JP4450059B2 - Communications system - Google Patents

Description

  The present invention relates to a communication terminal that communicates by exchanging communication packets, a codec conversion device that converts a communication packet from the communication terminal according to a codec and transmits the converted communication packet to a destination communication terminal, and a call connection request from the communication terminal And a server for controlling call connection according to the communication system.

There is known a communication system such as VoIP (Voice on Internet Protocol) in which telephone terminals that generate voice packets according to their own voice codec exchange the voice packets to make a call connection. If each of the telephone terminals connected for a call has the same voice codec, the call can be made without any problem. However, if each of the telephone terminals has a different voice codec, the voice packet destination A call cannot be made unless the voice packet is converted so as to conform to the voice codec of the telephone terminal. Conventionally, a server in response to a call connection request from a telephone terminal gives a voice packet conversion instruction to a codec converter connected to a communication network, and the codec converter converts a voice packet according to a voice codec. The call was connected by transmitting to the destination telephone terminal. For example, Patent Document 1 discloses a voice conversion device that holds information about a voice codec supported by each IP terminal for each call connection and performs voice codec conversion so that the IP terminals can communicate with each other. Is disclosed.
JP 2007-49415 A

  By the way, when converting a voice packet, it takes a processing time to perform the conversion. When the processing time is long, the transmission delay time until the voice packet arrives at the destination telephone terminal also becomes long, and there is a problem that a smooth call cannot be performed. For example, according to the regulations of the Ministry of Internal Affairs and Communications, it is desirable that the transmission delay time of VoIP or the like in a general communication network is 100 ms or less from end to end. According to the voice conversion device disclosed in Patent Document 1, voice codec conversion that enables mutual communication between IP terminals is possible, but transmission until a voice packet arrives at a destination telephone terminal. The delay time was not shortened, and the problem of making a smooth call could not be solved. The present invention has been made in view of the above-described problems. Even when communication terminals having different codecs communicate with each other, the communication packet is delivered to the destination communication terminal within the target delay time and smoothly transmitted. An object of the present invention is to provide a communication system capable of performing various communications.

  A communication system according to the present invention includes a communication terminal that communicates by exchanging communication packets generated according to different codecs, and a communication that outputs a converted communication packet obtained by converting the communication packet according to the codec. At least one codec conversion device that includes a packet conversion unit and receives a communication packet from the communication terminal and relays the converted communication packet to a destination communication terminal; and a call connection in response to a call connection request from the communication terminal Each of the codec conversion devices includes: a pseudo communication packet generation instruction unit that issues a pseudo communication packet generation instruction in response to a conversion processing availability determination request from the server; The pseudo communication packet generated by generating a communication packet according to the communication packet generation instruction is converted into the communication packet. Pseudo-communication packet generation means to be provided to, converted pseudo-communication packet detection means for issuing a detection notification when detecting the conversion pseudo-communication packet output from the communication packet conversion section, and the communication packet conversion section in response to the detection notification Conversion processing time calculating means for calculating the conversion processing time required to convert the pseudo communication packet into the converted pseudo communication packet, and conversion processing is possible when it is determined that the conversion processing time is shorter than the target delay time A conversion processing availability notification means for issuing a notification to the server, the server issuing a conversion processing availability determination request to each of the codec conversion devices in response to the call connection request; The call connection request is made so that the codec conversion device that has issued the conversion processing notification is the communication packet transmission destination. A communication packet destination instruction means for instructing the communication terminal having issued characterized in that it comprises a.

  Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a block diagram showing a telephone system 1 according to the present invention. The telephone system 1 includes telephone terminals 10 and 20, a server 30, communication networks 40, 41 and 42, and codec converters 50-1 to 50-n.

  Each of the telephone terminals 10 and 20 includes a voice codec and has a function of generating a voice packet according to the voice codec. It is assumed that the voice codec included in the telephone terminal 10 and the voice codec included in the telephone terminal 20 are different from each other. Here, it is assumed that the voice codec of the telephone terminal 10 is G711 defined by ITU-U, and the voice codec of the telephone terminal 20 is EVRC (Enhanced Variable Rate Codec) which is a TIA / EIA standard. Each of the telephone terminals 10 and 20 has means for issuing a call connection request to the server 30 via the communication network 40, 41, or 42. In the following description, the telephone terminal 10 sets the call connection destination as the telephone terminal 20. A case where the call connection request CL is issued to the server 30 will be described. Normally, the telephone system 1 includes a plurality of telephone terminals having functions similar to those in addition to the telephone terminals 10 and 20, but are omitted in FIG.

  In response to the call connection request CL from the telephone terminal 10, the server 30 issues a conversion processing availability determination request RQ to each of the codec conversion devices 50-1 to 50-n via the communication network 40. In FIG. 1, only the conversion process availability determination request RQ to the codec conversion apparatus 50-1 is illustrated. The server 30 issues the conversion process availability determination request RQ including the audio packet information, the audio codec type information, and the target delay time information. The voice packet information is information on the voice packet itself included in the call connection request CL or information obtained based on the information. The voice packet information here is assumed to be the size of a voice packet generated by the telephone terminal 10 (hereinafter referred to as packet length). The audio codec type information is information indicating the type of audio codec provided in the telephone terminal 20 that is the connection destination. For example, the server 30 has a table in which a voice codec type is associated with each telephone terminal identifier (such as an IP address), and the voice codec type corresponding to the identifier of the destination telephone terminal 20 included in the call connection request CL is set. The audio codec type information is used. The target delay time information is information representing the target value of the transmission delay time required for the voice packet from the telephone terminal 10 to reach the telephone terminal 20. The target delay time can be set to a desired value by the administrator of the server 30.

  Further, the server 30 sends the codec conversion device that has issued the voice packet in response to the conversion processing enable notification AS from any of the codec conversion devices 50-1 to 50-n that arrives via the communication network 40 to the voice packet. A voice packet transmission destination instruction AD indicating that it should be a transmission destination (hereinafter referred to as a voice packet transmission destination) is instructed to the telephone terminal 10 that has issued the call connection request CL. In FIG. 1, only the conversion process possible notification AS from the codec conversion apparatus 50-1 is shown. When the server 30 receives a plurality of conversion process enable notifications AS, the server 30 instructs one of the codec conversion apparatuses that have issued the conversion process enable notifications AS as a voice packet transmission destination. The server 30 may use, for example, the codec conversion device that has issued the conversion processing notification notice AS that has been notified earliest as the voice packet transmission destination, or the codec conversion device that should be the voice packet transmission destination in consideration of other conditions. May be determined.

  The codec conversion device 50-1 includes a reception unit 51, a voice packet conversion unit 52, a transmission unit 53, a calculation processing unit 54, a pseudo voice packet generation unit 55, and a conversion pseudo voice packet detection unit 56. .

  The receiving unit 51 receives a voice packet destined for the codec conversion device 50-1 to which it belongs from the communication network 40 and gives it to the voice packet converting unit 52.

  The voice packet converting unit 52 outputs the converted voice packet obtained by converting the received voice packet according to the voice codec. Hereinafter, a packet obtained by converting the voice packet by the voice packet converting unit 52 is referred to as a converted voice packet, and a packet obtained by converting a pseudo voice packet received from the pseudo voice packet generating unit 55 described later is particularly converted. This is called a pseudo voice packet.

  The transmission unit 53 transmits the destination of the converted voice packet from the voice packet conversion unit 52 to the communication network 40 as the telephone terminal 20.

  The arithmetic processing unit 54 issues a pseudo voice packet generation instruction indicating that a pseudo voice packet should be generated to the pseudo voice packet generation unit 55 in response to the conversion process availability determination request RQ from the server 30, and also executes the pseudo test. The time when the voice packet generation instruction is issued is set as the conversion processing start time. At this time, the arithmetic processing unit 54 determines the MAC, IP, and UDP port numbers and the like (hereinafter referred to as packet detection conditions) to be included in the header of the pseudo voice packet, and the pseudo voice packet generation unit 55 and the conversion pseudo The voice packet detection unit 56 is notified.

  In addition, the arithmetic processing unit 54 calculates the conversion processing time required for the voice packet converting unit 52 to convert the pseudo voice packet into the converted pseudo voice packet in response to a detection notification from the converted pseudo voice packet detecting unit 56 described later. Means for calculating. At this time, the arithmetic processing unit 54 sets the time when the detection notification is received as the conversion process end time, and sets the time from the conversion process start time to the conversion process end time as the conversion process time. The arithmetic processing unit 54 issues a conversion process enable notification AS to the server 30 when determining that the conversion process time is shorter than the target delay time. The target delay time is the time represented by the target delay time information included in the conversion process availability determination request RQ from the server 30.

  The pseudo voice packet generation unit 55 generates a pseudo voice packet in response to a pseudo voice packet generation instruction accompanied by a packet detection condition from the arithmetic processing unit 54. At this time, the pseudo voice packet generation unit 55 sets the MAC, IP, UDP port number, etc., which are packet detection conditions, in the header of the pseudo voice packet. Further, the pseudo voice packet generation unit 55 generates a pseudo voice packet so as to have a packet length equivalent to the packet length which is packet information included in the conversion process availability determination request RQ. In order to know how much conversion time is required when the voice packet conversion unit 52 converts the voice packet from the telephone terminal 10, the pseudo voice packet generation unit 55 has a packet length equivalent to the packet length of the voice packet. The pseudo voice packet is generated. The pseudo voice packet generation unit 55 gives the voice packet conversion unit 52 the pseudo voice packet obtained by the generation.

  The converted pseudo voice packet detector 56 detects the converted pseudo voice packet from the converted voice packets output from the voice packet converter 52. Specifically, the converted pseudo voice packet detecting unit 56 includes the MAC, IP, and UDP port numbers included in the headers of the converted voice packets output from the voice packet converting unit 52 and the arithmetic processing unit 54 in advance. The MAC, IP, and UDP port numbers that are packet detection conditions notified from the above are collated, and if they match, it is determined that the converted voice packet is a converted pseudo voice packet. When the converted pseudo voice packet detecting unit 56 detects the converted pseudo voice packet, the converted pseudo voice packet detecting unit 56 issues a detection notification to the arithmetic processing unit 54.

  Each of the codec conversion devices 50-2 to 50-n has the same configuration as that of the codec conversion device 50-1.

  FIG. 2 is a sequence diagram showing a call connection flow. Hereinafter, the processing from when the telephone terminal 10 issues a call connection request until the telephone terminal 20 is connected to the call will be described with reference to FIG.

First, the telephone terminal 10 issues a call connection request CL to the server 30 (step S201).
In response to the call connection request CL, the server 30 issues a conversion process availability determination request RQ to each of the codec conversion devices 50-1 to 50-n via the communication network 40 (step S202). In FIG. 2, only the conversion process availability determination request RQ to the codec conversion device 50-1 is illustrated. At this time, the server 30 issues the packet length of the voice packet generated by the telephone terminal 10, the voice codec type EVRC of the telephone terminal 20, and the target delay time (for example, 50 ms) included in the conversion process availability determination request RQ.

  Each of the codec conversion devices 50-1 to 50-n performs codec conversion process availability determination processing in response to the conversion process availability determination request RQ from the server 30 (step S203). FIG. 3 is a flowchart showing a codec conversion process availability determination process routine. Hereinafter, the codec conversion process availability determination process will be described with reference to FIG.

  The arithmetic processing unit 54 issues a pseudo voice packet generation instruction indicating that a pseudo voice packet should be generated to the pseudo voice packet generation unit 55 in response to the conversion process availability determination request RQ from the server 30 (step S301). . At this time, the arithmetic processing unit 54 determines packet detection conditions such as MAC, IP, and UDP port numbers to be included in the header of the pseudo voice packet, and notifies the pseudo voice packet generation unit 55 and the converted pseudo voice packet detection unit 56. To do. The arithmetic processing unit 54 sets the time when the pseudo voice packet generation instruction is issued as the conversion processing start time (step S302).

  The pseudo voice packet generation unit 55 generates a pseudo voice packet in response to a pseudo voice packet generation instruction accompanied by a packet detection condition from the arithmetic processing unit 54 (step S303). At this time, the pseudo voice packet generation unit 55 sets the MAC, IP, and UDP port numbers in the header of the pseudo voice packet. Further, the pseudo voice packet generation unit 55 generates a pseudo voice packet so as to have a packet length equivalent to the packet length which is packet information included in the conversion process availability determination request RQ. The pseudo voice packet generation unit 55 gives the voice packet conversion unit 52 the pseudo voice packet obtained by the generation.

  The voice packet converting unit 52 converts the pseudo voice packet from the pseudo voice packet generating unit 55 according to the voice codec EVRC (step S304). The voice packet conversion unit 52 outputs the converted pseudo voice packet obtained by the conversion.

  The converted pseudo voice packet detector 56 detects the converted pseudo voice packet from the converted voice packets output from the voice packet converter 52 (step S305). Specifically, the converted pseudo voice packet detecting unit 56 includes the MAC, IP, and UDP port numbers included in the headers of the converted voice packets output from the voice packet converting unit 52 and the arithmetic processing unit 54 in advance. The MAC, IP, and UDP port numbers that are packet detection conditions notified from the above are collated, and if they match, it is determined that the converted voice packet is a converted pseudo voice packet. When the converted pseudo voice packet detecting unit 56 detects the converted pseudo voice packet, the converted pseudo voice packet detecting unit 56 issues a detection notification to the arithmetic processing unit 54.

  The arithmetic processing unit 54 calculates the conversion processing time required for the voice packet converting unit 52 to convert the pseudo voice packet into the converted pseudo voice packet in response to the detection notification from the converted pseudo voice packet detecting unit 56 (step) S306). Specifically, the arithmetic processing unit 54 sets the time when the detection notification is received as the conversion process end time, and ends the conversion process from the conversion process start time set when the pseudo voice packet generation instruction is given to the pseudo voice packet generation unit 54. The time until the time is defined as the conversion processing time.

  If the arithmetic processing unit 54 determines that the conversion processing time is shorter than the target delay time included in the conversion processing availability determination request RQ, the arithmetic processing unit 54 issues a conversion processing enable notification AS to the server 30 (step S307).

  Reference is again made to FIG. The codec conversion device (herein referred to as codec conversion device 50-1), which has determined that the conversion processing time of the voice packet is shorter than the target delay time by the above-described codec conversion processing availability determination processing, 30 (step S204).

  In response to the conversion process enable notification AS from the codec conversion device 50-1, the server 30 displays a voice packet transmission destination instruction AD indicating that the codec conversion device 50-1 should be a voice packet transmission destination as a call connection request CL. Is instructed to the telephone terminal 10 that issued (step S205). Here, it is assumed that the server 30 has received the conversion process enable notification AS from the codec conversion apparatus 50-1, but when the server 30 receives a plurality of conversion process enable notifications AS, the conversion process enable notification AS is received. Any one of the codec converters that have issued is selected and designated as a voice packet transmission destination. The selection condition is not particularly limited. For example, the codec conversion device that has issued the conversion processing enable notification AS notified earliest is set as the voice packet transmission destination.

  The telephone terminal 10 generates a voice packet according to the voice codec G711 in response to the conversion process enable notification AS from the server 30, and sets the transmission destination of the voice packet as the codec converter 50-1. The telephone terminal 10 sets the IP address of the codec conversion device 50-1 in the header of the voice packet and transmits it to the communication network 41 (step S206).

  The codec conversion device 50-1 receives the voice packet from the telephone terminal 10, which is the transmission destination, and the voice codec included in the conversion processing availability determination request RQ from the server 30, that is, the telephone terminal 20 The voice packet is converted according to the voice codec EVRC provided (step S207). The codec conversion device 50-1 transmits the converted voice packet obtained by the conversion to the communication network 40 as the telephone terminal 20.

  The telephone terminal 20 can receive the converted voice packet addressed to itself from the communication network 42 and decode it according to the voice codec EVRC included in the telephone terminal 20 to obtain a voice signal. The case where the telephone terminal 10 transmits a voice packet destined for the telephone terminal 20 has been described above. Conversely, the case where the telephone terminal 20 transmits a voice packet destined for the telephone terminal 10 is also as described above. Call connection is possible by the same processing.

  In the present embodiment, the telephone system has been described as an example. However, the present invention can be applied not only to the telephone system but also to a communication system using video data such as moving images and still images.

  As described above, the server according to the present embodiment requests the codec conversion processing included in the telephone system in response to the call connection request from the telephone terminal to determine whether the codec conversion process includes the audio codec type and the target delay time information. To emit. In response to the request, each of the codec conversion devices generates a pseudo voice packet having the same size as the voice packet arriving from the telephone terminal when the call is connected, and actually converts the pseudo voice packet according to the voice codec notified from the server. . Each of the codec conversion apparatuses issues a conversion process enable notification to the server when it is determined that the time required for the conversion is smaller than the target delay time notified from the server. The server gives a voice packet transmission destination instruction to the telephone terminal that has issued the call connection request to the effect that the codec conversion device that has issued the conversion process enable notification is to be the voice packet transmission destination. When the telephone terminal transmits a voice packet using the codec conversion device as a voice packet transmission destination, the telephone terminal of the other party can receive the voice packet subjected to codec conversion within the target delay time. As described above, according to the telephone system according to the present embodiment, even when telephone terminals having different voice codecs are connected by telephone, the voice packet is delivered to the destination telephone terminal within the target delay time so that a smooth call can be made. It can be carried out.

It is a block diagram showing a telephone system. It is a sequence diagram showing a call connection flow. It is a flowchart showing a codec conversion process availability determination processing routine.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Telephone system 10, 20 Telephone terminal 30 Server 40, 41, 42 Communication network 50-1-50-n Codec converter 51 Reception part 52 Voice packet conversion part 53 Arithmetic processing part 54 Pseudo voice packet generation part 55 Conversion pseudo voice packet Detection unit 56 Transmission unit AD Voice packet transmission destination instruction AS Conversion processing possible notification CL Call connection request RQ Conversion processing availability determination request

Claims (6)

A communication terminal that communicates by exchanging communication packets generated according to different codecs, and a communication packet conversion unit that outputs a converted communication packet obtained by converting the communication packet according to the codec. Including at least one codec conversion device that receives a communication packet from a terminal and relays the converted communication packet to a destination communication terminal, and a server that controls call connection in response to a call connection request from the communication terminal. A communication system,
Each of the codec converters
Pseudo communication packet generation instruction means for issuing a pseudo communication packet generation instruction in response to the conversion processing availability determination request from the server;
Pseudo communication packet generation means for giving the communication packet converter a pseudo communication packet generated by generating the pseudo communication packet according to the pseudo communication packet generation instruction;
A conversion pseudo communication packet detection means for issuing a detection notification when detecting the conversion pseudo communication packet output from the communication packet conversion unit;
A conversion processing time calculation means for calculating a conversion processing time required for the communication packet conversion unit to convert the pseudo communication packet into the converted pseudo communication packet in response to the detection notification;
Conversion processing enabled notification means for issuing a conversion processing enabled notification to the server when it is determined that the conversion processing time is shorter than a target delay time,
The server
Conversion processing availability determination requesting means for issuing the conversion processing availability determination request to each of the codec conversion devices in response to the call connection request;
Communication packet transmission destination instructing means for instructing the communication terminal that has issued the call connection request so that the codec conversion device that has issued the conversion processing notification becomes the communication packet transmission destination in response to the conversion process enable notification, Communication system. The conversion process availability determination request includes communication packet information;
The communication system according to claim 1, wherein the pseudo communication packet generation unit generates a communication packet generated based on the communication packet information as the pseudo communication packet. The conversion process availability determination request includes codec type information,
The communication system according to claim 1, wherein the communication packet conversion unit sets a communication packet obtained by conversion according to a codec of the codec type information as the converted pseudo communication packet. The conversion process availability determination request includes target delay time information,
The communication system according to claim 1, wherein the conversion process enable notification unit performs the determination using the target delay time indicated by the target delay time information as the target delay time.   The conversion processing time calculating means sets the time when the pseudo communication packet generation instruction is issued as the conversion processing start time, sets the time when the detection notification is received as the conversion processing end time, and ends the conversion processing from the conversion processing start time. The communication system according to claim 1, wherein a time until time is set as the conversion processing time.   The conversion pseudo communication packet detection means detects the conversion pseudo communication packet based on at least one of MAC, IP, and UDP port numbers included in a header of the conversion pseudo communication packet. The communication system according to 1.

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