JP2008005368A - Method and system of controlling traffic among a plurality of bases - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a traffic controlling method which never causes an increase in delay time of traffic and a decline of band use efficiency by controlling output traffic of each communication device even if the network is increased in scale. <P>SOLUTION: The traffic controlling method in a network system which includes a plurality of communication devices connected to the network and a control server includes: a step wherein each communication device sends a traffic amount to the communication device generated within a predetermined time period as traffic information of each destination communication device to the control server; and a step wherein the control server sends a transmission band of each destination communication device to each communication device based on the received traffic information. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a traffic control technique for controlling traffic generated from each communication device in a network system in which a plurality of communication devices are connected.

  As a traffic control method, based on the bandwidth prediction information acquired from the outside, the bandwidth control agent of each device performs control, or the data transmission control information is exchanged between the data transmission source and the data reception source to start data transmission There is a method for centrally managing the time and bandwidth used in the entire network. In addition, a method for reserving and releasing a band for each data transfer has been proposed (see Non-Patent Document 1, for example).

R, Braden et al, “Resource Reservation Protocol (RSVP) Version 1 Functional Specification”, IETF RFC2205, September 1997.

  In traffic control according to the prior art, as the network scale increases, the amount of information for bandwidth control and the amount of computation for that information become enormous, and the bandwidth control agent of each device becomes highly loaded. Further, it takes time to transmit and receive information for managing and / or controlling the bandwidth due to an increase in the network scale, which causes an increase in traffic delay time and a decrease in bandwidth usage efficiency.

  Therefore, the present invention provides a traffic control method and system that controls the output traffic of individual communication devices even if the scale of the network increases, and does not cause an increase in traffic delay time or a decrease in bandwidth usage efficiency. For the purpose.

According to the traffic control method of the present invention,
A traffic control method in a network system including a plurality of communication devices connected to a network and a control server, wherein the communication device determines a traffic amount to each communication device generated within a predetermined period for each destination communication device. Transmitting the traffic information to the control server in this cycle, and the control server transmitting the transmission band for each destination communication device to each communication device based on the received traffic information.

According to another embodiment of the communication device of the present invention,
It is also preferable that the communication device restricts the transmission band of traffic transmitted to each communication device to be equal to or less than the transmission band received from the control server.

According to another embodiment of the communication device of the present invention,
The communication devices are grouped, the control server includes an inter-group control server and an intra-group control server arranged in each group, and each communication device transmits traffic information to the intra-group control server of its own group. The internal control server transmits the inter-group traffic information whose destination communication device is another group among the received traffic information to the inter-group control server, and the inter-group control server is directed to the other group based on the inter-group traffic information. The intra-group transmission band indicating the transmission band is transmitted to each intra-group control server, and the intra-group control server receives the intra-group traffic information in which the destination communication device is the own group among the received traffic information and the inter-group reception Based on the transmission bandwidth, determine the transmission bandwidth for the communication devices in the group. Te, it is also preferable to transmit to each communication device.

Furthermore, according to another embodiment of the communication device of the present invention,
The inter-group control server predicts the traffic between groups based on the inter-group traffic information, and determines the inter-group transmission bandwidth so that congestion does not occur at the confluence point of each group in the network connecting the groups. Is also preferable.

Furthermore, according to another embodiment of the communication device of the present invention,
It is also preferable that the intra-group control server determines a transmission band of each communication device so that congestion does not occur at a traffic junction point of the communication devices in the group.

Furthermore, according to another embodiment of the communication device of the present invention,
It is also preferable that the cycle in which the inter-group control server notifies the intra-group control server of the inter-group transmission band is longer than the cycle in which the communication apparatus notifies the traffic information to the intra-group control server.

According to the traffic control system of the present invention,
A traffic control system comprising an inter-group control server and an intra-group control server for each group including a plurality of communication devices, wherein the intra-group control server Means for receiving traffic information, means for dividing the traffic information into inter-group traffic information whose destination communication device is another group and intra-group traffic information that is its own group, and inter-group traffic information in the inter-group control server Based on the means for transmitting, the means for receiving the inter-group transmission band information from the inter-group control server, the intra-group traffic information, and the inter-group transmission band information, the transmission band for each destination communication apparatus is set for the communication device of its own group. The means to determine and the determined transmission bandwidth Means for notifying the communication device, the inter-group control server receives the inter-group traffic information from the intra-group control server, and based on the inter-group traffic information from each intra-group control server, for each group, It has means for determining an inter-group transmission band which is a transmission band of traffic destined for another group, and means for notifying the intra-group control server of the determined inter-group transmission band.

  By using the control server to periodically collect traffic information from each communication device and determining the bandwidth of each communication device, it is possible to dynamically avoid the occurrence of congestion.

  The communication devices connected to the network are grouped, and the control server is configured by an intra-group control server corresponding to each group and an inter-group control server that controls the intra-group control server. To control traffic across the network. On the other hand, by allowing the intra-group control server to perform intra-group traffic control, the load on the control server can be kept low, and traffic control independent of the network scale can be performed.

  The inter-group control server notifies the intra-group control server of the inter-group transmission band indicating the total traffic from one group to the other group, and the intra-group control server The total traffic to be transmitted to each communication device is limited to the inter-group transmission bandwidth or less, and the transmission bandwidth of each communication device is determined so that congestion does not occur at a junction in the own group. As a result, fluctuations in traffic between groups can be adjusted by the intra-group control server within the range within the inter-group transmission band, and even in networks where it takes time to exchange information for bandwidth management and control. It is possible to prevent an increase in delay time and a decrease in bandwidth use efficiency.

  BEST MODE FOR CARRYING OUT THE INVENTION The best mode for carrying out the present invention will be described below in detail with reference to the drawings.

  FIG. 1 is a block diagram of a traffic control system according to the present invention. According to FIG. 1, the traffic control system includes a node device 3 connected to the network, a plurality of communication devices 1 connected to the node device 3, and one intra-group control server 2 connected to the node device 3. The group 100 includes a plurality of groups 100 and an inter-group control server 4 connected to the network.

  The node device 3 is a traffic junction point of the communication devices 1 in the group. Although not shown, there are a plurality of merging points of traffic from each group in the network.

  FIG. 2 is a block diagram of the communication apparatus 1 of the present invention. According to FIG. 2, the communication device 1 includes a traffic input unit 11, a traffic data storage unit 12, a traffic transmission unit 13, a traffic monitoring unit 14, a traffic information collection unit 15, a traffic information transmission unit 16, and a transmission. And a bandwidth controller 17.

  The traffic input unit 11 receives data input to the communication device 1 and outputs the data to the traffic data storage unit 12, and the traffic transmission unit 13 is notified from the transmission bandwidth control unit 17 for each destination communication device 1. The data stored in the traffic data storage unit 12 is transmitted according to the transmission band.

  Further, the traffic monitor unit 14 monitors the destination and the amount of data input to the traffic input unit 11, and the traffic information collection unit 15 obtains the figure from the monitoring result of the traffic monitor unit 14 at regular intervals T 0. The traffic information notification packet shown in 5 (a) is generated, and the traffic information transmission unit 16 transmits the traffic information notification packet to the intra-group control server 2 of the same group. Further, the transmission band control unit 17 receives the transmission band notification packet shown in FIG. 5B from the intra-group control server 2 in the same group, and sets the transmission band for each destination communication device 1 included in the traffic transmission unit 13. Output to.

  As shown in FIG. 5A, the traffic information notification packet is an address of the destination intra-group control server 2, an address of the transmission source communication device 1, and an identifier indicating that the packet is a traffic information notification packet. And traffic measurement time and traffic information for each destination communication device 1 of the transmission source communication device 1, that is, each field indicating the amount of data within the measurement time.

  Further, as shown in FIG. 5B, the transmission bandwidth notification packet is an address of the transmission destination communication device 1, an address of the transmission source intra-group control server 2, and a transmission bandwidth notification packet. Each field indicating the transmission band for each destination communication device 1 of the destination communication device 1.

  FIG. 3 is a block diagram of the intra-group control server 2 of the present invention. According to FIG. 3, the intra-group control server 2 includes a transmission band notifying unit 21, a transmission band calculating unit 22, an inter-group transmission band information receiving unit 23, a traffic information receiving unit 24, a traffic information selecting unit 25, And an inter-group traffic information transmission unit 26.

  The traffic information receiving unit 24 receives a traffic information notification packet from each communication device 1 in the same group and outputs it to the traffic information selecting unit 25.

  The traffic information selection unit 25 outputs the intra-group traffic information whose destination is the communication device 1 in its own group to the transmission band calculation unit 22 among the traffic information included in the traffic information notification packet, and the destination is the communication of the other group For the inter-group traffic information that is the device 1, the traffic information from each communication device 1 is aggregated to generate an inter-group traffic information notification packet shown in FIG. 5 (c). The inter-group traffic information notification packet is transmitted to the inter-group control server 4.

  Further, the inter-group transmission band information receiving unit 23 receives the inter-group transmission band notification packet shown in FIG. 5 (d), which is transmitted by the inter-group control server 4 every period T1 longer than the period T0. The result is output to the calculation unit 22.

  As shown in FIG. 5C, the inter-group traffic information notification packet includes the address of the destination inter-group control server 4, the address of the source intra-group control server 2, and the inter-group traffic information notification packet. The traffic information aggregated for each destination group from the group to which the intra-group control server 2 belongs to another group, that is, each data indicating the amount of data within the measurement time Has a field.

  As shown in FIG. 5D, the inter-group transmission band notification packet includes the address of the destination intra-group control server 2, the address of the source inter-group control server 4, and the inter-group transmission band notification. And a field indicating an inter-group transmission band information which is a transmission band for each destination group of the group to which the transmission destination intra-group control server 2 belongs.

  The transmission band calculation unit 22 converts the intra-group traffic information input from the traffic information selection unit 25 every period T0 and the inter-group transmission band information included in the inter-group transmission band notification packet received every period T1. Based on this, the transmission band for each communication apparatus 1 in its own group to the other communication apparatus 1 is determined by a predetermined calculation method, and the transmission band notification packet shown in FIG. 5B is generated. Therefore, the transmission band destined for the communication device 1 in the group is updated every cycle T0, and the transmission band destined for the communication device 1 in another group is updated every cycle T1. The transmission band notification unit 21 transmits a transmission band notification packet to each communication device 1 in the group.

  More specifically, the transmission band calculating unit 22 limits the total of each group of traffic transmitted from the communication device 1 in its own group to the communication device 1 of another group to be equal to or less than the inter-group transmission band, and The transmission band of each communication device 1 is determined so that congestion does not occur at a meeting point in the own group. As a result, fluctuations in traffic between groups can be adjusted by the intra-group control server within the range within the inter-group transmission band, and even in networks where it takes time to exchange information for bandwidth management and control. It is possible to prevent an increase in delay time and a decrease in bandwidth use efficiency.

  FIG. 4 is a block diagram of the inter-group control server 4 of the present invention. As shown in FIG. 4, the inter-group control server 4 includes an inter-group transmission band information notifying unit 41, an inter-group transmission band prediction calculating unit 42, and an inter-group traffic information receiving unit 43.

  The inter-group traffic information receiving unit 43 receives the inter-group traffic information notification packet shown in FIG. 5C from each intra-group control server 2 and outputs it to the inter-group transmission band prediction calculation unit 42. The inter-group transmission band prediction calculation unit 42 performs a prediction calculation for each period T1 based on the inter-group traffic information included in the inter-group traffic information notification packet, and uses the transmission band for each group for each destination group. A certain inter-group transmission band is determined, and an inter-group transmission band notification packet shown in FIG. 5 (d) is generated. The inter-group transmission band information notification unit 41 transmits the inter-group transmission band notification packet to each group. It transmits to the control server 2.

  Here, the inter-group transmission band prediction calculation unit 42 determines the inter-group transmission band so that congestion does not occur at the traffic junction point in the network.

  FIG. 6 is a flowchart showing processing in the communication apparatus 1 in the traffic control method of the present invention.

  The communication device 1 resets the elapsed time T to 0 (S61) and collects traffic information (S62). When the transmission bandwidth notification packet is received (S63), the control is updated (S64) so that the traffic volume to be output is equal to or less than the transmission bandwidth for each destination included in the transmission bandwidth notification packet. Every time (S65), the collected traffic information is transmitted to the intra-group control server in a traffic information notification packet (S66).

  FIG. 7 is a flowchart showing processing in the intra-group control server 2 in the traffic control method of the present invention.

  When the intra-group control server 2 receives the traffic information notification packet (S71), the intra-group control server 2 classifies the included traffic information into intra-group traffic information and inter-group traffic information. The inter-group control server 4 is notified by a notification packet (S72). Further, when the inter-group transmission band notification packet is received (S73), based on the intra-group traffic information and the inter-group transmission band included in the inter-group transmission band notification packet, each communication device 1 in the own group The transmission band for each destination communication apparatus 1 is determined, and the determined transmission band is notified to each communication apparatus 1 using a transmission band notification packet (S74). When the inter-group transmission band notification packet is not received (S73), the transmission band is similarly determined and notified to each communication device 1 based on the intra-group traffic information and the previously received inter-group transmission band (S75). To do.

  FIG. 8 is a flowchart showing processing in the inter-group control server 4 in the traffic control method of the present invention.

  When the inter-group control server 4 resets the elapsed time T to 0 (S81), receives the inter-group traffic notification packet (S82), and reaches T = T1 (S83), the inter-group traffic information is aggregated ( S84), the inter-group transmission band is predicted for each destination group (S85), and the inter-group transmission band information is notified to each intra-group control server 2 in the inter-group transmission band notification packet (S86). To do.

  FIG. 9 is a sequence diagram of the traffic control method according to the present invention. The communication device 1 collects the traffic information and notifies the intra-group control server 2 of the traffic information for each destination communication device 1 in the cycle T0. Similarly, for each destination transmitted from the intra-group control server 2 in the cycle T0. The traffic to each communication device 1 is controlled so as to be equal to or less than the transmission band.

  The intra-group control server 2 notifies the inter-group control server 4 of inter-group traffic information destined for other groups among the traffic information for each destination transmitted from each communication device 1 in the cycle T0, Determines the transmission band based on the intra-group traffic information that is the destination and the inter-group transmission band transmitted from the inter-group control server 4 in the cycle T1, and notifies the communication apparatus 1 of the transmission band.

  Based on the inter-group traffic information transmitted from each intra-group control server 2, the inter-group control server 4 predicts the inter-group transmission band for each cycle T 1 and notifies the intra-group control server 2.

  FIG. 10 is a diagram for explaining the transmission band update operation. In FIG. 10, the device D is the communication device 1 of the other group 100. As shown in FIG. 10, the transmission band addressed to the communication device 1 in its own group is updated at the short cycle T0, and the transmission band addressed to the communication device 1 in the other group is updated at the long cycle T1. Since the transmission band addressed to the communication device 1 of the other group is updated as a band transmitted from the entire own group, the band transmitted from the entire own group in a short cycle T0 is applied to fluctuations in traffic information within the own group. Variations can be absorbed within the range.

It is a block diagram of the traffic control system by this invention. It is a block diagram of the communication apparatus of this invention. It is a block diagram of the control server in a group of the present invention. It is a block diagram of the control server between groups of this invention. It is a figure which shows each packet. It is a flowchart which shows the process in a communication apparatus in the traffic control method of this invention. In the traffic control method of this invention, it is a flowchart which shows the process in the control server in a group. It is a flowchart which shows the process in the inter-group control server in the traffic control method of this invention. It is a sequence diagram of the traffic control method by this invention. It is a figure explaining the transmission band update operation | movement in the communication apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Communication apparatus 11 Traffic input part 12 Traffic data storage part 13 Traffic transmission part 14 Traffic monitoring part 15 Traffic information collection part 16 Traffic information transmission part 17 Transmission bandwidth control part 2 In-group control server 21 Transmission bandwidth notification part 22 Transmission bandwidth calculation part 23 Inter-group transmission band information reception unit 24 Traffic information reception unit 25 Traffic information selection unit 26 Inter-group traffic information transmission unit 3 Node device 4 Inter-group control server 41 Inter-group transmission band information notification unit 42 Inter-group transmission band prediction calculation unit 43 Inter-group traffic information receiver 100 groups

Claims (7)

A traffic control method in a network system including a plurality of communication devices connected to a network and a control server,
The communication device transmits the traffic amount to each communication device generated within a predetermined cycle to the control server in the cycle as traffic information for each destination communication device;
The control server transmits a transmission band for each destination communication device to each communication device based on the received traffic information;
A method characterized by comprising: The communication device limits the transmission band of traffic to be transmitted to each communication device to be equal to or less than the transmission band received from the control server,
The method of claim 1, wherein: The communication devices are grouped, and the control server includes an inter-group control server and an intra-group control server arranged in each group,
Each communication device sends traffic information to the group internal control server,
The intra-group control server sends the inter-group traffic information whose destination communication device is another group among the received traffic information to the inter-group control server,
The inter-group control server transmits the inter-group transmission band indicating the transmission band for each destination group of each group to the intra-group control server based on the inter-group traffic information,
The intra-group control server transmits to each communication device in the own group based on the intra-group traffic information in which the destination communication device is the own group among the received traffic information and the inter-group transmission band to be received. Determining another transmission band,
The method according to claim 1, wherein: The inter-group control server predicts traffic between groups based on inter-group traffic information, and determines an inter-group transmission band so that congestion does not occur at a traffic confluence point in the network connecting the groups.
The method according to claim 3. The intra-group control server limits the total for each group of traffic destined for communication devices of other groups to the inter-group transmission band or less, and prevents the congestion at the traffic confluence point in its own group. To determine the
The method according to claim 3 or 4, characterized in that:   6. The cycle according to which the inter-group control server notifies the inter-group transmission bandwidth to each intra-group control server is longer than the cycle in which the communication apparatus notifies the traffic information to the intra-group control server. The method according to claim 1. A traffic control system having an inter-group control server and an intra-group control server provided for a group including a plurality of communication devices,
The intra-group control server
Means for receiving traffic information for each destination communication device from each communication device of its own group;
Means for classifying traffic information into inter-group traffic information whose destination communication device is another group and intra-group traffic information which is its own group;
Means for sending inter-group traffic information to the inter-group control server;
Means for receiving an inter-group transmission band from an inter-group control server;
Based on intra-group traffic information and inter-group transmission band, a means for determining a transmission band for each destination communication apparatus for the communication apparatus of its own group;
Means for notifying the determined transmission band to each communication device of the own group;
Have
The inter-group control server has a means for receiving inter-group traffic information from the intra-group control server,
A means for determining an inter-group transmission band, which is a transmission band for each destination group of each group, based on the inter-group traffic information from each intra-group control server;
Means for notifying the intra-group control server of the determined inter-group transmission bandwidth;
A traffic control system comprising:

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