JP2002064553A - Communication connection control network, communication connection control method and apparatus thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication connection control network that can warrant communication quality in the network. SOLUTION: The communication connection control network is characterized in that it is provided with a communication control apparatus (10) that transmits a signal to approve connection when the network is connected to destination terminals (20, 21, 22, 23) on a connection request and transmits a signal to disapprove connection when the network cannot be connected to them, manages communication band information at points of the network between terminals making call connection, compares a communication band requested by the terminal at the call connection with communication band information managed at each of the points and discriminates permission of the call connection on the basis of the comparison result.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to a communication connection control method and apparatus. More specifically, call admission control is performed based on the congestion state of the bandwidth at multiple points in the network such as access links, and the bandwidth at multiple points in the network is managed based on the bandwidth used by the codec actually used for communication. The present invention relates to a communication connection control method and apparatus that can prevent communication quality from deteriorating by performing call connection control over a predetermined band.

[0002]

2. Description of the Related Art A method for transferring multimedia communication over an IP network representing a packet network (Voice o)
ver IP (VoIP)) is defined in the ITU-T as Recommendation H.323. In VoIP communication using H.323, when a terminal performs a call connection process, an H.323 gatekeeper (hereinafter, “H.323GK”) is used.
), The bandwidth required during communication is declared, the name and number of the other party are sent, and the other party's IP
Receives an address and performs communication based on that address.

[0003] An IP network which is a connectionless transfer method is a connection-oriented telephone network or an ATM network.
Unlike a network, it does not have a function for managing network resources. As quality control in IP networks, in recent years, with the advancement of technologies such as routers, various applications are taken into consideration, and the IP header and the identifiers of higher layers are considered, and queuing control for each IP flow is performed for each application. There is a movement to perform quality control.

However, in the queuing control, multimedia communication traffic is read out from a buffer with higher priority than data, and multimedia communication traffic and data band management are not performed. In a case where multimedia communication traffic occurs intensively, data throughput may be significantly reduced. Therefore, in order to guarantee the quality of multimedia communication calls and the quality (throughput) of data traffic that occur stochastically, a large-capacity transfer band is required.

[0005] As a method of avoiding such a bias of traffic between data and multimedia communication, a transfer technique such as ATM is used to separate multimedia communication and data into separate VCs.
(Virtual channel) and further transfer in another quality class can avoid bias of multimedia communication traffic in the same transmission path.

[0006]

However, since it is necessary to determine the maximum value of the VC bandwidth in advance, a large bandwidth is required to accommodate all the multimedia communication calls that occur stochastically. Become. Conversely, if a call exceeding the predicted bandwidth occurs, the packet will be discarded at the place where the ATM cell is used, and the quality of not only the connected call but also the quality of multimedia communication during the call will deteriorate. was there.

[0007] H.323 has a function of notifying a band required for communication from a terminal during call processing. However, in practice, the required bandwidth is determined by notifying the coding processing capability (codec) used between the terminals after declaring the value to the network. Therefore, there is a possibility that actual communication may be performed in a band having a value different from the band declared by the terminal at the time of call processing.

[0008] In order to solve these drawbacks, the present invention provides an H.323GK that performs call connection processing and address conversion.
It manages network resources, performs call admission control according to the bandwidth declared at the time of call processing, and prevents communication exceeding the designed bandwidth. It is an object of the present invention to monitor communication bandwidth at a point and limit the number of calls to be connected to guarantee communication quality, especially voice quality in transfer within an IP network.

[0009]

In order to solve the above problems, a communication connection control network according to the present invention converts destination identification information to a destination network address when a connection request of a communication terminal is issued, and responds to the connection request. If it is possible to connect to the destination terminal by sending a signal to approve it,
A network that sends out a signal to deny the connection when connection is impossible, manages communication band information at a plurality of points in the network between terminals performing call connection,
A communication control unit that compares the communication band requested by the terminal at the time of call connection with the communication band information managed at each of a plurality of points, and determines whether to allow the call connection based on the comparison result. Have.

In the communication connection control network,
The network has a function of monitoring a signal for determining the transfer capability between the terminals after the terminal call processing, and the communication control unit determines the necessary transfer capability from the transfer capability described in the signal for determining the transfer capability. To obtain the value of the communication band declared in the terminal call processing,
The values may be compared, and if the values are different, the stored communication band information may be modified.

Further, a communication control method according to the present invention is a method for controlling a communication connection between terminals via a network which is performed based on a connection request from the terminal. A first step of acquiring and storing the value of the remaining bandwidth of the communication path to be performed, a second step of acquiring the required bandwidth requested by the terminal, and comparing the required bandwidth with the remaining bandwidth; A third step of notifying the terminal of permission or denial of the communication connection to the terminal based on the third step.

[0012] In the above method, in the second step, in addition to the remaining band, a value of a band used by the terminal for the communication path is also acquired and stored, and the information on the encoding processing capacity used between the terminals is stored in the information. A fourth step of obtaining a value of a communication band required in the communication path, and comparing the value of the required communication band with the value of the stored used band, based on a result of the comparison. And a fifth step of correcting the value of the remaining band.

Further, a communication connection control device according to the present invention is a communication connection control device for controlling a communication connection between a plurality of terminals performed via a network based on a connection request from the terminal, The apparatus includes: gatekeeper means connected to a plurality of terminals via the network; bandwidth information storage means for acquiring and storing communication band information on a communication path between the terminals via the gatekeeper means; And a bandwidth comparison unit that compares the communication bandwidth information with the bandwidth required by the terminal, and notifies the terminal of permission or rejection of communication connection based on a result of the comparison.

In the apparatus, the band information may include a value of a remaining band of the communication path, and the band comparing means may be configured to compare the requested band with the remaining band.

In the apparatus, the band information may include:
The apparatus includes a value of a band used by each terminal for the communication path, the apparatus obtains information on an encoding processing capacity used between the terminals, and, based on the information, a communication band required in the communication path. And a band correction unit that compares the required communication band value with the used band value, and corrects the remaining band value based on the result of the comparison. It may be configured as follows.

Further, in the apparatus, the information on the encoding processing capability may be a communication codec.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [First Embodiment] A first embodiment of the present invention will be described with reference to the drawings. FIG.
FIG. 1 is a diagram showing an overall configuration of a communication connection control network (a network having a control function related to communication connection) according to a first embodiment of the present invention.

As shown in FIG. 1, in the communication connection control network according to the present embodiment, a subscriber LAN 30 is connected to an IP relay network 50 via a link 40, and is separately connected via another link 41. Subscriber L
AN 31 is connected. Although only two LANs are shown in the figure for convenience of illustration, two or more LANs may be connected to the network 50 via respective links.

Subscriber LANs 30 and 31 are connected to subscriber terminals 20, 22 and terminals 21, 23, respectively. In this figure, only two terminals are shown in each LAN for convenience of illustration, but two or more terminals may be connected. These terminals are communicably connected to each other via a link and an IP relay network.

The IP relay network 50 is further connected to a communication control device 10 for controlling the communication connection of the network, including the call connection in the communication between the terminals and the bandwidth management of the connection. FIG. 2 is a schematic block diagram illustrating a configuration example of the communication control device 10.

As shown in FIG. 2, the communication control device 10
H.323GK means (referred to as "gate keeper means" in the present specification) 10-1 for inputting a signaling message from the IP relay network 50 and outputting the signaling message to the network 50, an access link, and belonging to the access link. The correspondence between the terminal number, the band information storage means 10-2 for managing the band in each access link and the band currently consumed, the band declared at the time of a call connection request from the terminal, and the IP relay network 50 A bandwidth comparison unit 10-3 is provided for comparing bandwidths of two connected access links.

Next, the operation of the communication control device 10 will be described with reference to FIG. FIG. 3 is a flowchart showing an outline of the operation.

First, the communication control device 10 manages (acquires, stores, corrects, etc.) communication band information between terminals that make call connections. The communication band information includes the value of the used band for each terminal and the remaining band of each link (which is obtained by subtracting the used band from the maximum usable band given to the link at the time of design planning). The management of the communication band information is performed at a plurality of arbitrary points on the network. For example, the used band and the remaining band are obtained, stored, and managed for the link connecting the subscriber LAN and the IP relay network (S10).

In the communication control apparatus 10, the bandwidth information storage means 10-2 acquires the bandwidth information included in the signal message from the terminal via the gate keeper means 10-1, and the bandwidth for each link and the terminal belonging to the link Manages the bandwidth used by. FIG. 2 shows an example of band information managed by the band information storage unit 10-2. In this example, it is assumed that a call connection is made between the terminal 20 and the terminal 21. In this case, the terminal 20 uses the band of 64 kb / s on the link 40, but the terminal 22 does not use the band (0 kb / s). As a result, the remaining band of the link 40 is 100 kb / s. On the other hand, in the link 41, the terminal 21 uses the band of 64 kb / s, but the terminal 23 does not use the band (0 kb / s).
s), so that the remaining bandwidth for link 41 is 0 kb / s
It has become.

Next, the communication control device 10 obtains the required bandwidth from the terminal and compares it with the stored remaining bandwidth (S20). For example, in the band use state shown in FIG. 2, when a connection request from the terminal 22 to the terminal 23 is made as a request for a new call, and the terminal 22 declares the required bandwidth of 8 kb / s to the communication control device 10, the communication control device 10 is a link 40 to which the calling terminal 22 belongs and the called terminal 2
The remaining bandwidth of each link 41 to which 3 belongs 100 kb /
s, 0 kb / s is compared with the required bandwidth of 8 kb / s (S
20). In this comparison processing, the bandwidth comparison means 10-3 acquires the value of each remaining bandwidth from the bandwidth information storage means 10-2, acquires the required bandwidth value via the gatekeeper means 10-1, and compares them. It is performed by

Next, the communication control device is operated by the band comparing means 10.
-3 is used to determine whether the call connection is permitted (S30). If the remaining bandwidth is equal to or greater than the required bandwidth, the communication control device 10 notifies the terminal of permission for call connection (S40). On the other hand, if the remaining bandwidth is less than the required bandwidth, the communication control device 10 notifies the terminal that the call connection is not permitted (S5).
0). For example, in the case of the example shown in FIG.
Since the remaining bandwidth is already 0 kb / s, the communication control device 10 notifies the receiving terminal 22 not to accept the call. This processing requests the gatekeeper means 10-1 to generate a signal instructing the band comparison means 10-3 not to accept a call based on the result of the comparison processing,
The gatekeeper means 10-1 responds to the request by the terminal 2
2 by transmitting a predetermined signal.

As described above, for each of the links to which the communicating terminals belong, by judging the acceptance of the call based on the presence or absence of the available band, the use of the band exceeding the remaining band does not occur. Therefore, according to the present invention, it is possible to avoid deteriorating the quality of an already connected call, and it is possible to secure voice quality in, for example, transfer within an IP network.

[Second Embodiment] A band is determined from a communication codec determined between terminals by the communication control apparatus 10 in the first embodiment, and the value of the determined band and the terminal By comparing with the declared bandwidth value and adding a function of correcting the communication bandwidth managed at a plurality of points of each network, it is also possible to manage the optimized communication bandwidth. good. With this configuration, it is possible to manage the optimized communication use band, and it is possible to more appropriately control call reception.

FIG. 4 is a schematic block diagram showing the configuration of a communication control device 10 'having a function of correcting according to the present embodiment. The overall configuration of the communication connection network is the same as the configuration shown in FIG.

The configuration of the communication control device 10 'of this embodiment is as follows.
It is the same as the communication control device 10 shown in FIG. 2 except that the communication control device 10 further includes a band correcting unit 10-4. The band correcting unit 10-4 monitors communication information notified between the terminals via the gate keeper unit 10-1, acquires a required band value based on the communication information, and stores the band information storing unit 10-2. From the corresponding band, and if the values do not match, the band used by the band information storage unit 10-2 and the remaining band are corrected, or the band information storage unit 10- Request 2 for modification.

The operation of the communication control device 10 'will be described below. Generally, after a call connection process in a network, a communication codec actually used in communication between terminals is transmitted and received between the terminals. In a network where it is not known what communication codec is implemented, the bandwidth declared by a terminal at the time of call processing is usually assumed to be the maximum bandwidth of the communication codec implemented by the terminal, It is assumed that a declaration is made to H.323GK (gatekeeper means). Therefore, in such a case, there is a possibility that a difference occurs between the communication band declared by the terminal and the communication band actually used for communication, and thus it has been difficult to efficiently operate the network.

In this embodiment, the band correcting means 1
0-4 obtains, via the gatekeeper means, the value of the communication band declared by the terminal at the time of call processing and the value of the band determined from the communication codec determined between the terminals, and compares these values. Is different, the value of the used band stored in the band information storage means 10-2 is corrected in accordance with the determined value. Further, it is preferable that the value of the remaining band is corrected according to the corrected value of the used band.

According to this embodiment, a plurality of points of each network (the links 40 and 41 in this embodiment, but the plurality of points to be managed in the present invention are not limited to links, but any constituent parts of the network By correcting the communication use band managed in the above, it is possible to manage the communication use band that has been optimized in the band information storage unit 10-2, and as a result, the call reception control can be correctly performed. And I
It is possible to ensure higher quality voice quality in transfer within the P network.

[Operation of System According to Second Embodiment] Next, communication control processing according to the second embodiment will be described with reference to a flowchart.

FIG. 5 is a flowchart showing the relationship between H.323 processing and call acceptance processing in the present invention. First, a signal A, which is a signal for requesting a communication band from the calling terminal 20, is used.
Communication control device 10 in which RQ has H.323 communication function
Sent to

In the communication control device 10, the band comparing means 10
-3 is the band information storage means 10-2 for one terminal.
Is compared with the remaining bandwidth on the link 40 in the above. If the remaining bandwidth is not more than the required bandwidth, a signal ARJ not permitting connection is returned to the terminal 20,
If the remaining bandwidth is equal to or greater than the required bandwidth, a signal ACF for permitting connection is returned to the terminal 20. In the example mentioned earlier,
Assuming that the required bandwidth is 64 kb / s, the connection allowance signal ACF is returned to the terminal 20 because the remaining bandwidth of the access link 40 is 64 kb / s or more.

The terminal 20 sends out a SETUP signal,
The TUP signal reaches the communication control device 10 and the receiving terminal 21. After receiving the SETUP signal, the receiving-side terminal 21 transmits a signal ARQ to the communication control device 10 to make a bandwidth report. If the remaining band of the link 41 is not sufficient for the requested band, the communication control device 10 returns a signal ARJ not permitting connection to the terminal 21, and if sufficient, returns a signal ACF for permitting connection to the terminal 21. If the required bandwidth is 64 kb / s, since the remaining bandwidth of the access link 41 is 64 kb / s or more, a connection permission signal ACF is returned to the terminal 21.

The processing up to this point is the same as the processing of the first embodiment.

Thereafter, the receiving terminal 21 responds, and the CONNEC
When the T signal is transmitted to the originating terminal 20, H.245 processing is performed to notify the transfer processing capability of the terminals between the terminals.
Send gicalChannel signal. This shows the determination of the 0penLogicalChannel signal and the transfer processing capacity sent in response to the signal.
The communication connection control device 10 monitors the 0penLogicalChannelAck signal. The signals include the coding processing capability used between the terminals, and the communication control device 10
Indicates the communication codec used by the terminals 20 and 21. Band correction means 1 based on this communication codec
0-4 determines the required bandwidth for each terminal, compares the determined required bandwidth value with the usage bandwidth of each terminal stored in the bandwidth information storage means 10-2, and if different, determines the determined required bandwidth. The value of the remaining bandwidth stored in the bandwidth information storage means for the links 40 and 41 is corrected based on the value of the bandwidth.

Next, when there is a call connection request, it becomes possible to manage the optimized communication use band in the band information storage means 10-2, and as a result, it becomes possible to perform call acceptance control correctly, Higher voice quality can be ensured in intra-network transfer.

[0041]

As described above, according to the present invention, for example, in the call connection processing of H.323, call acceptance such as rejection of call connection due to the congestion of the bandwidth at a plurality of points of the network such as an access link. Control,
By managing the bands at a plurality of points in the network from the communication codecs actually used for communication based on the used bands, it is possible to more accurately manage the bands. As a result, by rejecting the connection of the call of each band or more determined at the time of the network design, the communication with the guaranteed quality can be performed without deteriorating the communication quality.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an overall configuration of a communication connection control network according to a first embodiment of the present invention.

FIG. 2 is a schematic block diagram illustrating a configuration example of a communication control device 10.

FIG. 3 is a flowchart schematically showing an operation of the communication control device.

FIG. 4 is a schematic block diagram illustrating a configuration of a communication control device.

FIG. 5 is a flowchart illustrating a communication control process according to the second embodiment.

[Explanation of symbols]

 10, 10 '... communication control device 20, 21, 22, 23 ... terminal 30, 31 ... subscriber LAN 40, 41 ... link (access line) 50 ... IP relay network 10-1 ... gatekeeper means 10-2 ... band Information storage means 10-3 ... band comparison means 10-4 ... band correction means

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Takemi Nisase 2-3-1 Otemachi, Chiyoda-ku, Tokyo Nippon Telegraph and Telephone Corporation (72) Inventor Hiroyuki Ichikawa 2--3, Otemachi, Chiyoda-ku, Tokyo No.1 Nippon Telegraph and Telephone Corporation F term (reference) 5K030 GA13 HA08 HB01 HC01 HC14 HD06 JA11 LB02 LC05 LC09 LC11 5K051 AA02 CC02 FF01 FF02 FF12 GG01 HH15

Claims (8)

[Claims] When a connection request is made by a communication terminal, the destination identification information is converted into a destination network address, and if connection to the destination terminal is possible in response to the connection request, a signal for acknowledging the connection is sent out. A network for transmitting a signal for denial of connection when connection is impossible, manages communication band information at a plurality of points of the network between terminals performing call connection, and requests the terminal at the time of call connection A communication connection control network, comprising: a communication control device that compares a communication band with the communication band information managed at each of a plurality of points, and determines whether call connection is permitted based on the comparison result. 2. The communication connection control network according to claim 1, wherein the network has a function of monitoring a signal for determining a transfer capability between terminals after processing a terminal call, and the communication control device includes: Determine the required bandwidth from the transfer capability described in the signal for determining the transfer capability, obtain the value of the communication band declared in the terminal call processing, compare these values, and if they are different A communication connection control network, wherein the stored communication band information is corrected. 3. A method for controlling a communication connection between terminals via a network based on a connection request from the terminal, the method comprising: A first step of acquiring and storing the required bandwidth, a second step of acquiring a required bandwidth requested from the terminal, and comparing the required bandwidth with the remaining bandwidth, and permitting or rejecting a communication connection based on the comparison result. And a third step of notifying the terminal to the communication connection control method. 4. The method according to claim 3, wherein, in the second step, a value of a band used by the terminal for the communication path in addition to the remaining band is also acquired and stored. A fourth step of obtaining a value of a communication band required in the communication path based on information on an encoding processing capacity used between terminals; a value of the required communication band and the stored use value; A fifth step of comparing band values and correcting the remaining band value based on the result of the comparison. 5. A communication connection control device for controlling a communication connection between a plurality of terminals performed via a network based on a connection request from the terminal, the device comprising: Gate keeper means connected to a plurality of terminals; band information storage means for acquiring and storing communication band information in a communication path between the terminals via the gate keeper means; A communication connection control device comprising: band comparison means for comparing band information and notifying a terminal of permission or rejection of communication connection based on a result of the comparison. 6. The apparatus according to claim 5, wherein said band information includes a value of a remaining band of said communication path, and said band comparing means compares said requested band with said remaining band. Characteristic communication connection control device. 7. The apparatus according to claim 6, wherein the band information includes a value of a band used by each terminal for the communication path, and the device includes: information on an encoding processing capacity used between the terminals. To obtain the value of the communication band required in the communication path based on the information, compare the value of the required communication band with the value of the used band, and And a band correcting unit for correcting the value of the remaining band based on the communication connection control device. 8. The communication connection control device according to claim 7, wherein the information on the encoding processing capability is a communication codec.