KR20070015808A - Traffic Conrtol Method of Network - Google Patents

Abstract

The present invention relates to a technique for improving traffic performance of a network. The present invention relates to a routing path configuration parameter by using time zone, day of week, and traffic usage information according to a usage pattern of a usage group to induce traffic distribution of a network. In addition, it provides a traffic control protocol that improves the network performance while reconfiguring the optimal routing path to cope with the performance degradation caused by the increase of network traffic.

Traffic, routing, protocol, network, distributed

Description

Traffic Control Method of Network

1 is a traffic control flowchart of a conventional network.

2 is a schematic flowchart of network traffic control according to an embodiment of the present invention;

* Explanation of symbols for main parts of drawings *

10; Measurement process

20; Information gathering process

30; Statistical process

40; Parameter calculation process

50; Parameter Change and Routing Reset Process

The present invention relates to a technique for improving traffic performance of a network, and in particular, to improve performance by routing path setting in a long period of time according to a usage pattern of a use group, so as to more effectively cope with a performance degradation due to an increase in network traffic. It relates to a traffic control method of a network.

As is well known, conventional techniques regarding network performance and QoS focus on traffic performance over time.

That is, the traffic control of the conventional network is divided into a traffic control method (QoS) by packet processing and a traffic control method by packet path setting, as shown in FIG.

The packet processing method is a processing policy decision method based on a priority of each corresponding packet, which does not go through packet routing by a method of controlling traffic of a network by a packet follower.

The traffic control method based on the packet routing is to increase the overall network performance by distributing traffic through a more efficient path in the network by using a parameter related to network status as a routing path configuration parameter.

However, although the packet processing method (QoS) is useful in network performance, it is impossible in actual network operation without equipment replacement.

In the traffic control scheme based on the packet path setting, since the parameters of the network state use a predetermined static value or can only be set by the user, the parameter value does not change dynamically in the network state change. However, this does not provide a way to dynamically control network traffic even when the routing path is reestablished.

For example, network state parameters used for routing routing in a protocol such as IGRT have a value as shown in the following equation.

(K1, K2, K3, K4, K5 are constant values)

Each variable of the above equation is a static parameter that is already determined as shown in Table 1.

 Communication media      Delay  Bandwidth  Ethernet  100 (1 msec)  1,000  1.544 Mbps  2,000 (20 msec)  6,476  64 Kbps  2,000  156,250

That is, in the related art, network state parameters are provided by fixed values, and since these values are parameters that cannot be changed dynamically, there is no change of values until they are directly modified by the user, and thus traffic that changes over time Current routing technology has the disadvantage that it is not possible to dynamically set the route according to the network state.

The present invention is to improve the above-mentioned conventional problems, and to optimize the routing path through the routing path setting parameter manipulation by using the time zone, day of week, traffic usage information according to the usage pattern of the usage group to induce traffic distribution of the network. By reconfiguring, the purpose of the present invention is to provide a traffic control method of a network that can more effectively cope with a performance degradation caused by an increase in network traffic while improving the performance of the network.

Traffic control method of the network for achieving the above object,

A first step of collecting traffic performance data using RMON / SMON for measuring traffic performance in a network and measuring data by time and day;

A second step of collecting data according to each routing path by collecting traffic performance data for each time and day measured by the step;

A third step of reclassifying the traffic performance data for each hour and day according to a routing path to calculate statistics;

A fourth step of converting network state parameters into routing parameter values usable in each protocol based on the calculated statistical data; And,

A fifth step of applying the converted parameter to a routing protocol and requesting a routing reset to the protocol to apply statistical data to the routing path reset; Characterized in proceeding to.

According to another feature of the invention, the parameter value of the fourth step is characterized in that it is calculated as (parameter value used in the protocol)-(constant K) * (bandwidth average occupancy ratio of the traffic).

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a traffic control flowchart of a network according to the present invention, which includes a measurement process 10, an information gathering process 20, a statistical process 30, a parameter calculation process 40 for setting a routing path, and a parameter change and Routing resetting process 50 is included, and each part of the system enables traffic control of the network.

That is, in the present invention, as shown in Figure 2, the performance measurement data used in the network equipment is measured by a standardized function known as RMON / SMON.

Therefore, after the measurement process 10 measures the traffic information using the standardized function as described above, the measurement result is accumulated by period (time or day of the week).

In this case, when the information collection process 20 requests accumulated measurement information to the measurement process 10, the measurement process 10 transfers the accumulated measurement information to the information collection process 20. ,

The information collection process 20 collects the accumulated measurement information for each routing path, collects measurement information for each routing path, and transmits the collection information to the statistical process 30.

Then, the statistics process 30 calculates the statistics on the traffic amount for each routing path based on the data collected by the information collection process 20 by each criterion.

Here, the statistical process 30 records when the amount of traffic flowing in the corresponding routing path exceeds a specific criterion and when it is released to extract only data values that may affect the routing path, and then the routing path setting parameter process. 40 to be delivered.

For example, if the collected data values are collected by time and the traffic bandwidth of the routing path is IG, the traffic volume for the hardware traffic bandwidth criterion is 60% (a criterion for changing the routing path as a specific criterion). In other words, only time zones with traffic volume greater than 600M * 3600 are selected, and only the time zones that are continuous for a certain period of time (a criterion of changing a routing path as a specific criterion) within the selected result value are selected. The average value of was used as a result value.

Thus, the routing path setup parameter process 40 changes the data value delivered from the statistics process 30 to a parameter value that can be used in the routing protocol.

That is, since the parameter used in the normal routing protocol is bandwidth, based on the parameter value assigned to the bandwidth, the routing path setting parameter process 40 performs the parameter of the path corresponding to the result data value passed by the statistical process 30. The routing path setting parameter process 40 resets the routing by subtracting a constant K from the parameter value used in the protocol and multiplying the average bandwidth share of the traffic. It will calculate the parameter value for.

For example, assuming that there are routing paths A, B, and C corresponding to the bandwidth of the IG port, when the result of the statistical process 30 is viewed, the tunnels have paths A and C, and the value for this path is A. Is 80%, C is 95%, and if the value of IG is 1000 as the parameter value of the corresponding path, the parameter value corresponding to the path A is a constant K (K value should be obtained from the experimental results). Value of 1000-80 * K.

In this case, when A, B, and C are all the same path in setting routing path, there is a difference in priority, and as a result, traffic distribution effect can occur and affect the overall network performance.

On the other hand, when the parameter value is converted as described above, the parameter change and routing resetting process 50 applies the converted parameter to the routing protocol and then requests the routing reset to the protocol, thereby calculating the calculated by the statistical process 30. Statistical data can be applied to routing rerouting to improve network performance.

As described above, the present invention is to reset the optimal routing path through the operation of the routing path setting parameters by time zone, day of week, traffic usage information according to the usage pattern of the use group to induce traffic distribution of the network, It creates the effect of improving the performance of the network more effectively while coping with the performance degradation caused by the increase of network traffic.

Claims (4)

A first step of collecting traffic performance data using RMON / SMON for measuring traffic performance in a network and measuring data by time and day; A second step of collecting data according to each routing path by collecting traffic performance data for each time and day measured by the step; A third step of reclassifying the traffic performance data for each hour and day according to a routing path to calculate statistics; A fourth step of converting network state parameters into routing parameter values usable in each protocol based on the calculated statistical data; And, A fifth step of applying the converted parameter to a routing protocol and requesting a routing reset to the protocol to apply statistical data to the routing path reset; Traffic control method of the network, characterized in that proceeds to. The method of claim 1, wherein the statistical data, A network characterized by recording when the amount of traffic flowing in a corresponding routing path exceeds a certain criterion and when it is released, extracting only the data values that may affect the routing path, and calculating the average value. Traffic control method. The method of claim 1, wherein the parameter value of the fourth step, A parameter value used in the protocol is a traffic control method for a network, characterized in that it is calculated by the formula of the average bandwidth occupancy rate of K * traffic. The method of claim 3, wherein the parameter value, A traffic control method of a network, characterized in that the conversion is performed by the analysis result of the traffic volume of the routing path corresponding to the bandwidth of each protocol of the protocol and the mapping of the route parameter value.

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