JP2002261822A - Communication adaptive packet transfer system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize a communication adaptive packet transfer system capable of controlling a packet to be transferred to a line by a packet exchange system according to the use situation of the line. SOLUTION: In this system, a communication manager 31, a packet switchboard 11 or 12, or a packet identifying device 61 or 62 monitors the number of real time communication connected lines or real time communication use band or activity ratio or use band or packet abandonment ratio on a line 51, and the packet switchboard 11 or 12 transfers or abandons or rejects a packet to be transferred to the line 51 according to the number of real time communication connected lines or real time communication use band or activity ratio or use band or packet abandonment ratio of the line 51.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a network service and system for providing high-quality voice communication on, for example, an IP network.

[0002]

2. Description of the Related Art FIG. 2 shows a packet transfer system based on the prior art. The conventional system includes packet communication networks 41 and 42 including packetization devices 21 and 22 for performing packetization processing of real-time and non-real-time communication data,
A communication manager 31 for managing user information, the packetizing devices 21 and 22 and controlling call connection with the packetizing device in response to a real-time communication request from a user, and a packet exchange for exchanging and transmitting each packet Apparatus 1
1 and 12 and lines 51 and 52 formed by connecting the packet switching devices.

[0003] Packets transferred from the packet communication network 41 or 42 are transmitted to the packet switching device 11 or the packet switching device 11 based on the attributes of communication type, source address, destination address, source port number, destination port number, packet length and identifier. 12 performs a corresponding process. For example, in order to ensure the communication quality of the real-time communication, a process is performed in which the packet switching device 11 or 12 identifies the real-time communication and the non-real-time communication and transfers them to different lines. Further, in order to restrict real-time traffic exceeding the number of lines allowed in the band of the line 51 or 52, the communication manager 31 rejects the connection in the call connection control performed with the packetizing device 21 or 22.

[0004]

In the prior art,
In the above-described packet transfer system, a packet transferred from the packet communication network 41 or 42 is defined as a communication type,
Source address, destination address, source port number,
Based on the attributes of the destination port number, the packet length, and the identifier, the setting for performing the corresponding processing by the packet switching device 11 or 12 is set in the packet switching device 11 or 12 in advance. Therefore, the processing of the packet switching device 11 or 12 for each communication cannot be changed according to the status of the line 51 or 52. Further, the call connection control by the communication manager 31 cannot prevent communication other than real-time communication managed by the communication manager 31 from flowing into the line 51 or 52. Therefore, an object of the present invention is to realize a communication adaptive packet transfer system that controls a packet transferred by the packet switching device 11 or 12 to a line in accordance with the use state of the line 51 or 52.

[0005]

A description will be given with reference to FIG.
In the present invention, the use state of the line 51 is monitored by the following six means in order to control the packet transferred by the packet switching device to the line according to the use state of the line 51.

Monitoring means 1: Call connection control is performed between the packetizing device 21 or 22 and the communication manager 31 in response to a communication request or a disconnection request for real-time communication. The communication manager 31 can know the call connection control information, the incoming / outgoing IP address, the incoming / outgoing port number, the quality class information, and the required bandwidth information of the communication from the call connection control. Monitor the number of real-time communication connection lines or real-time communication bandwidth.

Monitoring means 2: Call connection control is performed between the packetizing device 21 or 22 and the communication manager 31 in response to a communication request or disconnection request for real-time communication. The packet switching device 11 or 12 can know the call connection control information of the communication, the calling / receiving IP address, the calling / receiving port number, the quality class information, and the required band information from the call connection control. The number of real-time communication connection lines or the band used for real-time communication on 51 is monitored.

Monitoring means 3: The packet switching device 11 or 12 transmits / receives an IP address, a port number, a packet type of a real-time communication packet to be transferred to the line 51,
Based on the quality class information, the packet length, and the number of packets, the number of real-time communication connection lines on the line 51 or the real-time communication use band is monitored.

[0009] Monitoring means 4: The packet switching device 11 or 12 uses the incoming or outgoing IP address, outgoing or incoming port number, packet length, number of packets, or sequence number of the packet to be transferred to the line 51, or the usage rate or use on the line 51. Monitor bandwidth or packet loss rate.

[0010] Monitoring means 5: Call connection control is performed between the packetizing device 21 or 22 and the communication manager 31 in response to a communication request for real-time communication or a disconnection request. The packet identification device 61 or 62 that assigns an identifier to the packet transmitted by the packetizing device 21 or 22 transmits the call connection control information, the call destination IP address, the call destination port number, the quality class information, The band information can be known, and the number of real-time communication connection lines or the band used for real-time communication on the line 51 is monitored based on the information.

Monitoring means 6: The packet discriminating device 61 or 62 transmits and receives the IP of the real-time communication packet to be transferred.
The number of connection lines for real-time communication on the line 51 or the bandwidth used by the real-time communication is monitored based on the address, the port number, the packet type, the quality class information, the packet length, and the number of packets.

The monitoring means 1-6 described above allows the communication manager 31 or the packet switch 11 or 1
2, or the packet identification device 61 or 62 monitors the number of real-time communication connection lines on the line 51, the band used for real-time communication, or the usage rate, or the used band, or the packet discard rate.

According to the present invention, based on the monitoring of the number of real-time communication connection lines on the line 51, the band used for the real-time communication, the usage rate, the used band, or the packet discard rate, the packet transfer according to the use state of the line. Is performed by the four adaptive transfer means described below.

Adaptive transfer means 1: During the period when the number of real-time communication connection lines or the real-time communication bandwidth of the line 51 monitored by the monitoring means 1 does not reach the designated value,
The packet switching device 11 transfers a packet to be transmitted from the packet communication network 41 to the packet communication network 42 to the line 51. Further, the packet switching device 12 is connected to the packet communication network 42.
A packet to be transmitted from the
Transfer to During the period when the number of real-time communication connection lines or the real-time communication bandwidth of the line 51 monitored by the monitoring means 1 reaches the designated value, the communication manager 31
Is a line 52 for specifying a newly generated communication packet.
To the packet switching device 11 or 12 to instruct the packet switching device 11 or 12 to reject the packet, and the packet switching device 11 or 12 transfers or discards the newly generated communication packet to the line 52. Or
Reject.

Adaptive transfer means 2: The number of real-time communication connection lines of the line 51 monitored by the monitoring means 2 or 3 or 4, or the band used by real-time communication, or the usage rate, or the value specified by the usage band or the packet discard rate. During the period in which the packet does not reach, the packet switching device 11 transfers the packet transmitted from the packet communication network 41 to the packet communication network 42 to the line 51. Also, the packet switching device 12
Transfers a packet to be transmitted from the packet communication network 42 to the packet communication network 41 to the line 51. Monitoring means 2 or 3
Or the number of real-time communication connection lines of the line 51 to be monitored by 4, or the band in which the real-time communication is used, or the usage rate, or the usage band, or the packet discard rate reaches the specified value.
2 transfers the newly generated communication packet to the line 52, or discards or rejects the packet.

Adaptive transfer means 3: During the period when the number of real-time communication connection lines of the line 51 monitored by the monitoring means 1 or the band used by the real-time communication does not reach the designated value,
The packet identification device 61 or 62 assigns a preset identifier to a newly generated communication packet. During the period when the number of real-time communication connection lines or the real-time communication bandwidth of the line 51 monitored by the monitoring means 1 reaches the specified value, the communication manager 31 assigns another specified identifier to a newly generated communication packet. The packet identification device 61 or 62 instructs the packet identification device 61 or 62 to give the packet, and the packet identification device 61 or 62 attaches an identifier specified by the communication manager 31 to a newly generated communication packet. The packet switching device 11 or 12 performs packet processing for each assigned identifier, that is, forwards a packet having a preset identifier to the line 51, and forwards a packet having another identifier to the line 52 according to the identifier, or Discard or reject.

Adaptive transfer means 4: When the number of real-time communication connection lines or the real-time communication use band of the line 51 monitored by the monitoring means 5 or 6 does not reach the specified value, the packet identification device 61 or 62 newly adds A preset identifier is assigned to the generated communication packet. During the period in which the number of real-time communication connection lines of the line 51 monitored by the monitoring means 5 or 6 or the band used by the real-time communication reaches the designated value, the packet identification device
1 or 62 gives another identifier to be specified to a newly generated communication packet. The packet switching device 11 or 12 performs packet processing for each assigned identifier, that is, transfers a packet having a preset identifier to the line 51 and transfers a packet having another identifier to the line 52 according to the identifier, or Discard or reject.

By the above-described adaptive transfer means 1-4, the number of connection lines for real-time communication on the line 51, the band used for real-time communication, or the usage rate, or the band used,
Alternatively, the packet switching device 11 or 12 transfers, discards, or rejects a packet to be transferred to the line 51 to the line 52 according to the use state of the line 51 based on the packet discard rate. Becomes possible.

Therefore, the first invention of the present application (claim 1)
The above-mentioned monitoring means 1 and the adaptive transfer means 1 are used, and a packet communication network including a plurality of packetizers for performing packetization processing of real-time and non-real-time communication data, user information, management of packetizers, A communication manager for performing call connection control with a packetizing device in response to a real-time communication request from a user, a packet switching device for performing exchange processing and transmission processing of each packet,
In a packet transfer system composed of a plurality of lines formed by connecting between packet switching devices, a communication manager includes a call connection control packet for real-time communication generated and transmitted from the packetizing device, for the communication. According to the call connection control information, the incoming / outgoing IP address, the incoming / outgoing port number, the quality class information, and the required bandwidth information,
The number of real-time communication connection lines or the bandwidth used for real-time communication on one line is monitored, and during a period in which the number of real-time communication connection lines or the real-time communication bandwidth on the monitored line does not reach the specified value, the packet switching device newly starts. When the number of real-time communication connection lines or the real-time communication bandwidth on the monitored line reaches the specified value, the communication manager transmits the newly generated communication to the monitoring line. Forwards the packet to another designated line, or drops it,
Alternatively, the packet switching device is instructed to reject the packet, and the packet switching device transfers a newly generated communication packet to a line specified by the communication manager, or discards or rejects the packet.

According to a second invention (claim 2), the monitoring means 2 and the adaptive transfer means 2 are used. In the above-described packet transfer system, the packet switching device includes a call connection control signal for real-time communication. By monitoring
On the basis of the call connection control information for the communication included in the call connection control packet for real-time communication generated and transmitted from the packetizing device, the call destination IP address, the call destination port number, the quality class information, and the required band information, The number of real-time communication connection lines or real-time communication bandwidth used is monitored, and during the period in which the number of real-time communication connection lines or real-time communication bandwidth on the monitored line does not reach the specified value, the packet switching device generates new communication. When the number of real-time communication connection lines or the bandwidth used for real-time communication on the monitored line reaches the specified value, the packet switching device specifies the newly generated communication packet. Transfer to another line, or discard or reject

According to a third invention (claim 3), the monitoring means 3 and the adaptive transfer means 2 are used. In the above packet transfer system, the packet switching device is transferred on one line. Departure and arrival of real-time communication packets I
Monitors the number of real-time communication connection lines or real-time communication bandwidth based on P address, port number, packet type, quality class information, packet length, packet number, and monitors the number of real-time communication connection lines or real-time communication bandwidth on the monitored line During the period when does not reach the value specified by, the packet switching device forwards the newly generated communication packet to the monitoring line, and sets the number of real-time communication connection lines on the monitored line or the value specified by the real-time communication use band to the specified value. During that time, the packet switching device
It is characterized in that a newly generated communication packet is transferred to another specified line, discarded, or rejected.

A fourth invention (claim 4) uses the monitoring means 4 and the adaptive transfer means 2, and in the above-described packet transfer system, the packet switching device is transferred on one line. Monitors the utilization rate of one line, or the bandwidth used, or the packet discard rate based on the incoming / outgoing IP address of the packet, the incoming / outgoing port number, the packet length, the number of packets, and the sequence number. During the period in which the discard rate does not reach the value specified, the packet switching device forwards the newly generated communication packet to the monitored line, and sets the line usage rate, used bandwidth, or packet discard rate to the specified value. During this period, the packet switching device forwards, drops, or rejects the newly generated communication packet to another specified line. It is characterized in.

The fifth invention (claim 5) uses the above-mentioned monitoring means 1 and the adaptive transfer means 3, and has a packet identification device having a function of assigning an identifier to a packet. , The communication manager includes, in a call connection control packet for real-time communication generated and transmitted from the packetizing device, call connection control information of the communication, an incoming / outgoing IP address, an incoming / outgoing port number, quality class information, and required bandwidth information. Monitors the number of real-time communication connection lines or the real-time communication bandwidth on one line, and newly generates a packet identification device during the period when the number of real-time communication connection lines or the real-time communication bandwidth does not reach the specified value. The communication packet to be transmitted is assigned an identifier that has been previously imprisoned, and the number of real-time communication connection lines or The period-time communication using band has reached a value specified, the communication manager instructs to impart a different identifier specified in the new communication generated packet to the packet identification device, the packet identification device,
An identifier specified by the communication manager is assigned to a newly generated communication packet, and the packet switching device performs packet processing for each assigned identifier, that is, transfers a packet having a preset identifier to a line to be monitored, and A packet with the identifier of
It is characterized by being discarded or rejected.

A sixth invention (claim 6) uses the above-mentioned monitoring means 5 and the adaptive transfer means 4, and further comprises a packet identification device having a function of assigning an identifier to a packet. , The packet identification device monitors the call connection control signal for real-time communication, so that the call connection control information of the communication included in the call connection control packet generated and transmitted from the packetizing device, the call destination IP address, Recognizes the incoming / outgoing port number, quality class information, and requested bandwidth information, monitors the number of real-time communication connection lines or real-time communication bandwidth on one line, and reaches the value specified by the number of real-time communication connection lines or real-time communication bandwidth. During periods of no communication, the packet identification device attaches a preset identifier to newly generated communication packets. Then, during the period when the number of real-time communication connection lines or the real-time communication use band reaches the value specified, the packet identification device assigns an identifier specified by the communication manager to a newly generated communication packet, and the packet switching device Packet processing for each assigned identifier,
That is, a packet having a preset identifier is transferred to a line to be monitored, and a packet having another identifier is transferred to another specified line, discarded, or rejected.

A seventh invention (claim 7) uses the above-mentioned monitoring means 6 and the adaptive transfer means 4, and further comprises a packet identification device having a function of assigning an identifier to a packet. , The packet identification device uses the originating and terminating IP address, the terminating and terminating port number, the packet type, the quality class information, the packet length, and the number of packets of the real-time communication packet transferred on one line.
The number of real-time communication connection lines or the band used for real-time communication is monitored, and during a period in which the number of real-time communication connection lines or the band used for real-time communication does not reach a specified value, the packet identification device sets in advance a packet of a newly generated communication. When the number of real-time communication connection lines or the band used for real-time communication reaches the value specified by the identifier, the packet identification device adds the identifier specified by the communication manager to the newly generated communication packet, and performs packet switching. The apparatus performs packet processing for each assigned identifier, that is, a packet having a preset identifier is transferred to a line to be monitored, and a packet having another identifier is transferred to another specified line, or discarded. Alternatively, rejection is characterized.

[0026]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1: Embodiment of First Invention (Monitoring Unit 1 + Transfer Unit 1) An embodiment of the first invention (monitoring unit 1 + transfer unit 1) will be described with reference to FIG. Real-time and non-real-time communication between the packetizer 21 included in the packet communication network 41 and the packetizer 22 included in the packet communication network 42 will be considered.

In response to a connection request for real-time communication, call connection control is performed between the packetizing devices 21 and 22 and the communication manager 31. From the call connection control, the communication manager 31 determines the call connection control information of the communication,
The user can know the address, port number, quality class information, and required bandwidth information. When the call connection control is completed and the call is established, the communication manager 31 adds one to the count of the number of real-time communication connection lines of the line 51. When the disconnection of the call is controlled between the packetizers 21 and 22 and the communication manager 31 in accordance with the disconnection of the real-time communication, the communication manager 31 identifies that the specific call has ended and connects the real-time communication connection of the line 51. Decrease the line count by one. By this method, the communication manager 31 monitors the number of real-time communication connection lines on the line 51.

During a period in which the number of real-time communication connection lines on the monitored line 51 does not reach the designated value, the packet switching devices 11 and 12 transfer a newly generated communication packet to the line 51. During the period in which the number of real-time communication connection lines on the monitored line 51 has reached the designated value, the communication manager 31 transfers a newly generated communication packet to the line 52, discards or rejects the packet. This is instructed to the packet switching devices 11 and 12, and the packet switching devices 11 and 12 transfer the newly generated communication packet to the line 52, or discard or reject the packet.

Embodiment 2: Embodiment of the Second Invention (Monitoring Unit 2 + Transfer Unit 2) An embodiment of the second invention will be described with reference to FIG. Real-time and non-real-time communication between the packetizer 21 included in the packet communication network 41 and the packetizer 22 included in the packet communication network 42 will be considered.

In response to a connection request for real-time communication, call connection control is performed between the packetizing devices 21 and 22 and the communication manager 31. From the call connection control, the packet switching devices 11 and 12 transmit call connection control information of the communication,
Outgoing / incoming IP address, outgoing / incoming port number, quality class information,
Requested bandwidth information can be known. Packet switching device 1
1 and 12, when the call connection control is completed and the call is established,
Counts the number of real-time communication connection lines of line 51 to 1
Add. When the disconnection of the call is performed between the packetizers 21 and 22 and the communication manager 31 in accordance with the disconnection of the real-time communication, the communication manager 31 identifies that the specific call has ended, and connects the real-time communication connection of the line 51. Decrease the line count by one. With this method, the packet switching devices 11 and 12 monitor the number of real-time communication connection lines on the line 51.

During a period in which the number of real-time communication connection lines on the monitored line 51 does not reach the specified value, the packet switching devices 11 and 12 transfer a newly generated communication packet to the line 51. During the period in which the number of real-time communication connection lines on the monitored line 51 reaches the designated value, the packet switching devices 11 and 12 transfer the newly generated communication packet to the line 52 or discard or Reject.

Embodiment 3 Embodiment of the Third Invention (Monitoring Means 3 + Transfer Means 2) An embodiment of the third invention will be described with reference to FIG. Real-time and non-real-time communication between the packetizer 21 included in the packet communication network 41 and the packetizer 22 included in the packet communication network 42 will be considered.

The packet switching devices 11 and 12 are connected to a line 51
Monitor the incoming / outgoing IP address, incoming / outgoing port number, packet type, quality class information, packet length, and number of packets of the packet to be sent to the server, and add 1 to the count of the number of real-time communication connection lines of the line 51 when a new real-time communication is detected. If a specific real-time communication packet is not detected for a designated period, the number of real-time communication connection lines is reduced by one. By this method, the packet switching device 11,
12 monitors the number of real-time communication connection lines on the line 51.

During a period in which the number of real-time communication connection lines on the monitored line 51 does not reach the specified value, the packet switching devices 11 and 12 transfer a newly generated communication packet to the line 51. During the period in which the number of real-time communication connection lines on the monitored line 51 reaches the designated value, the packet switching devices 11 and 12 transfer the newly generated communication packet to the line 52 or discard or Reject.

Embodiment 4: Embodiment of the Fourth Invention (Monitoring Means 4 + Means 2) An embodiment of the fourth invention will be described with reference to FIG. Real-time and non-real-time communication between the packetizer 21 included in the packet communication network 41 and the packetizer 22 included in the packet communication network 42 will be considered.

The packet switching devices 11 and 12 are connected to a line 51
The use rate, use band, or packet discard rate of the line 51 is monitored based on the incoming / outgoing IP address, the incoming / outgoing port number, the packet length, the number of packets, and the sequence number of the packet to be transferred. The usage rate of the line 51 to be monitored, or
During the period when the used bandwidth or the packet discard rate does not reach the specified value, the packet switching devices 11 and 12 transfer the newly generated communication packet to the line 51. During a period in which the usage rate, the used bandwidth, or the packet discard rate on the monitored line 51 has reached the specified value, the packet switching devices 11 and 12 transmit a newly generated communication packet to the line 5.
Transfer to 2, or dispose of or reject.
In addition, the packet identification devices 61 and 62 monitor the usage rate or the usage band of the line 51 and, when reaching the specified value, discard or reject a newly generated communication packet. possible.

Embodiment 5: Embodiment of the fifth invention (monitoring means 1 + transfer means 3) An embodiment of the fifth invention will be described with reference to FIG. Real-time and non-real-time communication between the packetizer 21 included in the packet communication network 41 and the packetizer 22 included in the packet communication network 42 will be considered.

In response to a connection request for real-time communication, call connection control is performed between the packetizers 21 and 22 and the communication manager 31. From the call connection control, the communication manager 31 determines the call connection control information of the communication,
The user can know the address, port number, quality class information, and required bandwidth information. When the call connection control is completed and the call is established, the communication manager 31 adds one to the count of the number of real-time communication connection lines of the line 51. When the disconnection of the call is controlled between the packetizers 21 and 22 and the communication manager 31 in accordance with the disconnection of the real-time communication, the communication manager 31 identifies that the specific call has ended and connects the real-time communication connection of the line 51. Decrease the line count by one. By this method, the communication manager 31 monitors the number of real-time communication connection lines on the line 51.

During the period in which the number of real-time communication connection lines of the line 51 to be monitored does not reach the designated value, the packet identification devices 61 and 62 assign a preset identifier to newly generated communication packets, and perform packet switching. Devices 11, 1
2 transfers the packet having the identifier to the line 51.
During the period in which the number of real-time communication connection lines of the line 51 to be monitored reaches the specified value, the communication manager 31 instructs the packet identification device 61 to add another specified identifier to a newly generated communication packet. , 62. The packet identification device 61 or 62 assigns an identifier specified by the communication manager 31 to a newly generated communication packet. The packet switching devices 11 and 12 transfer the packet having the identifier to the line 52, or discard or reject the packet.

Embodiment 6: Embodiment of the sixth invention (monitoring means 5 + transfer means 4) An embodiment of the sixth invention will be described with reference to FIG. Real-time and non-real-time communication between the packetizer 21 included in the packet communication network 41 and the packetizer 22 included in the packet communication network 42 will be considered.

In response to a connection request for real-time communication, call connection control is performed between the packetizing devices 21 and 22 and the communication manager 31. From this call connection control, the packet identification devices 61 and 62 provide call connection control information of the communication,
Outgoing and incoming IP address, outgoing and incoming port number, quality class information,
Requested bandwidth information can be known. Packet switching device 1
1 and 12, when the call connection control is completed and the call is established,
Counts the number of real-time communication connection lines of line 51 to 1
Add. When the disconnection of the call is controlled between the packetizers 21 and 22 and the communication manager 31 in accordance with the disconnection of the real-time communication, the communication manager 31 identifies that the specific call has ended and connects the real-time communication connection of the line 51. Decrease the line count by one. With this method, the packet switching devices 11 and 12 monitor the number of real-time communication connection lines on the line 51.

During the period in which the number of real-time communication connection lines of the line 51 to be monitored does not reach the designated value, the packet identification devices 61 and 62 assign a preset identifier to a newly generated communication packet and perform packet switching. Devices 11, 1
2 transfers the packet having the identifier to the line 51.
During the period when the number of real-time communication connection lines of the line 51 to be monitored reaches the specified value, the packet identification devices 61 and 62
Assigns another identifier to the newly generated communication packet. The packet switching devices 11 and 12 transfer the packet with the identifier to the line 52, or discard or reject the packet.

Embodiment 7: Embodiment of the Seventh Invention (Monitoring Unit 6 + Transfer Unit 4) An embodiment of the seventh invention will be described with reference to FIG. Real-time and non-real-time communication between the packetizer 21 included in the packet communication network 41 and the packetizer 22 included in the packet communication network 42 will be considered.

The packet identification devices 61 and 62 are connected to the line 51
When the new real-time communication is detected, the count of the number of the real-time communication connection lines of the line 51 is incremented by one. If a specific real-time communication packet is not detected for a designated period, the number of real-time communication connection lines is reduced by one. By this method, the packet switching device 61,
62 monitors the number of real-time communication connection lines on the line 51.

During the period when the number of real-time communication connection lines of the line 51 to be monitored does not reach the designated value, the packet identification devices 61 and 62 assign a preset identifier to a newly generated communication packet and perform packet switching. Devices 11, 1
2 transfers the packet having the identifier to the line 51.
During the period in which the number of real-time communication connection lines has reached the value specified, the packet identification devices 61 and 62 assign another identifier specified to the newly generated communication packet.
The packet switching devices 11 and 12 transfer the packet having the identifier to the line 52, or discard or reject the packet. Further, the packet identification devices 61 and 62 may discard or reject a newly generated communication packet.

In the embodiments 1-3 and 5-7, the communication manager 31 or the packet switching device 1
1, 12 or the packet identification device 61, 62 replaces the number of real-time communication connection lines on the line 51 with the call connection control information of the communication included in the call connection control packet, the destination IP address, the destination port number, The line 5 is determined by the quality class information, the requested bandwidth information, or the incoming / outgoing IP address, incoming / outgoing port number, packet type, quality class information, packet length, and number of packets included in the real-time communication.
It is a matter of course that the real-time communication use band on the first device may be monitored.

[0047]

According to the present invention, a newly generated real-time communication is performed according to the number of real-time communication connection lines on the line, the real-time communication use band, the line use rate, the line use band, and the line packet discard rate. And transfer or discard or reject the non-real-time communication packet to a line different from the line normally used.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a communication adaptive packet processing system based on the present invention.

FIG. 2 is a configuration diagram of a conventional packet processing system.

[Explanation of symbols]

 11, 12 packet switching device 21, 22 packetization device 31 communication manager 41, 42 packet communication network 51, 52 line 61, 62 packet identification device

Claims (8)

[Claims] 1. A packet communication network including a plurality of packetizers for performing packetization processing of real-time and non-real-time communication data, and management of user information, management of the packetizer, and a packet accompanying a real-time communication request from a user. A communication manager that performs call connection control with the switching device, a packet switching device that performs switching processing and transmission processing of each packet, and a packet transfer comprising a plurality of lines formed by connecting the packet switching devices. In the system, the communication manager includes, in a call connection control packet for real-time communication generated and transmitted from the packetizing device, call connection control information of the communication, an incoming / outgoing IP address,
The number of real-time communication connection lines or the bandwidth used for real-time communication on one line is monitored based on the port number, quality class information, and required bandwidth information, and the number of real-time communication connection lines or the real-time communication bandwidth on the monitored line is specified. During the period in which the value does not reach the value, the packet switching device transfers the newly generated communication packet to the line to be monitored, and the period when the number of real-time communication connection lines or the band used by the real-time communication on the monitored line reaches the value specified. In this case, the communication manager instructs the packet switching device to transfer, discard, or reject the packet of the newly generated communication to another line, and the packet switching device newly generates the packet. Forwards the packet of the communication to another line specified by the communication manager, or discards it, or Communication adaptive packet transfer system characterized by rejection. 2. A packet communication network including a plurality of packetizers for performing packetization processing of real-time and non-real-time communication data, user information, management of the packetizer, and a packetizer in response to a real-time communication request from a user. A communication manager that performs call connection control between the packet switching device, a packet switching device that performs a switching process and a sending process of each packet, and a packet transfer system including a plurality of lines formed by connecting the packet switching devices. By monitoring the call connection control signal for real-time communication, the packet switching apparatus can control call connection control information for the communication included in the call connection control packet for real-time communication generated and transmitted from the packetizing apparatus. Based on IP address, port number, quality class information, required bandwidth information The number of real-time communication connection lines or the bandwidth used for real-time communication on one line is monitored, and during the period in which the number of real-time communication connection lines or the bandwidth used for real-time communication on the monitored line does not reach the specified value, the packet switching device newly starts. When the number of real-time communication connection lines or the bandwidth used for real-time communication on the monitored line reaches a specified value, the packet switching device transmits the newly generated communication to the monitoring line. A communication adaptive packet transfer system for transferring, discarding, or rejecting another packet to a specified line. 3. A packet communication network including a plurality of packetizers for packetizing real-time and non-realtime communication data, user information, management of the packetizer, and a packetizer in response to a real-time communication request from a user. A communication manager that performs call connection control between the packet switching device, a packet switching device that performs a switching process and a sending process of each packet, and a packet transfer system including a plurality of lines formed by connecting the packet switching devices. The packet switching device determines the number of real-time communication connection lines on one line based on the source / destination IP address, destination / port number, packet type, quality class information, packet length, and number of packets of the real-time communication packet transferred on one line. Alternatively, monitor the bandwidth used for real-time communication and monitor the line During the period when the number of real-time communication connection lines or the bandwidth used by the real-time communication does not reach the specified value, the packet switching device transfers newly generated communication packets to the line to be monitored and the real-time communication connection line on the line to be monitored. During the period when the number or the bandwidth used by the real-time communication reaches the specified value, the packet switching apparatus transfers the newly generated communication packet to another specified line, or discards or rejects the packet. Characteristic communication adaptive packet transfer system. 4. A packet communication network including a plurality of packetizers for performing packetization processing of real-time and non-real-time communication data, user information, management of packetizers, and packetizers associated with real-time communication requests from users. A communication manager that performs call connection control between the packet switching device, a packet switching device that performs a switching process and a sending process of each packet, and a packet transfer system including a plurality of lines formed by connecting the packet switching devices. The packet switching device transmits / receives an IP address, a destination / port number, a packet length of a packet transferred on one line,
The usage rate, bandwidth, or packet loss rate of one line is monitored by the number of packets and the sequence number, and during the period when the line usage rate, bandwidth, or packet loss rate does not reach the specified value, The packet switching device forwards the newly generated communication packet to the line to be monitored, and during the period when the line usage rate, the used bandwidth, or the packet discard rate reaches a specified value, the packet switching device newly transmits the packet. A communication adaptive packet transfer system characterized in that a communication packet generated in a communication is transferred to another line to be specified, or is discarded or rejected. 5. A packet communication network including a plurality of packetizers for packetizing real-time and non-real-time communication data, user information, management of the packetizer, and a packetizer in response to a real-time communication request from a user. A communication manager for performing call connection control between the packetizer, a packet identification device having a function of assigning an identifier to a packet transmitted from the packetizer, a packet switching device for performing exchange processing and transmission processing of each packet, In a packet transfer system including a plurality of lines formed by connecting packet switching devices, a communication manager includes a communication manager for real-time communication included in a call connection control packet for real-time communication generated and transmitted from the packetizing device. Call connection control information, outgoing and incoming IP addresses,
Monitors the number of real-time communication connection lines or the bandwidth used for real-time communication on one line based on the port number, quality class information, and required bandwidth information, and the number of real-time communication connection lines or the real-time communication bandwidth does not reach the specified value. During the period, the packet identification device assigns a preset identifier to a newly generated communication packet, and during the period when the number of real-time communication connection lines or the band used by the real-time communication reaches a value specified, the communication manager The packet identification device instructs the packet identification device to assign another identifier to be specified to the communication packet generated in the communication, and the packet identification device assigns the identifier specified by the communication manager to the newly generated communication packet, and performs packet switching. The device performs packet processing for each of the assigned identifiers, that is, a preset identification. Communication adaptive packet forwarding system packet is transferred to the line to be monitored, the packet having a different identifier transferred to another line of the specified or, discarding, or, wherein the refuse with. 6. A packet communication network including a plurality of packetizers for packetizing real-time and non-realtime communication data, user information, management of the packetizer, and a packetizer in response to a real-time communication request from a user. A communication manager for performing call connection control between the packetizer, a packet identification device having a function of assigning an identifier to a packet transmitted from the packetizer, a packet switching device for performing exchange processing and transmission processing of each packet, In a packet transfer system comprising a plurality of lines formed by connecting packet switching devices, a packet identification device is generated and transmitted from a packetization device by monitoring a call connection control signal for real-time communication. The call connection control information of the communication included in the call connection control packet, Recognizes the IP address, the port number, the quality class information, and the required bandwidth information, monitors the number of real-time communication connection lines or the bandwidth used for real-time communication on one line, and designates the number of real-time communication connection lines or the bandwidth used for real-time communication. During a period in which the value does not reach the value, the packet identification device adds a preset identifier to a newly generated communication packet, and in a period in which the number of real-time communication connection lines or the band used by the real-time communication reaches the value specified,
The packet identification device adds the newly generated communication packet to the
The packet switching device assigns another identifier to be specified, and the packet switching apparatus performs packet processing for each assigned identifier, that is, transfers a packet having a preset identifier to a line to be monitored and designates a packet having another identifier to another Forwarded to a line, or discarded, or
A communication adaptive packet transfer system characterized by rejection. 7. A packet communication network including a plurality of packetizers for packetizing real-time and non-real-time communication data, user information, management of the packetizer, and a packetizer in response to a real-time communication request from a user. A communication manager for performing call connection control between the packetizer, a packet identification device having a function of assigning an identifier to a packet transmitted from the packetizer, a packet switching device for performing exchange processing and transmission processing of each packet, In a packet transfer system including a plurality of lines formed by connecting packet switching devices, a packet identification device includes a source / destination IP address, a destination / port number, a packet type, and a destination of a real-time communication packet transferred on one line. Real-time based on quality class information, packet length and number of packets The number of communication connection lines or the band used for real-time communication is monitored, and during the period when the number of connection lines for real-time communication or the band used for real-time communication does not reach the specified value, the packet identification device sets in advance a packet of a newly generated communication. When an identifier is assigned and the number of real-time communication connection lines or the real-time communication bandwidth reaches the specified value,
The packet identification device adds the newly generated communication packet to the
The packet switching device assigns another identifier to be specified, and the packet switching apparatus performs packet processing for each assigned identifier, that is, transfers a packet having a preset identifier to a line to be monitored, and designates a packet having another identifier to another designated packet. Forwarded to a line, or discarded, or
A communication adaptive packet transfer system characterized by rejection. 8. The system according to claim 6, wherein a packet identification device is newly generated in place of the packet switching device during a period when the number of real-time communication connection lines or the band used for real-time communication has reached a designated value. A communication adaptive packet transfer system for discarding or rejecting a communication packet to be transmitted.