 1 performs bandwidth control based on the control instruction information, there is a difference between the media and bandwidth determined as a result of SIP negotiation and the actual media and bandwidth. For this reason, even if it is determined that video communication is performed as a result of SIP negotiation, only audio media communication may actually be performed.

C-2) Overwrite the bandwidth information of the SDP information with the bandwidth information of the control instruction information, and transmit the overwritten SDP information to the partner terminal. The partner terminal receives this SDP information, and thereafter the sender terminal and the partner SIP negotiation is performed with the terminal based on the SDP information. That is, SIP negotiation is performed using SDP information that is different from the SDP information transmitted from the initial transmitting terminal.

  As described above, the SIP server according to the present embodiment has been described. However, it is not necessary to implement all of the SIP server, and the operation side of the SIP server may select which countermeasure to implement. Further, the selected countermeasure may be performed autonomously by the SIP server, or may be activated by instructing the SIP server from the outside.

  The computer program for causing the computer to function as the SIP server 1 can be recorded on a computer-readable recording medium such as a semiconductor memory, a magnetic disk, an optical disk, a magneto-optical disk, a magnetic tape, and a communication network such as the Internet. And can be widely distributed.

DESCRIPTION OF SYMBOLS 1 SIP server 11 Call processing function part 12 Resource management part

Claims (3)

A SIP server that performs communication control in a network that handles communication between a plurality of terminals,
A call processing function unit for generating control instruction information indicating a bandwidth used by communication to be newly started in the network;
The upper limit bandwidth and the in-use bandwidth are managed for each section of the network, and a value obtained by adding the bandwidth indicated in the control instruction information to the in-use bandwidth in the corresponding section is the upper limit of the corresponding section. When the bandwidth is not exceeded, the new communication is started.On the other hand, when the bandwidth is exceeded, the resource management unit controls so that the new communication is not started.
The call processing function unit receives SDP information including media information that describes bandwidth information indicating a desired bandwidth for each of one or more media from a terminal that intends to start the new communication; Control instructions for rewriting the bandwidth information in the media information so that the total bandwidth is reduced and the bandwidth corresponding to the bandwidth information of at least one media is reduced. A SIP server characterized by generating information. The SIP server according to claim 1, wherein the call processing function unit rewrites bandwidth information of at least one medium into bandwidth information indicating a fixed bandwidth. The bandwidth is determined in stages so that the smaller the ratio of the number of calls being processed to the number of calls that can be processed by the SIP server,
  The call processing function unit rewrites bandwidth information of at least one medium into bandwidth information indicating a predetermined bandwidth with respect to a ratio of the number of calls being processed to the number of calls that can be processed by the SIP server. The SIP server according to claim 1.

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