JP2002064556A - Quality class identification system for communication network - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a quality class identification system for a communication network that can identify a quality class of a packet in the case of using a packet processing device that cannot provide an identifier of a request quality class to the packet. SOLUTION: Upon the receipt of a communication request from packet processing devices 123, 124, a quality class identification device 20 identifies a packet of a communication channel and its quality class based on at least one set of information or over among information with respect to a communication packet received from a communication manager 113, quality class information and request band information to provide a prescribed identifier to the packet. Thus, even when the packet processing devices 123, 124 cannot provide the identifier to the packet, the device 201 can provide the identifier to the packet so as to maintain the communication quality in an excellent state. Moreover, it is possible to provide an inexpensive packet processing device to a user's home.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a communication network quality class identification system for providing high-quality communication in a communication network using the Internet Protocol (IP).

[0002]

2. Description of the Related Art The present applicant has already filed Japanese Patent Application No. 2000-2.
No. 49941 proposes a communication network quality control management system capable of maintaining communication quality and improving use efficiency. This system includes, for example, as shown in FIG. 2, packet processing devices 121 and 122, communication managers 111 and 112, and packet switching devices 131, 132 and 141 to 143. In addition, the quality management manager 101 and the communication manager 11
The communication device includes communication means for communication with the packet processing devices 1 and 112 and the packet processing devices 121 and 122.

The packet processing devices 121 and 122 perform, for example, packetization processing of audio signals, and perform communication managers 111 and 112.
Means for managing user information, managing one or more packet processing apparatuses, performing call control between the packet processing apparatuses 121 and 122 for communication, and accepting calls for communication requests from the user terminals 161 to 164. Perform control.

The quality management manager 101 manages the packet switching devices 131, 132, 141 to 143, manages the routes in the transmission paths connecting the packet switching devices, manages the quality class in each route, and controls the quality of each packet switching device. The used bandwidth of each obtained route or each quality class is managed, and the above-mentioned management contents are distributed to each packet switching device.

[0005] Each of the packet switching devices 131, 132, 141 to 143 performs a switching process and a sending process of each packet based on the contents distributed from the quality management manager 101.

[0006] Further, an STM exchange 151 is interposed between the user terminal 161 and the packet processing device 121, and the STM exchange 1
52 is interposed between the user terminal 163 and the packet processing device 122.

The packet switching devices 131, 132, 141-143 and the packet processing devices 121, 122 and the packet switching devices 131, 1
The packet communication network 171 is formed by connecting between 32, 141-143.

When voice communication is performed in the packet communication network 171, voice packets and call control signal packets are generated in the packet processing devices 121 and 122. The call control signal packet is also generated in the communication managers 111 and 112, and is transmitted to the packet processing devices 121 and 122 and the communication manager.
A call control signal packet is exchanged between 111 and 112 or between the communication manager 111 and the communication manager 112.

When there is a communication request from the user terminals 161 and 162, the communication manager 111 connects to the user information managed by the communication manager 111, the originating users 161 and 162, and the receiving users 163 and 164. The quality management manager 101 is notified of the packet processing device information, the quality class of the required communication, and the required bandwidth. The quality management manager 101 notifies the communication manager 111 from the quality management manager 101 of the reception acceptability result for the requested band.

If the result of the reception is acceptable, the communication manager 111 on the transmitting side determines that communication is possible and performs a call control process for establishing a call between the packet processing device 121 on the transmitting side and the communication manager 112 on the receiving side. I do.

On the other hand, when the result of the reception is negative, the communication manager 111 on the transmitting side determines that communication is not performed, and performs a call control process for disconnecting the call with the packet processing device 121 on the transmitting side.

The method by which the quality management manager 101 determines a communication route and a quality class and sets it in each packet switching apparatus is as follows: (a) The quality management manager 10
1 is set for each of the packet switching devices 131, 132, 141 to 143, and (b) the quality management manager 101 sends the route information based on the quality class to the packet switching devices 131, 132, 1
There are two methods of pre-distribution in 41-143.

In particular, in the above method (b), all routes are established in advance before a communication request, and each time a communication request is made, the quality management manager 101 sends the packet switching devices 131, 132, 141
There is no need to distribute information such as setting a route to 143, and there is an advantage that the processing amount of each device is reduced.

In particular, in the above method (b), as a method of identifying a quality class, a method of assigning an identifier to a packet in the packet processing devices 121 and 122 is considered (hereinafter, referred to as an identifier assigning method). This identifier assignment method is a method with a small amount of processing because the quality class can be identified only by a predetermined identifier.

[0015]

However, the packet processing devices 121 and 122 may be installed in the user's house, and in such a case, the cost of the packet processing device must be reduced. In addition, there are many people who develop or sell packet processing devices intended for installation in the user's home, and there are many product types. For this reason, there is a case where an identifier cannot be assigned in a packet processing device for in-home arrangement from the viewpoint of omitting functions for lowering prices and the dependence of installed functions on products.

In this case, the corresponding channel is identified between the packet switching devices 131 and 132, or between the packet switching device 131 and the packet processing device 121, or between the packet switching device 132 and the packet processing device 122, and the corresponding packet is identified. A function to assign the corresponding identifier is required. At this time, the method of identifying the corresponding channel is an issue.

SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to identify a quality class of a communication network capable of identifying a packet quality class even when using a packet processing device that cannot assign a required quality class identifier to a packet. Is to provide a system.

[0018]

According to the present invention, in order to achieve the above object, according to the present invention, the exchange processing and the transmission processing of each packet transmitted from a packet processing apparatus for packetizing a communication data signal are performed. In a quality class identification system for a packet communication network formed by connecting packet switching devices, the user information management, the management of one or more packet processing devices, and the packet processing device And a communication manager that performs call control between the communication terminal and a call admission control for a communication request from a user terminal, identifies a quality class of each communication channel, and assigns an identifier to a packet for each of one or more quality classes. The communication manager includes a quality class identification device and a communication request from the packet processing device. A means for acquiring information on a communication packet, quality class information, and at least one of required bandwidth information from the packet processing device and notifying the information to a quality class identification device, wherein the quality class identification device has A communication network quality class identification system comprising means for identifying a packet of a corresponding channel and its quality class based on the information notified from the communication manager and assigning a predetermined identifier to the packet. .

According to the quality class identification system for a communication network, when a communication request is received from a packet processing device,
The quality class identification device identifies a packet of a corresponding channel and its quality class based on information on a communication packet notified from the communication manager, and at least one of quality class information and required bandwidth information. Then, a predetermined identifier is given to the packet. Thereby, even if the packet processing device cannot assign an identifier for identifying the required quality class to the packet, the identifier can be assigned to the packet, and the low-cost packet that can be arranged at the user's home. It is also possible to provide a processing device.

According to a second aspect of the present invention, in the quality class identifying system for a communication network according to the first aspect, the quality class identifying device transmits a corresponding packet transmitted from the packet processing device based on the required bandwidth information. The present invention proposes a communication network quality class identification system having means for monitoring the packet bandwidth of a communication network and discarding the packet when the packet bandwidth violates a declaration using a bandwidth exceeding the required bandwidth.

According to the quality class identification system of the communication network, the packet band of the packet transmitted from the packet processing device is monitored by the quality class identification device based on the required band information, and the packet band is When a bandwidth exceeding the required bandwidth is used, the corresponding packet is discarded. As a result, a packet transmitted from the packet processing device and having a packet bandwidth larger than the declared value is prevented from being transmitted to the packet communication network, and the quality of the packet communication network is maintained.

According to a third aspect of the present invention, in the quality class identification system for a communication network according to the first aspect, the communication manager performs a call admission control for a communication request from a user terminal. A quality class identification system for a communication network having means for notifying information acquired from a packet processing device to the quality class identification device is proposed.

According to the quality class identification system for a communication network, the communication manager controls call acceptance for a communication request from a user terminal, and when the reception is permitted, the packet processing device transmits the call manager to the communication manager. Is notified to the quality class identification device. Thereby, the quality class identification device identifies a packet of the corresponding channel based on the notification information,
An identifier indicating a predetermined quality class is assigned to the packet.

According to a fourth aspect of the present invention, in the communication network quality class identification system according to the first aspect, the communication manager performs a call admission control for a communication request from a user terminal. A quality class identification system for a communication network having means for performing a call disconnection process with the packet processing device without notifying the quality class identification device of any information obtained from the packet processing device is proposed.

According to the quality class identification system of the communication network, the communication manager performs call admission control for a communication request from the user terminal. The call disconnection process is performed between the communication manager and the packet processing device without being notified from the communication manager to the quality class identification device.

In a fifth aspect of the present invention, in the quality class identification system for a communication network according to the first aspect, the communication manager performs a call admission control for a communication request from a user terminal. It has means for notifying the information obtained from the packet processing device to the quality class identification device and performing a call disconnection process with the packet processing device, and the quality class identification device is provided after the completion of the call disconnection process. A quality class identification system for a communication network having means for discarding a packet when a packet of the channel is transmitted from the packet processing device is proposed.

According to the quality class identification system for the communication network, when a packet of the corresponding channel is transmitted from the packet processing device after the call disconnection process is completed by the communication manager, the quality class identification device determines that the corresponding packet is not transmitted. Since the packet is discarded, the packet is prevented from being sent to the packet communication network, and the quality of the packet communication network is maintained.

According to a sixth aspect of the present invention, in the communication network quality class identification system according to the first aspect, the quality class identification device transmits a call control signal when a communication request is received from the packet processing device. By monitoring and / or terminating, information on communication packets generated and transmitted by the packet processing device;
A quality class identification system for a communication network having means for recognizing at least one of quality class information and required band information, identifying a packet of a corresponding channel and a quality class thereof, and assigning a predetermined identifier to the packet. Suggest.

According to the quality class identification system for the communication network, when there is a communication request from the packet processing device, the call control signal is monitored or terminated by the quality class identification device. Accordingly, the quality class identifying device can recognize the information transmitted from the packet processing device and identify the packet of the corresponding channel and its quality class. Is given a predetermined identifier.

According to a seventh aspect of the present invention, in the quality class identifying system for a communication network according to the first aspect, the quality class identifying apparatus is configured to perform the above-described operation when the identifier is already assigned to the corresponding packet by the user terminal. A quality class identification system for a communication network having means for replacing an identifier with an identifier originally given to a corresponding packet is proposed.

According to the quality class identification system for the communication network, when an identifier has already been assigned to the corresponding packet sent from the packet processing device at the user terminal, the quality class identification device uses the same. The identifier of the packet is replaced with an identifier originally given to the packet. With this, when the identifier already assigned to the packet transmitted from the packet processing device is not the identifier indicating the quality class of the packet, the identifier is changed to the correct identifier, thereby providing communication satisfying the required quality. can do.

According to claim 8, in the quality class identification system for a communication network according to claim 1, the quality class identification device transmits a corresponding packet transmitted from the packet processing device based on the required bandwidth information. Means for monitoring the packet bandwidth of the packet and, when the packet bandwidth violates a declaration using a bandwidth exceeding the required bandwidth, giving a mark to the packet to indicate that the declaration has been violated. A packet switching device accommodating the device proposes a quality class identification system of a communication network having means for discarding a packet marked with the declaration violation when the packet causes congestion.

According to the quality class identification system, based on the required bandwidth information, the quality class identification device monitors a packet bandwidth of a packet transmitted from the packet processing device, and determines that the packet bandwidth is the required bandwidth. When a band exceeding the bandwidth is used, a mark indicating that the report has been violated is given to the packet by the quality class identification device. Further, when the packet switching device accommodating the quality class identification device causes congestion of the packet marked with the declaration violation, the packet is discarded. As a result, occurrence of congestion due to a packet whose packet bandwidth transmitted from the packet processing apparatus is larger than the declared value is prevented, and the quality of the packet communication network is maintained.

[0034]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a diagram for explaining the configuration of a quality class identification system for a communication network according to the present invention. In the figure, 113
Is a communication manager, 123 and 124 are packet processing devices, 133
Is a packet switching device, 172 is a packet communication network, and 201 is a quality class identification device.

In the present embodiment, the packet processing devices 123, 1
24 and the quality switching device 2 between the packet switching device 133
01 is installed. The quality class identification device 201 identifies the quality class of the communication channel, and assigns an identifier to a packet for each quality class or for each of a plurality of quality classes.
The corresponding channel is identified by one of the following two methods.

That is, in the first method, the packet processing device
In response to communication requests from 123 and 124, the packet processing device 12
Call control is performed between the communication manager 113 and the communication manager 113. From this call control, the communication manager 113 obtains information on the communication packet of the corresponding channel, quality class information, and requested bandwidth information. Thereafter, the communication manager 113 notifies the quality class identification device 201 of the information. Based on the notification information, the quality class identification device 201 identifies a packet of the corresponding channel and assigns an identifier representing a predetermined quality class to the packet.

Further, in the second method, the packet processing device
In response to communication requests from 123 and 124, the packet processing device 12
Call control is performed between the communication manager 113 and the communication manager 113. The quality class identification device 201 includes means for directly monitoring or terminating the call control. As a result, the quality class identification device 201 obtains information on the communication packet of the corresponding channel, quality class information, and required bandwidth information. Based on this obtained information, the quality class identification device
201 identifies a packet of the corresponding channel and assigns an identifier representing a predetermined quality class to the packet.

An identifier is assigned to a packet by the above first or second method.

The quality class identification device 201 has means for monitoring the packet bandwidth of the packet transmitted from the packet processing devices 123 and 124. If the actual packet bandwidth exceeds the required bandwidth obtained by the above-described first or second method and the report is violated, the quality class identification device 201 discards the packet. Alternatively, the quality class identification device 201 attaches a mark for expressing that the declaration has been violated to the corresponding packet, and when the packet having this mark causes congestion, the packet is discarded in the packet switching device 133. You may do it.

As described above, in the present embodiment, the corresponding channel can be identified, and an identifier representing a predetermined quality class can be assigned to the corresponding packet. Also,
By discarding the packet that violates the obi castle declaration, it is possible to prevent the quality of other communication channels from deteriorating. Note that a method of realizing the function of the quality class identification device 201 in the packet switching device 133 may be used.

Next, a more specific example of this embodiment will be described with reference to FIG.

FIG. 3 is a configuration diagram showing a quality control management system to which the quality class identification system according to one embodiment of the present invention is applied. In the figure, the same components as those in the conventional example of FIG. 2 described above are denoted by the same reference numerals, and description thereof will be omitted. The difference between the present embodiment and the conventional example is that a quality class identification device 202 is provided between the packet processing device 121 and the packet switch 131 to which the packet processing device 121 is connected, and the packet processing device 122 and the That is, a quality class identification device 202 is provided between the packet processing device 122 and the packet switch 133 to which the packet processing device 122 is connected. Here, the communication managers 111 and 112 and the quality class identification devices 202 and 203 correspond to the communication manager 113 and the quality class identification device 201 described above, and have the same functions.

Next, in the system having the above configuration, the first
As an embodiment, a case where the above-described first method is applied and a call can be accepted will be described with reference to FIGS.

A call for voice communication from the user terminal 162 accommodated in the packet processing device 121 will be described. In the packet processing devices 121 and 122, a case where an audio signal is converted into an Internet Protocol (hereinafter simply referred to as IP) packet will be described as an example.

With the call from the user terminal 162, a call control 301 is performed between the packet processing device 121 and the communication manager 111. From this call control 301, the communication manager
Reference numeral 111 indicates the source IP address, destination IP address, port number, quality class information, and required bandwidth of the corresponding channel. However, the quality class information may be determined in advance at the time of contract with the user, and may be already managed by the communication manager 111.

Thereafter, the communication manager 111 performs call admission control 302 based on the information, and when it is judged that the reception is possible (communication is possible), the caller IP address, the receiver IP address, and the port number of the corresponding channel are set. , Quality class information,
The requested band is notified to the quality class identification device 202 (30
3). In addition, the communication manager 111
Call control 304 for establishing a call is performed between the call control apparatus 1 and the call control apparatus 1.

After the call control 304 is completed, a communication packet of the corresponding channel is transmitted from the packet processing device 121.
Based on the information obtained from the notification 303, the quality class identification device 202 identifies the packet of the corresponding channel by the source IP address, the destination IP address, and the port number, and sets a value representing the relevant quality class to the corresponding packet header. For example, a ToS (Type of Service) field.

In this embodiment, the communication manager 11
As a method of determining that communication is possible, the communication manager 111 makes a communication request to the quality management manager 101, the quality management manager 101 determines that the requested quality and bandwidth can be accepted, and communicates that the reception is possible. A method of replying to the manager 111 may be used.

Thus, even if the packet processing device 121 cannot assign an identifier for identifying the required quality class to the packet, the identifier can be assigned to the packet, so that the communication quality is good. Can be maintained. Further, it becomes possible to provide an inexpensive packet processing device that can be arranged at the user's house.

Next, as a second example of the present embodiment, a case where the above-described first method is applied, a call cannot be accepted, and no notification is made to the quality class identification device will be described with reference to FIGS. This will be described with reference to FIG.

As in the first embodiment, the packet processing device 12
An outgoing call for voice communication from the user terminal 162 accommodated in 1 will be described. In the packet processing devices 121 and 122, the audio signal is converted into an IP packet.

In response to a call from the user terminal 162, a call control 301 is performed between the packet processing device 121 and the communication manager 111.
The operation up to step 302 is the same as that of the first embodiment, and the description is omitted.

When the communication manager 111 determines that the reception is not accepted (communication is not accepted), the communication manager 111
A call control 305 for disconnecting the call is performed between the call control server 21 and the terminal 21.

Next, as a third example of this embodiment, the case where the above-described first method is applied, a call cannot be accepted, and a notification is made to the quality class identification device will be described with reference to FIGS. This will be described with reference to FIG.

As in the first embodiment, the packet processing device 12
An outgoing call for voice communication from the user terminal 162 accommodated in 1 will be described. In the packet processing devices 121 and 122, the audio signal is converted into an IP packet.

After the call from the user terminal 162, the call control 301 is performed between the packet processing device 121 and the communication manager 111, and then the communication manager 111 performs the call admission control.
The operation up to the determination of the reception rejection (communication rejection) by 302 is the same as that of the above-described first embodiment, and a description thereof will be omitted.

After determining that communication has not been performed, the communication manager 111
Is the source IP address, destination IP address, and port number of the corresponding channel, quality class information, required bandwidth,
It notifies the quality class identification device 202 that the communication is not performed (401).

The communication manager 111 performs call control 402 for disconnecting the call with the packet processing device 121.

After the call control 402 is completed, the communication packet of the corresponding channel is not normally sent from the packet processing device 121. However, for some reason, the packet processing device 12
If a packet is sent from 1, the quality class identification device 2
In step 02, based on the information obtained from the notification 401, the packet of the corresponding channel is identified by the source IP address, the destination IP address and the port number, and the packet is discarded.

As a result, the packet is prevented from being transmitted to the packet communication network 171 and the quality of the packet communication network 171 can be maintained.

Next, as a fourth example of this embodiment, the case where the above-described first method is applied and the quality class identification devices 202 and 203 monitor the packet band and can accept the call will be described with reference to FIGS. This will be described with reference to FIG.

As in the first embodiment, the packet processing device 12
An outgoing call for voice communication from the user terminal 162 accommodated in 1 will be described. In the packet processing devices 121 and 122, the audio signal is converted into an IP packet.

In response to the call from the user terminal 162, the call control 301 is performed between the packet processing device 121 and the communication manager 111, the call control 304 is completed, and the quality class identification device 202 The operation up to the addition of the value representing to the ToS field is the same as in the first embodiment, and a description thereof will be omitted.

In this embodiment, the quality class identifying device
202 and 203 monitor the packet bandwidth of the packet transmitted from the packet processing device 121 based on the required bandwidth information in the notification 303. If for some reason the packet from the packet processing device 121 exceeds the required bandwidth and violates the declaration, the packet is discarded.

As a result, the packet is prevented from being transmitted to the packet communication network 171, so that the quality of the packet communication network 171 can be maintained.

Next, as a fifth example of this embodiment, a case where the above-described second method is applied and a call can be accepted will be described with reference to FIGS.

As in the first embodiment, the packet processing device 12
An outgoing call for voice communication from the user terminal 162 accommodated in 1 will be described. In the packet processing devices 121 and 122, the audio signal is converted into an IP packet.

In response to the call from the user terminal 162, the call control 301 is performed between the packet processing device 121 and the communication manager 111, and then the communication manager 111 performs the call admission control.
The operation up to step 302 is the same as that of the first embodiment, and the description is omitted.

When the communication manager 111 determines that the call can be accepted (communication is possible) in the call admission control 302, the packet processing device
A call control 304 for establishing a call is performed with the communication terminal 121.

The quality class identification device 202 obtains the IP addresses and port numbers of the transmission side and the reception side of the corresponding channel, the quality class information, and the required bandwidth by directly monitoring the call control 304. Based on the obtained information, the quality class identification device 202 identifies the packet of the corresponding channel by the IP address and the port number of the calling side and the called side, and outputs a value representing the corresponding quality class, for example, in the corresponding packet header. Assigned to the ToS field.

As a result, the quality class identification device 202 can recognize the information transmitted from the packet processing device 121 and can identify the packet of the corresponding channel and its quality class.
By 202, a predetermined identifier can be assigned to the packet.

Next, as a sixth example of the present embodiment, a case where identifiers are replaced in the quality class identification devices 202 and 203 will be described with reference to FIGS.

Here, a case will be described in which the packet processing apparatus 121 can assign a value indicating the corresponding quality class by the ToS field in the first embodiment described above. In this case, the quality class identification device 202 originally uses the T
There is no need to assign a quality class value to the oS field. However, for some reason, the value of the ToS field of the packet transmitted from the packet
If the value differs from the value of the quality class obtained from the notification 3, the quality class identification device 202 notifies the ToS field value of the corresponding packet
Change to the value of the quality class information obtained from 03.

As a result, when the identifier already assigned to the packet transmitted from the packet processing device 121 is not an identifier indicating the quality class of the packet, the identifier is changed to a correct identifier, and the required quality is satisfied. Communication can be provided.

In each of the above embodiments, the operation of the packet processing device 121, the quality class identification device 202, and the communication manager 111 when calling the voice communication from the user terminal 162 has been mainly described. It goes without saying that the class identification device 203 and the communication manager 112 also have the same function, and the same processing is performed when a call is made from the user terminals 163 and 164.

The above-described embodiments and examples are merely specific examples of the present invention, and the present invention is not limited to only these examples.

Although the above embodiment has been described with reference to voice communication, it goes without saying that similar effects can be obtained in data communication other than voice communication.

[0079]

As described above, according to the communication network quality class identification system of the present invention, even if the packet processing apparatus does not have a function of adding an identifier representing the corresponding quality class to the packet, the request for the corresponding communication channel can be obtained. It is possible to assign an identifier based on the quality class.

Further, even if the packet bandwidth transmitted from the packet processing apparatus is larger than the declared value or the call is disconnected, the packet is discarded when the packet processing apparatus transmits the packet. Such a packet can be prevented from being transmitted to the packet communication network, and the communication quality of the packet communication network can be maintained in a good state.

Further, when the identifier indicating the quality class of the packet from the packet processing device is different from the required quality class, the quality class identifying device replaces the identifier with a correct identifier, so that it is possible to provide communication satisfying the required quality. it can.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a configuration of a quality class identification system according to an embodiment of the present invention.

FIG. 2 is a diagram illustrating a configuration of a quality control management system in a conventional example.

FIG. 3 is a diagram illustrating a configuration of a quality control management system to which a quality class identification system according to an embodiment of the present invention is applied.

FIG. 4 is a message sequence diagram illustrating a first example of the embodiment of the present invention.

FIG. 5 is a message sequence diagram for explaining a second example of the embodiment of the present invention.

FIG. 6 is a message sequence diagram for explaining a third example of the embodiment of the present invention.

FIG. 7 is a message sequence diagram for explaining a fifth example of the embodiment of the present invention.

[Explanation of symbols]

101: quality management manager, 111, 112, 113: communication manager, 121, 122, 123, 124: packet processing device, 131, 1
32,133 ... Packet switching device, 141,142,143 ... Packet switching device, 151,152 ... STM switch, 161,162,163,1
64: user terminal, 171, 172: packet communication network, 181, 18
2, 183, 184, 185, 186, 187 ... transmission line, 201, 202, 203
... quality class identification device.

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 5K030 GA13 GA14 HA08 HB08 HB14 HB17 HC01 JA10 JT02 KA04 LB01 LC06 LC09 LC14 LC15 MA04 MB09 MC09 5K051 AA02 FF01 FF02 FF12 GG03 HH15 HH17

Claims (8)

[Claims] 1. A packet processing apparatus, comprising: a packet switching device for performing a switching process and a transmission process for each packet transmitted from a packet processing device for packetizing a communication data signal, and formed by connecting the packet switching devices. In a quality class identification system for a packet communication network, management of user information, management of one or more packet processing devices, call control between the packet processing devices, and call admission control for a communication request from a user terminal are performed. A communication manager that performs communication from a packet processing device, and a quality class identification device that identifies a quality class of each communication channel and assigns an identifier to a packet for each of one or more quality classes. When there is a request, information on the communication packet and the quality Las information, at least one or more of the required bandwidth information is obtained and notified to the quality class identification device, the quality class identification device, based on the information notified from the communication manager A means for identifying a packet of a corresponding channel and its quality class and assigning a predetermined identifier to the corresponding packet. 2. The quality class identification device monitors a packet bandwidth of a packet transmitted from the packet processing device based on the required bandwidth information, and uses a bandwidth that exceeds the required bandwidth. 2. The communication network quality class identification system according to claim 1, further comprising means for discarding the packet when a report violation is committed. 3. The communication manager according to claim 1, further comprising means for performing call admission control for a communication request from a user terminal, and notifying the quality class identification device of information obtained from the packet processing device when reception is permitted. The quality class identification system for a communication network according to claim 1, wherein: 4. The communication manager performs a call admission control for a communication request from a user terminal, and when not accepting, does not notify the quality class identification device of any information obtained from the packet processing device. 2. The communication network quality class identification system according to claim 1, further comprising means for performing a call disconnection process with said packet processing device. 5. The communication manager performs call admission control for a communication request from a user terminal. When the call is not accepted, the communication manager notifies the quality class identification device of information acquired from the packet processing device and performs the packet processing. Means for performing a call disconnection process with the device, wherein the quality class identification device discards the corresponding packet when the packet of the corresponding channel is transmitted from the packet processing device after the completion of the call disconnection process. 2. The communication network quality class identification system according to claim 1, further comprising: 6. The quality class identification device generates and sends the call control signal by monitoring and / or terminating a call control signal when there is a communication request from the packet processing device. Means for recognizing the information on the communication packet to be performed, one or more of the quality class information and the required bandwidth information, and identifying a packet of the corresponding channel and its quality class and assigning a predetermined identifier to the packet. The quality class identification system for a communication network according to claim 1, further comprising: 7. The quality class identification device, further comprising means for, when an identifier is already assigned to the packet at the user terminal, replacing the identifier with an identifier originally assigned to the packet. The quality class identification system for a communication network according to claim 1, wherein: 8. The quality class identification device monitors a packet band of a corresponding packet sent from the packet processing device based on the required band information, and uses a band whose packet band exceeds the required band. When a violation of the declaration is committed, there is provided means for giving a mark indicating that the declaration was violated to the corresponding packet, and the packet switching device accommodating the quality class identification device is provided with a mark indicating that the declaration was violated. 2. The communication network quality class identification system according to claim 1, further comprising means for discarding the packet when the packet causes congestion.