JP2005080001A - Communication controller, communication system and communication controlling method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication controller, communication system and communication controlling method capable of improving the use efficiency of a network by appropriate communication control. <P>SOLUTION: A network related information collecting part 102 collects network related information. A network state predicting part 108 predicts a future state of the network 300 on the basis of the collected network related information. A communication control part 110 performs communication control that should prevent communication quality deterioration when the predicted future state of the network 300 has a possibility of causing the communication quality deterioration. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a communication control apparatus that controls communication in a network.

  In a network used by an unspecified large number of people such as the Internet, a large amount of traffic exceeding a predetermined bandwidth may occur, or a large amount of processing exceeding the processing capability of a router or the like may occur. A communication carrier such as an Internet Service Provider (ISP) needs to perform control such as communication restriction in order to prevent deterioration of communication quality due to such congestion.

  A typical example of such control is a communication control method by an operator as shown in FIG. In this method, when the communication control device 600 collects information (network related information) related to the network 500 (step 501), the operator 700 refers to this network related information (step 502) to determine the communication quality due to congestion or the like. It is determined whether or not there is a possibility of deterioration (step 503). If there is a high possibility that communication quality will deteriorate, the operator 700 instructs the communication control device 600 to perform communication control (step 504). In response to this instruction, the communication control device 600 performs communication control of the network 500 such as applying communication restrictions.

As another communication control method, there is a communication control method based on a threshold as shown in FIG. In this method, a threshold value such as a traffic amount is statically determined in advance. When the communication control device 600 collects the traffic volume in the network 500 (step 601), it compares the traffic volume with a threshold (step 602). When the traffic amount exceeds the threshold, communication control of the network 500 such as communication restriction is performed (step 603) (see, for example, Patent Document 1).
JP-A-5-175997 (page 3, FIG. 1)

  However, in the above-described communication control method by the operator, since the operator 600 determines whether or not the communication quality is deteriorated, it depends on the experience and knowledge of the operator 600, and appropriate communication control is always performed. Is not limited. In addition, in the communication control method based on the threshold value, when the traffic amount exceeds the threshold value, the control is performed uniformly. Therefore, in the case where the traffic amount increases rapidly thereafter, the control is not in time. The processing limit of a router or the like may be reached. In such a case, by setting the threshold value low, it is possible to quickly control even when the traffic volume or the like rapidly increases thereafter. However, when the threshold is set low, there is a problem that the traffic discarded by the communication control increases and the utilization efficiency of the network 500 decreases.

  The present invention solves the above-described problems, and provides a communication control device, a communication system, and a communication control method capable of improving the utilization efficiency of a network by appropriate communication control.

  In order to solve the above-described problems, the present invention relates to a network-related information collecting unit that collects information related to a network and a network collected by the network-related information collecting unit. Network state prediction means for predicting the future state of the network based on information to be performed; and communication control means for controlling communication in the network based on the future state of the network predicted by the network state prediction means; It is a communication control apparatus provided with.

  According to a second aspect of the present invention, in the communication control device according to the first aspect, the network state prediction means includes a network collected by time series analysis and the network related information collection means. A future state of the network is predicted by comparing at least one of information related to the network and a model of information related to the network, and the communication control means switches the communication path and communicates within the network. At least one of adjustment of the data loss rate in the node is performed.

  According to a third aspect of the present invention, in the communication control device according to the first or second aspect, the network related information collecting unit is associated with the network with respect to the communication nodes in the network. Network-related information requesting means for requesting information to be received, and network-related information receiving means for receiving information related to the network transmitted from the communication node.

  According to a fourth aspect of the present invention, in a communication system having a communication node in a network and a communication control device that controls communication in the network, the communication control device is connected to the communication node. Network-related information requesting means for requesting information related to the network, and the communication node transmits information related to the network in response to a request for information related to the network from the communication control device. Network-related information transmitting means, wherein the communication control device receives information related to the network from the communication node and information related to the network collected by the network-related information collecting means. Predict the future state of the network based on A network state predicting means that, on the basis of the future state of the predicted the network by the network state predicting means, a communication system and a communication control means for controlling communication in the network.

  According to a fifth aspect of the present invention, in the communication control method for controlling communication in a network, information related to the network is collected, and the network is based on the information related to the collected network. Is a communication control method for predicting a future state of the network and controlling communication in the network based on the predicted future state of the network.

  In the present invention, the communication control device predicts the future state of the network based on the collected information related to the network, and controls communication in the network based on the prediction. The network utilization efficiency can be improved by appropriate communication control according to the state.

  According to the present invention, it is possible to improve the network utilization efficiency by appropriate communication control.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

  FIG. 3 is a diagram illustrating a configuration example of a communication system according to the present embodiment. In the communication system shown in the figure, the communication control apparatus 100 and routers 200-1 to 200-5 (hereinafter, these routers 200-1 to 200-5 are collectively referred to as “router 200”) are connected to each other. And a network 300 configured as described above.

  The communication control device 100 performs communication control of the network 300. The communication control apparatus 100 includes a network related information collection unit 102, a network state prediction unit 108, and a communication control unit 110. Among these, the network related information collection unit 102 has an information request function 104 and an information reception function 106.

  By using the information request function 104 and the information reception function 106, the network related information collection unit 102 uses a traffic amount of the network 300, a transmission delay time between the routers 200 in the network 300, a CPU operation rate in the router 200 in the network 300, and the like. Are collected as information related to the network 300 (network-related information).

  For collecting network-related information, various protocols such as a protocol such as SNMP (Simple Network Management Protocol) and COPS (Common Open Policy Service) and a protocol depending on the communication control device 100 are used. For example, when SNMP is used, the network related information collection unit 102 functions as an SNMP manager, and the router 200 functions as an SNMP agent. The information request function 104 transmits to the router 200 a Get Request that is a command for requesting information. The router 200 that has received this Get Request includes the collected network-related information in the command Get Response and transmits it to the network-related information collecting unit 102. The information receiving function 106 receives the Get Response from the router 200.

  Further, the network related information collection unit 102 outputs the collected network related information to the network state prediction unit 108.

  The network state prediction unit 108 predicts the future state of the network 300 based on the network related information from the network related information collection unit 102. For the future state prediction of the network 300, various time series analysis methods such as linear prediction and nonlinear prediction are used. As an example of linear prediction, prediction based on an auto recurrence (AR) model that predicts a future state from a past state, or a moving average that predicts a future state based on the average of a predetermined past state in the past There are predictions based on the (MA: Moving Average) model. On the other hand, one example of nonlinear prediction is prediction based on chaos theory.

  Further, the network state prediction unit 108 compares the network-related information (for example, fluctuations in traffic volume) from the network-related information collection unit 102 with a plurality of network-related information models (for example, traffic volume fluctuation models) in advance. And select the model of the network related information that is most approximate. Furthermore, the network state prediction unit 108 can predict the future state of the network 300 by setting the future state in the selected network-related information model as the future state of the network-related information.

  Furthermore, the network state prediction unit 108 notifies the communication control unit 110 of the predicted future state of the network 300.

  The communication control unit 110 determines whether the notified future state of the network 300 causes deterioration in communication quality. In the case where the communication quality is deteriorated, the communication control unit 110 performs communication control in order to prevent the deterioration of the communication quality. Examples of communication control include switching of a communication path (for example, a path in MPLS (Multi Protocol Label Switching)), reduction of a packet loss rate in an internal queue (not shown) of the router 200, and the like. For example, when the MPLS path is switched, the communication control unit 110 instructs the router 200 to change the label corresponding to the communication path. In response to this instruction, the router 200 changes the label added to the received packet, and forwards the packet with the changed label to the next router 200.

  Next, the operation of the communication system will be described with reference to sequence diagrams and flowcharts.

  FIG. 4 is a sequence diagram showing the operation of the communication system. The communication control apparatus 100 requests network related information from the router 200 (step 101). The router 200 transmits network related information to the communication control apparatus 100 in response to this request (step 102). When receiving the network related information, the communication control apparatus 100 predicts the future state of the network 300 based on the network related information (step 103). Furthermore, when the predicted future state of the network 300 causes deterioration in communication quality, the communication control apparatus 100 performs communication control on the network 300 including the router 200 (step 104).

  FIG. 5 is a flowchart showing an operation when attention is paid only to the communication control apparatus 100. The network related information collecting unit 102 in the communication control apparatus 100 collects network related information by the information collecting function 104 and the information receiving function 106 (step 201). For example, the information request function 104 requests network-related information from the router 200 in the network 300, and the information reception function 106 receives network-related information transmitted by the router 200 in response to this request.

  Next, the network state prediction unit 108 in the communication control apparatus 100 predicts the future state of the network 300 based on the collected network-related information (step 202). The communication control unit 110 determines whether or not the predicted future state of the network 300 causes deterioration in communication quality (step 203). If the communication quality is not deteriorated, the series of operations ends. On the other hand, when the communication quality is deteriorated, the communication control unit 110 performs communication control to prevent the deterioration of the communication quality (step 204).

  As described above, in the communication system according to the present embodiment, the communication control apparatus 100 collects network related information and predicts the future state of the network 300 based on the network related information. Furthermore, when the predicted future state of the network 300 causes a deterioration in communication quality, the communication control apparatus 100 performs communication control in order to prevent this. Therefore, unlike the conventional communication control method by an operator, it is possible to perform appropriate communication control without depending on the experience and knowledge of the operator. In addition, by setting the threshold value low as in the conventional communication control method based on the threshold value, it is possible to perform control quickly even when the traffic volume or the like rapidly increases thereafter. The traffic discarded by the control does not increase and the use efficiency of the network does not decrease. Therefore, the communication control apparatus 100 of this embodiment can improve the utilization efficiency of the network 300 by appropriate communication control.

It is a sequence diagram which shows the communication control by the conventional operator. It is a sequence diagram which shows the communication control based on the conventional threshold value. It is a figure which shows the structural example of the communication system of this embodiment. It is a sequence diagram which shows operation | movement of the communication system of this embodiment. It is a flowchart which shows operation | movement of the communication control apparatus of this embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Communication control apparatus 102 Network related information collection part 104 Information request function 106 Information reception function 108 Network state prediction part 110 Communication control part 200-1, 200-2, 200-3, 200-4, 200-5 Router 300 Network

Claims (5)

Network related information collecting means for collecting information related to the network;
Network state prediction means for predicting the future state of the network based on information related to the network collected by the network related information collection means;
Communication control means for controlling communication in the network based on the future state of the network predicted by the network state prediction means;
A communication control device comprising: The communication control device according to claim 1,
The network related information collecting means collects at least one of the traffic amount of the network, the transmission delay time of the network, and the CPU operation rate in a communication node in the network,
The network state predicting means may perform the future of the network by at least one of time series analysis and comparison of information related to the network collected by the network related information collecting means and a model of information related to the network. Predict the state of
The communication control unit is a communication control device that performs at least one of switching a communication path and adjusting a data loss rate in a communication node in the network. In the communication control device according to claim 1 or 2,
The network related information collecting means includes:
Network-related information requesting means for requesting information related to the network to a communication node in the network;
Network-related information receiving means for receiving information related to the network transmitted from the communication node;
A communication control device comprising: In a communication system having a communication node in a network and a communication control device for controlling communication in the network,
The communication control device includes:
Network-related information requesting means for requesting information related to the network to the communication node;
The communication node is
In response to a request for information related to the network from the communication control device, network related information transmitting means for transmitting information related to the network,
The communication control device includes:
Network-related information receiving means for receiving information related to the network from the communication node;
Network state prediction means for predicting the future state of the network based on information related to the network collected by the network related information collection means;
Communication control means for controlling communication in the network based on the future state of the network predicted by the network state prediction means;
A communication system comprising: In a communication control method for controlling communication in a network,
Collect information related to the network,
Predicting the future state of the network based on the information associated with the collected network;
A communication control method for controlling communication in the network based on the predicted future state of the network.

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