KR101240059B1 - System and method for adjusting network traffic measurement interval - Google Patents

Abstract

PURPOSE: A traffic measuring period control system for measuring network traffic and a method thereof are provided to adaptively control a traffic measurement period by minimizing unnecessary energy consumption. CONSTITUTION: A calculation unit(210) calculates traffic variations for one or more network devices which connect network to network, network to termina,; or terminal to terminal. A control unit(220) controls a traffic measurement cycle for measuring network traffic in a network based on the traffic variations. A measurement unit(230) measures network traffic of the network device according to the controlled traffic measurement period. The calculation unit calculates the traffic variations by dividing the measured network traffic in a traffic measurement period. [Reference numerals] (210) Calculation unit; (220) Control unit; (230) Measurement unit

Description

SYSTEM AND METHOD FOR ADJUSTING NETWORK TRAINING MEASUREMENT TO MEASURE NETWORK TRAFFIC {SYSTEM AND METHOD FOR ADJUSTING NETWORK TRAFFIC MEASUREMENT INTERVAL}

Embodiments of the present invention relate to a system and method for adaptively adjusting a traffic measurement period for measuring network traffic.

More and more energy is being consumed in the operation, maintenance, and provision of products and services for IT operations. Energy consumption in IT-related industries has tripled between 2000 and 2005. In the future, carbon emissions from the IT sector are expected to account for about 10-15% of global carbon emissions in the coming years.

In the various types of network equipment forming the communication network, it is necessary to measure the traffic periodically to find out the network status and to monitor and manage the traffic congestion. In addition, by monitoring the traffic characteristics by measuring the type and amount of traffic, it is possible to monitor the abnormal flow of network traffic.

The status and control of network devices are actively managed based on control management protocols such as Simple Network Management Protocol (SNMP) and Common Management Information Protocol (CMIP).

Korean Patent Application Publication No. 10-2010-0045257 (published May 03, 2010) collects and inspects traffic in a shorter period of time than in the past by shortening the traffic measurement cycle within the range that does not increase the load on the inspection equipment. The technique which makes it is disclosed. However, the prior art applies only a short traffic measurement period for detailed network collection, and collects traffic at regular time intervals, and does not consider energy efficiency according to traffic measurement. If the traffic measurement cycle is made constant, network traffic is measured unnecessarily even when the traffic state is constant, resulting in unnecessary energy consumption due to traffic measurement.

In the present specification, a system and method for adaptively adjusting a traffic measurement period to measure network traffic efficiently in terms of energy are proposed.

Provided are a network traffic measurement system and method for adaptively adjusting a traffic measurement cycle to minimize unnecessary energy consumption due to traffic measurement.

Network traffic measurement systems and methods are provided that can reduce the overall number of traffic measurements by adjusting the traffic measurement period long when the traffic variation is small and by shortly adjusting the traffic measurement period when the traffic variation is large.

A calculator configured to calculate a traffic change amount of the network and the network, or at least one network equipment connecting the terminal and the terminal; An adjusting unit for adjusting a traffic measurement interval for measuring network traffic of the network device based on the traffic change amount; And it provides a network traffic measurement system including a measurement unit for measuring the network traffic of the network equipment according to the adjusted traffic measurement period.

According to one side, the calculator may calculate the traffic change amount (Δy / Δt) by dividing the network traffic (Δy) measured by the measuring unit by the traffic measurement period (Δt).

According to another aspect, the adjusting unit may increase the time interval of the traffic measurement period Δt by a predetermined ratio when the traffic change amount Δy / Δt is less than the reference value M.

According to another aspect, the adjusting unit may decrease the time interval of the traffic measurement period Δt by a predetermined ratio when the traffic change amount Δy / Δt is equal to or greater than the reference value M. FIG. At this time, as the time interval of the traffic measurement period Δt decreases, the adjuster maintains the time interval of the traffic measurement period Δt as a threshold when the threshold, which is a minimum time interval for measuring network traffic, is reached.

A network traffic measurement method of a network traffic measurement system for measuring traffic of a network device includes calculating a traffic change amount for a network and a network, or at least one network device connecting the terminal and the terminal; Adjusting a traffic measurement period for measuring network traffic of the network equipment based on the traffic change amount; And measuring network traffic of the network equipment according to the adjusted traffic measurement period.

When the traffic variation is small, the overall traffic measurement frequency can be reduced by lengthening the traffic measurement period and when the traffic variation is large, the traffic measurement period is shortened. Therefore, it is possible to reduce the energy consumption according to the traffic measurement by reducing the number of unnecessary traffic measurement.

Even if the traffic measurement cycle is shortened when the traffic variation is large, keeping the traffic measurement interval above the minimum time interval can reduce the overall traffic measurement frequency while considering the energy efficiency of the measurement platform measuring network traffic.

1 is a diagram illustrating a management configuration of a network traffic measurement system according to an embodiment of the present invention.
2 is a block diagram illustrating an internal configuration of a network traffic measurement system for adjusting a traffic measurement period in consideration of energy efficiency according to an embodiment of the present invention.
3 is a view for explaining a process of adjusting the traffic measurement period according to the traffic change amount.
4 is a flowchart illustrating a network traffic measurement method for adjusting a traffic measurement period in consideration of energy efficiency according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a management configuration of a network traffic measurement system according to an embodiment of the present invention.

Embodiments of the present invention can be constructed as a separate server system for measuring the network traffic for the network equipment 101 for the network equipment 101 forming the communication network, or directly to the individual network equipment 101 Or may be applied to higher-level systems that centrally control network equipment 101.

In the present embodiment, the network equipment 101 may refer to a network and a network, or a network and a terminal, or a communication device connecting the terminal and the terminal. In the present specification, the network equipment 101 may mean wired network equipment (Wired Networks), as well as wireless network equipment (Wireless Networks), an access point (AP), a base station (BS), a radio access station (RAS) It is used to encompass not only various types of communication relay equipment such as) but also various types of network equipment forming a communication network such as a metro access network and a core network.

For example, as shown in FIG. 1, the network traffic measurement system 100 monitors network conditions and detects and manages traffic congestion in a communication network in which a plurality of network devices 101 are connected through a communication line. Provide a measurement platform for measuring traffic for In other words, the network traffic measurement system 100 functions as a measurement server or cloud computing server that is commonly used to measure network traffic for a plurality of network equipment 101.

The network state or the traffic amount of the network device 101 can be measured based on various control management protocols defined for network management, such as Simple Network Management Protocol (SNMP) and Common Management Information Protocol (CMIP). Currently, SNMP and CMIP are actively used to manage the status or control of network equipment, and the network equipment is basically equipped with an interface to SNMP or CMIP. For example, when using different control management protocols and control techniques for each network device 101 or requiring local management, the network traffic measurement system 100 may provide an interface for each control management protocol or area for the network device 101. Separately configured regional management interface modules can be used. As another example, when the same control management protocol and control technique is used for each network device 101, or when integrated management is required, the network traffic measurement system 100 is common to the network device 101 as shown in FIG. 1. An integrated management interface module consisting of a common interface can be used.

In the present embodiment, the network traffic measurement system 100 may measure network traffic efficiently while adaptively adjusting the traffic measurement period according to the traffic change amount.

Referring to Figure 2, the internal configuration of the network traffic measurement system for adjusting the traffic measurement period in consideration of energy efficiency will be described in detail.

2 is a block diagram showing the internal configuration of a network traffic measurement system according to an embodiment of the present invention. As shown in FIG. 2, the network traffic measurement system 200 according to an embodiment may include a calculator 210, an adjuster 220, and a measurer 230.

The calculation unit 210 calculates a traffic change amount for the network equipment. In detail, the calculation unit 210 divides the traffic Δy measured by the measurement unit 230 to be described below by a time interval value of the traffic measurement period Δt corresponding to the time when the traffic Δy is measured. The traffic change amount Δy / Δt may be calculated. Initially, the amount of traffic change Δy / Δt can be calculated using an arbitrary time interval as the traffic measurement period Δt.

The adjusting unit 220 adjusts a traffic measurement period Δt for measuring network traffic based on the traffic change amount Δy / Δt. In detail, when the traffic change amount Δy / Δt is less than the reference value M, the adjustment unit 220 may increase the value of the traffic measurement period Δt by a predetermined ratio. Meanwhile, the adjusting unit 220 may decrease the value of the traffic measurement period Δt by a predetermined ratio when the traffic change amount Δy / Δt is greater than or equal to the reference value M. FIG. Referring to FIG. 3, when the traffic change amount Δy / Δt is small, the traffic measurement period Δt is adjusted to be long so that measurement of network traffic is sparse, and when the traffic change amount Δy / Δt is large, It is to shorten the traffic measurement period [Delta] t between the traffic measurement points so that the traffic is frequently measured.

Further, when the traffic measurement period Δt decreases by a predetermined ratio based on the traffic change amount Δy / Δt, the adjuster 220 reaches a _threshold T _threshold set as a minimum time interval for measuring network traffic. After that, even if the traffic variation Δy / Δt is recognized as the reference value M or more, the traffic measurement period Δt is maintained at the threshold T _threshold which is the minimum interval. In other words, in order to consider energy efficiency, the total number of traffic measurements must be reduced as a result. Therefore, it is preferable to adjust the traffic measurement period [Delta] t for measuring network traffic to a value greater than or equal to the _threshold T _threshold .

The measurement unit 230 may measure network traffic according to the traffic measurement period Δt adjusted by the adjustment unit 220. Accordingly, the measurement unit 230 may reduce the overall traffic measurement frequency by measuring the traffic for the network equipment with the traffic measurement period Δt adaptively adjusted based on the traffic change amount Δy / Δt.

At this time, the value of the traffic measurement period Δt adjusted by the adjustment unit 220 and the value of the traffic Δy measured by the measurement unit 230 may be calculated by the calculation unit 210 to calculate the traffic change amount Δy / Δt. In this regard, the calculation unit 210 calculates a traffic change amount Δy / Δt which is a reference value for adjusting the traffic measurement period Δt based on the values of the traffic measurement period Δt and the traffic Δy. Can be calculated

Referring to Figure 4, the overall process of the network traffic measurement method for adjusting the traffic measurement period in consideration of energy efficiency will be described in detail.

4 is a flowchart illustrating a network traffic measurement method for adjusting a traffic measurement period in consideration of energy efficiency according to an embodiment of the present invention. In the network traffic measurement method according to the present embodiment, each step may be performed by the network traffic measurement system 200 described above.

In operation 410, the network traffic measurement system 200 first calculates a traffic change amount Δy / Δt for the network equipment. In other words, the network traffic measurement system 200 divides the recently measured traffic Δy by the time interval value of the traffic measurement period Δt corresponding to the point in time at which the traffic Δy is measured. Can be calculated.

In operation 420, the network traffic measurement system 200 may adjust a traffic measurement period Δt for measuring network traffic based on the traffic change amount Δy / Δt. Specifically, the network traffic measurement system 200 increases the value of the traffic measurement period Δt by a predetermined ratio when the traffic change amount Δy / Δt is less than the reference value M, and the traffic change amount Δy / Δt is based on the reference value. If the value M is greater than or equal to M, the value of the traffic measurement period Δt may be decreased by a predetermined ratio. At this time, the network traffic measurement system 200 reaches a _threshold T _threshold set as a minimum time interval for measuring network traffic as the traffic measurement period Δt decreases, and thereafter, the traffic change amount Δy / Δt becomes a reference value ( Even if it is recognized as M) or more, the traffic measurement period Δt is maintained at the threshold T _threshold which is the minimum interval.

In operation 430, the network traffic measurement system 200 may measure network traffic according to the traffic measurement period Δt adjusted in operation 420. That is, the network traffic measurement system 200 may measure network traffic with a traffic measurement period Δt that is adaptively adjusted based on the traffic change amount Δy / Δt.

Thereafter, the value of the traffic measurement period Δt adjusted in step 420 and the value of the traffic Δy measured in step 430 are transferred to step 410 so that the steps 410 to 430 may be performed. By performing the repetition, the traffic measurement period can be adaptively adjusted according to the traffic change amount, thereby reducing the total number of traffic measurement.

As described above, according to embodiments of the present invention, when the traffic change amount is small, the traffic measurement period is adjusted long, and when the traffic change amount is large, the overall traffic measurement frequency can be reduced by adjusting the traffic measurement period short. Therefore, it is possible to reduce the energy consumption according to the traffic measurement by reducing the number of unnecessary traffic measurement.

Furthermore, according to embodiments of the present invention, by maintaining the traffic measurement period over a minimum time interval, it is possible to reduce the overall traffic measurement frequency while considering the energy efficiency in the measurement platform for measuring network traffic.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

200: network traffic measurement system
210: calculation unit
220: control unit
230: measuring unit

Claims (10)

A calculator configured to calculate a traffic change amount of the network and the network, or at least one network equipment connecting the terminal and the terminal;
An adjusting unit adjusting a traffic measurement interval for measuring network traffic of the network equipment based on the traffic change amount; And
Measuring unit for measuring the network traffic of the network equipment according to the adjusted traffic measurement period
Including,
The calculation unit may calculate,
Calculating the traffic change amount Δy / Δt by dividing the measured network traffic Δy by the traffic measurement period Δt,
The adjusting unit,
If the traffic change amount Δy / Δt is equal to or greater than a reference value M, the time interval of the traffic measurement period Δt is decreased by a predetermined ratio, but as the time interval of the traffic measurement period Δt is decreased, the network traffic Maintaining the time interval of the traffic measurement period [Delta] t at the threshold when a threshold, which is a minimum time interval for measuring P, is reached.
Network traffic measurement system, characterized in that. delete The method of claim 1,
The adjusting unit,
Increasing the time interval of the traffic measurement period Δt by a predetermined ratio if the amount of change Δy / Δt is less than the reference value M
Network traffic measurement system, characterized in that. delete delete In the network traffic measurement method of the network traffic measurement system for measuring the traffic of the network equipment,
Calculating a traffic variation amount for the network and the network, or at least one network equipment connecting the terminal and the terminal;
Adjusting a traffic measurement period for measuring network traffic of the network equipment based on the traffic change amount; And
Measuring network traffic of the network equipment according to the adjusted traffic measurement period
Including,
The step of calculating the traffic change amount,
Calculating the traffic change amount Δy / Δt by dividing the measured network traffic Δy by the traffic measurement period Δt,
Adjusting the traffic measurement period,
If the traffic change amount Δy / Δt is equal to or greater than a reference value M, the time interval of the traffic measurement period Δt is decreased by a predetermined ratio, but as the time interval of the traffic measurement period Δt is decreased, the network traffic Maintaining the time interval of the traffic measurement period [Delta] t at the threshold when the threshold, which is the minimum time interval for measuring P, is reached.
Network traffic measurement method characterized in that. delete The method according to claim 6,
Adjusting the traffic measurement period,
Increasing the time interval of the traffic measurement period Δt by a predetermined ratio if the amount of change Δy / Δt is less than the reference value M
Network traffic measurement method characterized in that. delete delete

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