JP2003008641A - Voice gateway and method for controlling network congestion, and program and recording medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To avoid further congestion caused by a congestion testing packet in voice processing congestion regarding voice data transmission in an IP network. SOLUTION: When a voice gateway 1 of an originating side receives an originating request of voice data, the voice gateway 1 transfers a congestion testing packet 11 to a voice gateway 2 of an incoming side, and the voice gateway 2 returns congestion information of its own device to the voice gateway 1 along with the received congestion testing packet 11. In the voice gateway l of the originating side, a voice call reception deciding section 6 decides to receive/refuse the originating request of voice data, and if the congestion testing packet having information of the presence of congestion is returned from the voice gateway of the same incoming side for a specified number of times continuously, a transmission control section 13 restricts transmission of the congestion testing packet to the voice gateway of the incoming side.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a congestion control technique for transmitting voice data via an IP (Internet Protocol) network such as the Internet or an intranet, and more particularly to a voice gateway provided in the IP network. A voice gateway and a network congestion control method suitable for efficiently performing congestion control for call processing congestion due to a rapid increase in CPU load of a device, and packet congestion due to increased voice packet delay and frequent loss in a voice gateway device or router And a program and a recording medium.

[0002]

2. Description of the Related Art Conventional congestion control techniques for suppressing packet congestion in voice gateway devices and routers provided in an IP network include the following.

RED (Random Early Detection): Packets are stochastically discarded according to the average waiting queue length of the buffer in the router.

FIFO (First In First Out): Packets are stored in a buffer in the router on a first-come-first-served basis. When the buffer in the router is full and there is no free space, the arriving packet is discarded.

Congestion control by the centralized supervisory control unit: The exchange that has caused a call processing congestion notifies the centralized supervisory control unit of the congestion, and the centralized supervisory control unit sends each call in the telephone network based on this congestion notice. A control instruction is given to the side exchange, and in each originating exchange that receives the control instruction, the call to the congestion exchange is restricted by the call number density control or the like.

Congestion that may occur when transmitting voice in an IP network (IP network) is, for example, a call in which a CPU (Central Processing Unit) usage rate rapidly increases due to frequent calling processing in a voice gateway device (VoIP gateway). There is processing congestion. If this continues,
There is a possibility that the call processing capacity will be drastically reduced, the call processing time will be increased, and communication will be interrupted.

The above-mentioned congestion technique by RED and FIFO is a technique for suppressing internal congestion by discarding packets by the congestion router itself. In the case of packet congestion due to an increase in call origination, new call origination is performed. , The packet loss rate of all voices passing through the congested router is deteriorated, and the call quality is not improved.

In addition, the congestion control technique by the centralized monitoring and control device in the above is applied to the telephone network. When this congestion control is also applied to the IP network, the hardware cost of the centralized monitoring and control device, these devices, and The development cost of various control functions for voice gateway devices and routers will be enormous. Further, the amount of control information between the centralized monitoring / control device, each voice gateway device, and the router is enormous, and it is difficult to realize the IP network.

There are the following techniques for coping with the call processing congestion due to the rapid increase in the CPU usage rate due to the frequent call processing in the voice gateway.

Voice call acceptance determination by periodic test packet transmission: Test packets are periodically transmitted and received between all voice gateway devices in the IP network, the round trip time of the test packet is measured, and the round trip is performed. If the time exceeds the threshold, the voice call request that arrives after that is rejected.

However, this technique has a problem of scalability in a large-scale network because the test packet is periodically transmitted / received between all the voice gateway devices. Further, since the delay time is periodically determined by the test packet, there is a problem in the accuracy of the congestion determination due to the difference between the test packet transmission / reception time and the time at which the calling process is performed.

As a technique for solving such a problem, there is, for example, the following technique described in Japanese Patent Application No. 2000-383504.

Voice call acceptance determination by transmitting congestion test packet at the time of call request: Instead of sending a test packet periodically as described above, congestion occurs every time a voice gateway on the calling side receives a call connection request. A test packet is sent and the terminating voice gateway responds to it.

However, if this technique is applied and a sudden overload is added to the network and a certain voice gateway on the receiving side is congested, the number of congestion test packets to the voice gateway on the receiving side becomes enormous. Therefore, there is a possibility that the congestion will be further amplified by the reception processing.

[0015]

The problem to be solved is that the conventional technique cannot avoid the deterioration of congestion due to the increase of the congestion test packets for the voice gateway of the congested receiving side.

An object of the present invention is to provide a voice gateway, a network congestion control method, a program, and a recording medium which can solve these problems of the prior art and efficiently suppress congestion in an IP network. is there.

[0017]

In order to achieve the above object, according to the voice gateway and the network congestion control method of the present invention, when the voice gateway on the calling side receives a voice data transmission request, a congestion test packet is sent on the receiving side. The voice gateway on the receiving side that has received the congestion test packet, adds the congestion presence information or the non-congestion information to the congestion test packet, and then returns the voice gateway to the calling side, and In the voice gateway of the originating side, based on the congestion presence information or congestion no information of the returned congestion test packet, the acceptance determination of the transmission request of the received voice data,
Further, if the congestion test packet to which the congestion presence information is added is continuously returned from the voice gateway on the same receiving side for a predetermined number of times, the transmission of the congestion test packet to the voice gateway on the receiving side is suppressed. Incidentally, as the suppression of transmission, of the voice data transmission requests received for the reception-side voice gateway to be suppressed, a technique of transmitting a congestion test packet only for a predetermined percentage of transmission requests, or a predetermined A technique for transmitting a congestion test packet to only one of the one or more voice data transmission requests received for the transmission-target voice gateway on the receiving side within a predetermined time is used. Also, if the congestion test packet with no congestion information is continuously returned from the terminating voice gateway that is suppressing the transmission of the test packet a predetermined number of times, the transmission restraining state for the terminating voice gateway is released. , If the congestion test packet with congestion information is continuously returned from the receiving-side voice gateway whose transmission is being suppressed for a predetermined number of times, the transmission suppression for the voice gateway is strengthened, and conversely, there is no congestion. When the congestion test packet to which the information is added is continuously returned a predetermined number of times, the transmission suppression for the voice gateway is alleviated.

[0018]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described in detail below with reference to the drawings. 1 is a block diagram showing a configuration example of a voice gateway according to the present invention.
FIG. 2 is a block diagram showing a hardware configuration example of a voice gateway in FIG. 1.

In FIG. 2, 21 is a CRT (Cathode Ra
y Tube) or LCD (Liquid Crystal Display) or the like, 22 is an input device such as a keyboard or mouse, 23 is an external storage device such as HDD (Hard Disk Drive), and 24 is a CPU (Central Processing Uni).
t) An information processing device for performing computer processing, which is provided with 24a, a main memory 24b, an input / output interface 24c, and the like, and 25 is a CD-ROM (Compact Disc-Read Only Memor) in which programs and data according to the present invention are recorded.
y) or DVD (Digital Video Disc / Digital Vers
an optical disc such as an atile disc), a drive device 26 for reading the program and data recorded on the optical disc 25, and a communication device 27.

After the programs and data stored in the optical disk 25 are installed in the external storage device 23 by the information processing device 24 via the drive device 26, the programs and data are read from the external storage device 23 into the main memory 24b and the CPU 24a.
1 is configured in the information processing device 24 by performing the processing in step 1.

In FIG. 1, reference numerals 1 and 2 denote voice gateway devices for controlling transmission of voice data via the Internet 12 as an IP network. In this example, the voice gateway device 1 is the originating side and the voice gateway device 2 is the voice gateway device 2. This will be described as the receiving side.

The source side voice gateway device 1 and the destination side voice gateway device 2 are respectively provided with congestion control devices 3 and 3a having the same configuration, but in FIG. In addition, the congestion control device 3 of the voice gateway device 1 on the calling side includes a test packet transmission / reception processing unit 4, a voice call acceptance determination unit 6, and a test packet round-trip time measuring unit 10 required for congestion control on the calling side. , And the transmission control unit 13, and the congestion control device 3a of the voice gateway device 2 on the receiving side includes a test packet reception / return processing unit 5 and a CPU efficiency measuring unit 7 required for congestion control on the receiving side. The call processing congestion determination unit 8 and the control amount calculation unit 9 are specified.

In the figure, a voice call from a calling terminal (not shown) is received by the voice gateway device 1 on the calling side,
It is relayed to the voice gateway device 2 on the receiving side via a router (not shown) in the Internet 12.

In the voice gateway device 1 on the originating side, the test packet transmission / reception processing unit 4 in the congestion control device 3 detects the call origination, and when the call origination is detected, the congestion test packet 11
Is transmitted to the voice gateway device 2 on the receiving side, and the congestion test packet 11a returned from the voice gateway device 2 on the receiving side is received. Also, the congestion information attached to the congestion test packet 11a is processed. (Congestion presence / absence) is sent to the voice call acceptance determination unit 6 and the transmission restriction unit 13.

In the voice gateway device 2 on the receiving side, the test packet receiving / returning processing unit 5 in the congestion control device 3a uses the congestion test packet transmitted from the test packet transmitting / receiving processing unit 4 of the voice gateway device 1 on the transmitting side. 11, the judgment result (congestion presence / absence information) from the control amount calculation unit 9 is added to the congestion test packet 11, and the congestion test packet 11a is returned to the voice gateway device 1 on the calling side.

The voice call acceptance determination unit 6 in the voice gateway device 1 on the calling side receives the congestion bit (congestion presence / absence information) or the congestion test packet 11 of the congestion test packet 11a returned from the voice gateway device 2 on the receiving side. Based on the information such as the round trip time between the congestion test packet 11a and the congestion test packet 11a, the acceptance determination of the voice call is performed.

In the voice gateway device 2 on the receiving side, the CPU efficiency measuring section 7 periodically measures the CPU efficiency (load) and notifies the call processing congestion determining section 8 of it.

The call processing congestion judgment unit 8 judges whether or not the CPU efficiency (load) notified from the CPU efficiency measurement unit 7 exceeds a preset call processing congestion judgment threshold value. Is determined and the control result calculation unit 9 is notified of the determination result.

The control amount calculation unit 9 notifies the packet reception / return processing unit 5 of the call processing congestion determination result (congestion presence / absence information) from the call processing congestion determination unit 8.

The test packet round-trip time measuring unit 10 in the voice gateway device 1 on the originating side transmits the congestion test packet 11 from the voice gateway device 1 on the originating side, and then the congestion test packet from the voice gateway device 2 on the terminating side. The round trip time until 11a is returned is measured, and the measurement result is notified to the voice call acceptance determination unit 6.

Then, the voice gateway device 1 on the originating side
The transmission control unit 13 in the above, based on the congestion information (congestion presence information or congestion non-information) given to the congestion test packet sent from the test packet transmission / reception processing unit 4,
The number of consecutive times up to now and the current regulation state are judged, and the transmission of the congestion test packet to be transmitted thereafter is suppressed.

In such a configuration, the voice gateway device 1 on the calling side causes the test packet transmission / reception processing unit 4 to receive the congestion test packet 1 when receiving the voice call request.
1 is transferred to the voice gateway device 2 on the called side.

When the congestion test packet 11 is received by the test packet receiving / returning processing unit 5, the voice gateway device 2 on the receiving side receives the CPU efficiency measuring unit 7, the call processing congestion determining unit 8, and the control amount calculating unit. After adding the congestion information (congestion presence / absence) generated in 9 to the congestion test packet 11, the test packet reception / return processing unit 5 returns the congestion test packet 11a to the voice gateway device 1 on the originating side. To do.

That is, in the voice gateway device 2 on the receiving side, the CPU efficiency (load) is periodically measured by the CPU ability measuring unit 7 and the CPU efficiency (load) per unit time is measured. If the preset congestion judgment threshold value is exceeded, the call processing congestion judgment unit 8 judges that the device itself is in a congestion state, and the test packet reception / return processing unit 5 receives the transmission side received within the next cycle. A congestion bit (congestion presence information) is added to the congestion test packet 11 transferred from the voice gateway device 1 to generate a congestion test packet 11 a, which is returned to the voice gateway device 1 on the originating side via the Internet 12.

The voice gateway device 1 on the transmitting side receives the returned congestion test packet 11a by the test packet transmission / reception processing unit 4, and based on the additional information (congestion presence / absence) of the congestion test packet 11a, Call acceptance determination unit 6
At, the acceptance determination of the voice call request is made.

In this way, congestion can be suppressed by promptly detecting the congestion state of the voice gateway device 2 on the receiving side and rejecting acceptance of a new voice call request.

In the voice gateway device 2 on the receiving side, the control amount calculating section 9 periodically determines in the CPU efficiency measuring section 7 the number of congestion test packets 11a to which a no congestion bit (no congestion) is added at the time of congestion. The number is equal to or less than the number of calls that can be processed according to the CPU efficiency (load) per unit time being measured. As a result, even when the call processing congestion of the voice gateway device 2 on the receiving side is not regulated, it is possible to accept the number of calls for the processing capacity without restricting all the voice transmission requests, and even when the congestion causes the network Optimal control for effective use is possible.

Further, in the voice gateway device 1 on the transmitting side which has transmitted the congestion test packet 11, the congestion test packet 11 returned from the voice gateway device 2 on the receiving side is transmitted.
Not only when the congestion bit is added to a, the test packet round trip time measuring unit 10 is used to transmit the congestion test packet 11 in the test packet transmitting / receiving unit 4 and then the congestion test packet 11a is returned. If the round-trip time until it reaches a predetermined packet congestion judgment threshold value exceeds a predetermined packet congestion judgment threshold value, or if the congestion test packet 11 is transmitted within a predetermined packet congestion judgment timer value. If the congestion test packet 11a is not returned, the voice call acceptance determination unit 6 rejects the voice call request.

As a result, the voice gateway device 1 on the calling side that has received the call request receives the call processing congestion of the voice gateway device 2 on the called side and the voice gateway devices 1 and 2 on both the calling side and the called side. By recognizing packet congestion at the transit router and rejecting a new voice call request, congestion can be suppressed.

Further, the voice gateway device 1 on the calling side
The following technology is used to suppress the transmission of the congestion test packet 11 transmitted to the receiving-side voice gateway device 2 by the transmission restriction unit 13 in.

For example, the voice gateway device 2 on the receiving side
From the above, when the congestion test packet 11a to which the congestion presence information is added is returned for a predetermined number of times (Na) in succession, the transmission is changed to the test packet transmission restriction state and is directed to the voice gateway device 2. The transmission of the congestion test packet 11 is restricted by X%, and the transmission of the congestion test packet of a predetermined ratio (X%) is suppressed with respect to the transmission request to the voice gateway device 2 on the receiving side, and the remaining ratio ( 1-X
%) Congestion test packet only.

As described above, by performing the "% regulation control", the fairness is maintained with respect to the voice gateways of a plurality of call origination requests to the voice gateway device 2 of the same receiving side including the voice gateway device 1 of the calling side. Therefore, a request proportional to the number of voice call requests from each calling voice gateway is connected without causing a phenomenon that only a call from a certain voice gateway is easily connected.

Further, when the transmission of the test packet is changed to the restricted state, the transmission of the congestion test packet 11 for the voice gateway device 2 is restricted by the call number density M, and for a predetermined short time T. , A congestion test packet corresponding to one call of a plurality of calls (call origination request) destined for the voice gateway device 2 on the receiving side that arrives within the time T / M.

As described above, one of the one or more voice data transmission requests received for the voice gateway device 2 on the receiving side of the transmission suppression target is regulated by the call number density and within the predetermined time T. By transmitting the congestion test packet only to, it is possible to regulate the total amount of the congestion test packet to be transmitted, and it is possible to reliably reduce the congestion.

In this way, if the congestion test packet with no congestion information is continuously returned from the voice gateway device 2 on the receiving side for which the transmission of the congestion test packet is suppressed, for a predetermined number of times Ma, , The suppression of the transmission of the congestion test packet to the voice gateway device 2 on the called side is released. As a result, the transmission suppression can be appropriately released according to the situation of the Internet 12.

Furthermore, if the congestion test packet to which the congestion presence information is added is continuously returned from the voice gateway device 2 on the receiving side during which the transmission of the congestion test packet is suppressed for a predetermined number of times Nb, this voice gateway If the suppression of the transmission of the congestion test packet to the device 2 is strengthened, and if the congestion test packet to which the congestion no information is added is continuously returned for a predetermined number of times Mb, the congestion test packet to the voice gateway device 2 Relax the transmission suppression.

For example, in the case of the X% regulation, "X (k +
1) = X (k) / β ”(0 <β <1),
The relaxation is performed as “X (k + 1) = X (k) × β”. Further, in the case of the regulation with the call number density M, “M (k + 1) =
Strengthen as “M (k) × α” (0 <α <1).
+1) = M (k) / α ”and relax. This allows
It is possible to continue the regulation of an appropriate strength according to the degree of congestion.

As will be described below, the suppression of the transmission of the congestion test packet to the voice gateway device 2 on the receiving side can be controlled on the voice gateway device 2 side on the receiving side.

That is, in the voice gateway device 2 on the receiving side, the CPU efficiency measuring unit 7 periodically measures the CPU efficiency per unit time, and the call processing congestion determining unit 8
Thus, when the CPU efficiency C measured by the CPU efficiency measuring unit 7 reaches a predetermined threshold Ea (here, the threshold Ea
When it becomes larger (C> Ea), it is determined that the own device is in the congestion state of call processing, and the congestion test packet 11 received by the test packet reception / return processing unit 5 within the next CPU efficiency measurement cycle is detected. On the other hand, together with the congestion presence information, predetermined suppression rule information (such as "restriction rate X" or "call density regulation amount M") for% regulation or call density regulation is added, and the congestion test packet is added. It is returned to the voice gateway device 1 on the calling side as 11a.

In the voice gateway device 1 on the transmitting side which has received the congestion test packet 11a, the transmission restriction unit 13 suppresses the transmission of the congestion test packet based on the restriction rule information, for example, at the restriction rate X%, or , The call number density regulation amount M.

Further, in this way, in the voice gateway device 2 on the receiving side which is subject to the transmission restriction, the CPU
When the CPU efficiency C per unit time periodically measured by the efficiency measuring unit 7 reaches a predetermined threshold value Eb (here, when it becomes smaller than the threshold value Eb (C <E
b)), the call processing congestion judgment unit 8 judges that the transmission restriction of the congestion test packet to its own device is no longer necessary, and based on the judgment result, the test packet reception / return processing unit 5
As a result, the received congestion test packet 11 is provided with the congestion non-information and the instruction information for releasing the transmission restriction, and the congestion test packet 11 is returned to the voice gateway device 1 on the calling side.

Alternatively, in the voice gateway device 2 on the receiving side that is subject to transmission restrictions, the CPU efficiency measuring unit 7
When the CPU efficiency C per unit time, which is periodically measured by, becomes a predetermined threshold value Ec (here,
When it becomes larger than the threshold value Ec (C> Ec)), the call processing congestion determination unit 8 determines that it is necessary to strengthen the transmission restriction of the congestion test packet to the own device, and the CPU efficiency C is set to the predetermined threshold value Ed. (Here, when it becomes smaller than the threshold value Ed (C <Ed)), the call processing congestion determination unit 8
It is determined that the restriction on the transmission of the congestion test packet to the device itself may be relaxed, and based on the determination result, the test packet reception / return processing unit 5 receives the congestion test packet 11 together with no congestion information, The instruction information for releasing the transmission regulation or the instruction information for relaxing the transmission regulation is added and returned to the voice gateway device 1 on the calling side as the congestion test packet 11a.

For example, if X% regulation, "C>Ec"
In the case of, “X (k + 1) = X (k) / β” (0 <β <
1), and when "C <Ed", "X (k +
1) = X (k) × β ”. Further, in the case of the regulation of the call number density M, in the case of "C>Ec","M"
(K + 1) = M (k) × α ”(0 <α <1), and in the case of“ C <Ed ”,“ M (k + 1) = M (k) /
Relax as α ”. Thereby, it is possible to continue the regulation of an appropriate strength according to the degree of congestion.

In this way, in the voice gateway device 2 on the receiving side, it is determined whether or not the congestion test packet can be transmitted from the voice gateway device 1 on the transmitting side according to the CPU usage rate, and whether the restriction is released, strengthened or relaxed. By doing
Congestion detection and regulation control (regulation enforcement, cancellation, strengthening, mitigation) can be performed quickly and at appropriate timing. It should be noted that the fairness for the% regulation control and the reliable relief of congestion by the total amount control can be maintained.

The network congestion control method by the voice gateway devices 1 and 2 will be described below with reference to FIG.

FIG. 3 is a flow chart showing an example of a processing procedure relating to the network congestion control method of the present invention.

In the network congestion control method shown in FIG. 3, the processing in steps 101 to 104 is the processing operation as the voice gateway device 2 on the receiving side, and the processing in steps 201 to 206 is the voice gateway on the transmitting side. This is the processing operation of the device 1.

First, in step 101, the CPU efficiency measuring unit 7 is set as the voice gateway device 2 on the receiving side.
Thus, the CPU efficiency (load) is measured for each measurement cycle, and the call processing congestion determination unit 8 is notified of the measurement result.

At the next step 102, whether the measurement result of the CPU efficiency (load) notified at each measurement cycle by the call processing congestion determination unit 8 exceeds the preset call processing congestion determination threshold value Ea. Whether or not the CPU congestion is determined is notified to the control amount calculation unit 9 of the CPU congestion determination result (“NG (congestion present)” or “OK (no congestion)”).

In step 103, in the control amount calculation unit 9, the test packet reception / return processing unit 5 receives the CPU congestion determination result (“NG = congestion” or “OK = normal”) notified by the call processing congestion determination unit 8. Notify to.

In step 201, when the call origination side voice gateway apparatus 1 detects a call in the test packet transmission / reception processing unit 4, the congestion test packet 1
1 to the voice gateway device 2 on the receiving side,
The test packet round-trip time measuring unit 10 is notified of the transmission. Then, in step 202, the test packet round-trip time measuring unit 10 starts measuring the round-trip time for the congestion test packet 11.

In step 104, as the voice gateway apparatus 2 on the receiving side, the test packet reception / return processing section 5 notifies the CPU congestion determination result (“NG = congestion”) notified by the control amount calculation section 9 at each measurement cycle. Or "O
K = normal ”) is added to the received congestion test packet 11 and returned to the voice gateway device 1 on the calling side.

In step 203, the voice gateway device 1 on the calling side is selected as the voice gateway device 1 on the calling side.
In the test packet transmission / reception processing unit 4 that has received the congestion test packet 11a returned from the test packet transfer time measuring unit 10, the reception notification of the congestion test packet 11a is sent.
Information provided to the congestion test packet 11a (“congestion (congestion)”, “normal (no congestion)”)
Is notified to the voice call acceptance determination unit 6 and the transmission restriction unit 13.

In step 204, the test packet round-trip time measuring unit 10 is notified of the reception of the congestion test packet 11a within the preset packet congestion determination timer value from the time when the measurement is started in step 202. In this case, the measurement of the round-trip time of the congestion test packets 11 and 11a is terminated, and the voice test admission determination unit 6 is notified of the round-trip time of the congestion test packet. When the reception notification of the width congestion test packet 11a is not notified within the preset packet congestion judgment timer value, it is notified as a congestion test packet reception timeout to the voice call acceptance judgment unit 6.

Further, in step 205, the voice call acceptance determination unit 6 permits the acceptance of the voice call if any of the following conditions 1 to 3 is met, and otherwise accepts it. Refuse to accept this voice call.

Condition 1: Test packet transmission / reception processing unit 4
When it is notified that congestion presence information is added to the congestion test packet 11a.

Condition 2: Test packet round-trip time measuring unit 10
When the congestion test packet reception timeout is notified by.

Condition 3: Test packet round-trip time measuring unit 10
When the round trip time of the congestion test packet notified by the user exceeds the preset packet congestion judgment threshold value.

Then, in step 206, the transmission restriction unit 13 causes the congestion-presence information ("NG") and no congestion information ("OK") from the voice gateway device 2 on the receiving side.
The number of continuous receptions and the state of each of the congestion test packets 11a assigned with is determined, and based on the result, the subsequent operation of transmitting the congestion test packet 11 by the test packet transmission / reception processing unit 4 is controlled. Yes,% regulation,
It regulates call density, deregulates, strengthens regulations, and relaxes regulations.

As described above with reference to FIGS. 1 to 3, in the voice gateway and the network congestion control method of this example, when the voice gateway on the calling side receives the voice data transmission request, the congestion test packet is transmitted. Transfer to the voice gateway of the callee side, in the voice gateway of the callee side that received this congestion test packet, add congestion presence information or no congestion information to this packet for congestion test, and then return to the voice gateway of the caller side, Then, in the voice gateway on the originating side, based on the congestion presence information or congestion no information of the returned congestion test packet, the acceptance determination of the transmission request of the received voice data,
Further, if the congestion test packet to which the congestion presence information is added is continuously returned from the voice gateway on the same receiving side for a predetermined number of times, the transmission of the congestion test packet to the voice gateway on the receiving side is suppressed.

In order to suppress this transmission, a% regulation control for transmitting a congestion test packet only to a predetermined ratio of transmission requests among the voice data transmission requests received for the reception-side voice gateway to be suppressed. Restriction based on the technology or the number of calls to send a congestion test packet to only one of the one or more voice data transmission requests received for the voice gateway on the receiving side that is subject to transmission suppression within a predetermined time Use control technology.

Further, if the congestion test packet to which no congestion information is added is continuously returned from the terminating side voice gateway in which the transmission of the test packet is suppressed, a predetermined number of times,
If the congestion control packet to which the congestion-prevented information is added from the reception-side voice gateway whose transmission is being suppressed is released for a predetermined number of times in succession, the transmission-restricted state to the reception-side voice gateway is canceled. If the congestion test packet with no congestion information is continuously returned for a predetermined number of times, the transmission suppression for the voice gateway is alleviated.

As a result, call processing congestion and packet congestion can be suppressed at a lower cost than in the prior art, and the accuracy of congestion determination can be improved and the control amount can be optimized. It is possible to avoid the congestion due to the transmission of the congestion test packet 11 from the voice gateway device 1 on the outgoing side and the transmission of the congestion test packet 11a from the voice gateway device 2 on the incoming side, that is, the congestion due to the transmission / reception of the congestion test packet. .

Further, in the voice gateway device 1 on the transmitting side which has transmitted the congestion test packet 11, the congestion test packet 11 returned from the voice gateway device 2 on the receiving side is transmitted.
Not only when the congestion bit is added to a, the test packet round trip time measuring unit 10 is used to transmit the congestion test packet 11 in the test packet transmitting / receiving unit 4 and then the congestion test packet 11a is returned. If the round-trip time until it reaches a predetermined packet congestion judgment threshold value exceeds a predetermined packet congestion judgment threshold value, or if the congestion test packet 11 is transmitted within a predetermined packet congestion judgment timer value. When the congestion test packet 11a is not returned, the voice call acceptance determination unit 6 rejects the voice call request.

As a result, the voice gateway device 1 on the calling side that has received the call request receives the call processing congestion of the voice gateway device 2 on the called side and the voice gateway devices 1 and 2 on both the calling side and the called side. By recognizing packet congestion in the transit router and rejecting acceptance of a new voice call request, such congestion can be suppressed.

The present invention is not limited to the examples described with reference to FIGS. 1 to 3, and various modifications can be made without departing from the scope of the invention. For example, in this example,
Although the Internet 12 is used as an example of the network, the present invention can be applied to other IP networks such as an intranet.

Further, in this example, the computer configuration example of FIG. 2 is shown as the configuration of the voice gateway device, but a computer configuration without a keyboard or an optical disk drive device may be used. Further, in this example, the optical disc is used as the recording medium, but the FD may be used as the recording medium. Further, regarding the installation of the program, the program may be downloaded and installed via the network via the communication device.

[0078]

According to the present invention, it becomes possible to detect and suppress call processing congestion of a voice gateway device relating to voice data transmission in an IP network quickly and at low cost, and to judge congestion. It is possible to improve the accuracy of control and optimize the control amount. Furthermore, it is possible to avoid congestion deterioration due to an increase in congestion test packets for the congested voice gateway on the receiving side, so that congestion in the IP network is more efficient. It is possible to suppress it.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration example of a voice gateway according to the present invention.

FIG. 2 is a block diagram showing a hardware configuration example of a voice gateway in FIG.

FIG. 3 is a flowchart showing an example of a processing procedure relating to the network congestion control method of the present invention.

[Explanation of symbols]

1: Voice gateway device on the outgoing side, 2: Voice gateway device on the incoming side, 3, 3a: Congestion control device, 4: Test packet transmission / reception processing unit, 5: Test packet reception / return processing unit, 6: Voice transmission Call acceptance determination unit, 7: CPU capability measurement unit, 8: Call processing congestion determination unit, 9: Control amount calculation unit, 1
0: Test packet round-trip time measuring unit, 11: Congestion test packet, 11a: Congestion test packet (for return), 12: Internet, 13: Transmission restriction unit, 21: Display device, 2
2: input device, 23: external storage device, 24: information processing device, 24a: CPU, 24b: main memory, 24c: input / output interface, 25: optical disk, 26: drive device, 27: communication device.

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) H04Q 1/20 H04L 13/00 315Z F term (reference) 5K019 AA04 AB06 BB04 BB22 CA02 CC14 CC15 DC01 EA01 EA11 5K030 GA13 HA08 HB01 HC01 HD03 LC11 MB02 MC03 5K035 AA03 BB01 CC09 DD01 EE21 FF02 GG06 LL04 MM02 MM03 MM06

Claims (18)

[Claims] 1. A voice gateway for controlling transmission of voice data on an IP network, the test packet transmitting a predetermined congestion test packet to a voice gateway of a receiving side when a voice data transmission request is received. A transmitting means, a test packet receiving means for receiving the congestion test packet transmitted from another voice gateway, and a congestion test by adding presence / absence information of congestion to the congestion test packet received by the test packet receiving means. Test packet returning means for returning to the source of the packet, if the congestion presence information is added to the congestion test packet returned from the voice gateway of the receiving side rejects the transmission request of the received voice data, If no congestion information is added to the congestion test packet, the transmission request for the received voice data is received. If the congestion test packet to which the congestion presence information is added is continuously returned from the voice call acceptance determination means to be attached and the voice gateway on the same incoming side for a predetermined number of times Na, the voice by the test packet transmission means A voice gateway, comprising: transmission restriction means for suppressing transmission of the congestion test packet to the gateway. 2. The voice gateway according to claim 1, wherein the transmission restriction means includes a voice data transmission request received for a reception-side voice gateway to which transmission is to be suppressed,
A voice gateway, characterized in that the congestion test packet is transmitted only in response to a predetermined percentage of transmission requests. 3. The voice gateway according to claim 1, wherein the transmission restriction means receives one or more voice data transmission requests received for a reception-side voice gateway whose transmission is to be suppressed within a predetermined time T. A voice gateway, wherein the congestion test packet is transmitted to only one of the above. 4. The voice gateway according to any one of claims 1 to 3, wherein the transmission restriction unit is configured to prevent the congestion from the voice gateway on the receiving side which suppresses the transmission of the congestion test packet. A voice gateway, wherein the suppression of the transmission of the congestion test packet to the voice gateway is canceled when the congestion test packet to which the information is added is continuously returned a predetermined number of times Ma. 5. The voice gateway according to any one of claims 1 to 4, wherein the transmission restriction means receives the congestion from the voice gateway on the receiving side that suppresses the transmission of the congestion test packet. If the congestion test packet provided with the available information is continuously returned for a predetermined number of times Nb, the suppression of the transmission of the congestion test packet to the voice gateway is strengthened, and the congestion test packet provided with the no congestion information is provided. The voice gateway is characterized in that the transmission of the congestion test packet to the voice gateway is restrained from being suppressed if is repeatedly returned for a predetermined number of times Mb. 6. The voice gateway according to claim 1, further comprising a CPU efficiency measuring means for periodically measuring a CPU efficiency per unit time, and the CP.
When the CPU efficiency measured by the U efficiency measuring means reaches a predetermined threshold value Ea, it has a call processing congestion determining means for determining that the own device is in a congestion state of call processing, and the call processing congestion determining means calls When the congestion state of the processing is determined and the congestion test packet is received by the test packet receiving means within the next CPU efficiency measurement cycle, the test packet returning means transmits the call to the congestion test packet. A voice gateway characterized in that the congestion-presence information of the process and a predetermined suppression rule information are added and returned, and the transmission restriction means suppresses the transmission of the congestion test packet based on the suppression rule information. . 7. The voice gateway according to claim 6, wherein when the CPU efficiency measured by the CPU efficiency measuring means reaches a predetermined threshold Eb while receiving the transmission suppression, the transmission suppression to the own device is performed. Has a means for generating suppression cancellation instruction information for instructing cancellation of transmission suppression to the own device, and when the means determines that transmission suppression is unnecessary, the test packet returning means, The congestion test packet is returned by adding the suppression cancellation instruction information, the transmission restricting means, based on the suppression cancellation instruction information added to the returned congestion test packet, the receiving side voice gateway A voice gateway that releases the suppression of the transmission of the congestion test packet to the. 8. The voice gateway according to claim 6 or 7, wherein the CPU efficiency measured by the CPU efficiency measuring means while the transmission is being suppressed is a predetermined threshold value. When Ec is reached, it is determined that the transmission suppression for the own device needs to be enhanced, and suppression enhancement instruction information for instructing the enhancement of the transmission suppression for the own device is generated. When the measured CPU efficiency reaches a predetermined threshold value Ed, it is determined that the transmission suppression for the own device may be relaxed, and a suppression mitigation instruction information for instructing the relaxation of the transmission suppression for the own device is provided. If the means determines that the transmission suppression should be strengthened or mitigated, the test packet returning means adds the suppression strengthening instruction information or the suppression mitigation instruction information to the congestion test packet. The information is added and returned, the transmission restriction means is based on the suppression strengthening instruction information or the suppression mitigation instruction information added to the returned congestion test packet, based on the congestion test packet for the receiving side voice gateway. A voice gateway characterized by strengthening or easing transmission suppression. 9. The computer according to any one of claims 1 to 8.
A program for functioning as each unit in the voice gateway according to any one of 1. 10. A computer-readable recording medium recording a program for causing a computer to function as each unit in the voice gateway according to any one of claims 1 to 8. 11. A network congestion control method by a voice gateway for controlling transmission of voice data on an IP network, wherein when a voice data transmission request is received, a predetermined congestion test packet is sent to a voice gateway on the receiving side. A second step of receiving the congestion test packet transmitted from another voice gateway, and adding congestion information to the congestion test packet received in the second step. A third step of returning to the transmission source of the congestion test packet, and a transmission request of the received voice data if congestion information is added to the congestion test packet returned from the voice gateway of the receiving side. The fourth step of refusing,
If no congestion information is added to the congestion test packet, the fifth step of accepting the transmission request of the received voice data, and the congestion test packet to which the congestion presence information is added from the voice gateway on the same receiving side are stored in advance. And a sixth step of suppressing the transmission of the congestion test packet to the voice gateway in the first step if Na is returned for a predetermined number of times in succession. 12. The network congestion control method according to claim 11, wherein in the sixth step, a predetermined ratio is included in the voice data transmission request received for the reception-side voice gateway to be transmission-suppressed. The network congestion control method, wherein the congestion test packet is transmitted only in response to the call request of the above. 13. The network congestion control method according to claim 11, wherein in the sixth step, one or more voices received for a destination voice gateway of which transmission is to be suppressed within a predetermined time T. 1 of the data transmission requests
A network congestion control method characterized in that the congestion test packet is transmitted only to one of the two. 14. The network congestion control method according to claim 11, wherein the non-congestion information is added from the voice gateway on the receiving side that suppresses the transmission of the congestion test packet. If the congestion test packet is continuously returned a predetermined number of times, the method includes the step of releasing the suppression of the transmission of the congestion test packet to the voice gateway. 15. The network congestion control method according to any one of claims 11 to 14, wherein the congestion presence information is added from a voice gateway on a receiving side that suppresses transmission of the congestion test packet. If the congestion test packet is continuously returned for a predetermined number of times Nb, the step of strengthening the suppression of the transmission of the congestion test packet to the voice gateway concerned, and the receiving side suppressing the transmission of the congestion test packet If the congestion test packet to which the congestion no information is added is continuously returned from the voice gateway for a predetermined number of times Mb, the step of relaxing the suppression of the transmission of the congestion test packet to the voice gateway is included. Network congestion control method. 16. The network congestion control method according to claim 11, further comprising a seventh step of periodically measuring a CPU efficiency per unit time, and the seventh step. An eighth step of determining that the own device is in a congestion state of call processing when the measured CPU efficiency reaches a predetermined threshold value Ea, and determines a congestion state of call processing in the eighth step. And the following C above
If the congestion test packet is received in the second step in the PU efficiency measurement cycle, in the third step, the congestion presence information of the call processing and predetermined suppression rule information are added to the congestion test packet. A network congestion control method, characterized in that, in the sixth step, the transmission of the congestion test packet is suppressed based on the suppression rule information. 17. The network congestion control method according to claim 16, wherein the seventh step is performed while receiving transmission suppression.
If the CPU efficiency measured in the step becomes a predetermined threshold value Eb, it is determined that the transmission suppression for the own device is unnecessary, and suppression suppression instruction information for instructing the cancellation of the transmission suppression for the own device is generated. If it is determined that transmission suppression is unnecessary in the step, in the third step, the congestion cancellation packet is added with the suppression cancellation instruction information and returned, and in the sixth step, it is returned. A network congestion control method characterized by releasing transmission suppression of a congestion test packet to the destination voice gateway based on the suppression release instruction information given to the congestion test packet. 18. The network congestion control method according to claim 16 or claim 17,
If the CPU efficiency measured in the seventh step reaches a predetermined threshold value Ec while receiving the transmission suppression, it is determined that the transmission suppression for the own device needs to be enhanced, and the transmission suppression for the own device is enhanced. If the CPU efficiency measured in the seventh step while receiving the suppression suppression instruction information for instructing and the transmission suppression reaches the predetermined threshold value Ed, the transmission suppression for the own device is relaxed. And a tenth step of generating suppression mitigation instruction information that instructs the device to mitigate the transmission suppression, and determines that the transmission suppression in the ninth step should be strengthened. Alternatively, based on the determination that the transmission suppression in the tenth step should be relaxed, in the third step, the congestion test packet contains the suppression enhancement instruction information or the suppression mitigation instruction. In the sixth step, the congestion test packet for the terminating side voice gateway is based on the suppression strengthening instruction information or the suppression mitigation instruction information added to the returned congestion test packet. A network congestion control method characterized by strengthening or easing transmission suppression of packets.