KR20020045330A - Network Performance Measurement System and Method of Network Performance Measurement using it - Google Patents

Abstract

PURPOSE: A system and a method for measuring network performance are provided to simultaneously measure the performance of each section using a passive measuring device when a test packet generated from an active measuring device moves from end to end. CONSTITUTION: A system for measuring network performance is comprised of a server(101), active measuring devices(102,105), and passive measuring devices(103,104). The server(101) creates a measurement schedule and transmits it to each measuring device(102-105). Also the server(101) receives measured results from the measuring devices(102-105), analyzes them, and outputs analyzed results. Each active measuring device(102,105) generates a test packet according to the created measurement schedule and transmits it to another active measuring device. Also each active measuring device(102,105) receives a test packet from another active measuring device(102,105), calculates network performance, and transmits a measured result to the server(101). Each passive measuring device(103,104) monitors and collects test packets according to the measurement schedule and transmits a measured result to the server(101).

Description

Network Performance Measurement System and Method of Network Performance Measurement using it}

The present invention relates to a network performance measuring system for measuring network performance, a method for measuring network performance using the same, and a computer-readable recording medium having recorded thereon a program for realizing the method. In this case, the network performance measurement system and network performance measurement using the passive measurement method in the active measurement method to measure the end-to-end or section-by-segment network performance values when a packet passes through the network with only one test packet transmission and reception. A method and a computer readable recording medium having recorded thereon a program for realizing the method.

Networks have complex configurations and traffic characteristics, and various methods for measuring their performance have been proposed and used.

Ultimately, this performance measurement is closely related to the design and planning of the initial stages of the network and the traffic engineering of the operational stages, and is basically a task to be fulfilled in all network related tasks.

Network performance measurement methods can be divided into active measurement methods and passive measurement methods according to their characteristics.

Active measurement method imposes a test packet on the network to measure performance and analyzes network performance by measuring characteristics such as delay and loss that occur after the packet passes through the network. Manual measurement affects network flow. It is a method of monitoring the performance of the packets flowing through the current network and collecting their characteristics without giving any knowledge.

The active and passive measurement methods have advantages and disadvantages, and it is not easy to predict the performance of a perfect network using only one method. However, the active measurement method is mainly used as a means for measuring the end-to-end Internet network quality from the user's point of view, and the manual measurement method is mainly used as a means for maintaining and managing the network from the network administrator's point of view.

In general, the manual measurement method has a problem that it is difficult to get out of the area of an autonomous system (hereinafter referred to as an "AS") managed by one management entity. Method is used.

A simple example of an active measurement method is to use ping, traceroute, etc. included in a host on a general network, and to measure and analyze the performance of a continuous network based on these basic functions. There is also a method of building and continuously operating a measurement server device.

The method using the ping calculates the total time required by sending a test packet to the target host and receiving a return packet. That is, the method calculates the time taken by adding the time that the packet is transmitted from the test host to the target host and the time of returning from the target host to the test host. Therefore, it is difficult to accurately predict the performance related to the user quality in a network where the two-way paths are asymmetric and thus are totally affected by completely different factors. Accordingly, a method using a dedicated measuring device appears. If the measuring method using the ping is a reciprocating measuring method, a one-way measurement can be performed using the dedicated measuring device.

The tonometer is not possible with a normal network host. The reason is that the times of the packet transmitting side and the receiving side should be synchronized. Therefore, a dedicated measuring device for performing a one-way measurement includes a visual synchronization function, and some of these devices have been commercialized, and are used in part for network performance measurement at home and abroad.

When the tonometric measurement is performed, the performance from the test host to the target host and the performance from the target host to the test host can be measured separately.

In summary, active measurement measures end-to-end performance, where one end is the test host and the other end is the target host, and for the one-way measurement, a dedicated measuring device with a visual synchronization device is required. do.

However, this method also lacks a clear classification of responsible materials due to quality deterioration, because the performance of the network is expressed only as a single end-to-end performance figure. Therefore, in order to measure the performance of each section using this method and apparatus, a pair of dedicated measuring devices must be installed in each section, and a problem arises in that several measurements must be performed.

In addition, there is a case in which end-to-end communication cannot accurately locate a dedicated measuring device at the point where a packet flows. This is because the dedicated measuring device is also difficult to install in the main section as a network host. As a result, it was difficult to measure the performance of each section with an existing device or technology, or there was a problem that accurate measurement was impossible.

The present invention has been proposed to solve the above problems, by introducing a passive measuring method in the active measuring method, the performance of each section is simultaneously measured by using a manual measuring instrument when the test packet generated in the active measuring instrument is moved from end to end. It is an object of the present invention to provide a network performance measuring system capable of performing the same, a network performance measuring method using the same, and a computer-readable recording medium having recorded thereon a program for realizing the method.

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

2 is a diagram illustrating an embodiment of a server included in a network performance measurement system according to the present invention.

Figure 3 is an embodiment configuration of an active meter according to the present invention.

Figure 4 is a configuration diagram of an embodiment of a manual measuring instrument according to the present invention.

5 is a flowchart illustrating an exemplary network performance measurement process of a network performance measurement system according to the present invention.

* Explanation of symbols for the main parts of the drawings

101: server 102, 105: active measuring instrument

103, 104: Manual measuring instrument

In accordance with another aspect of the present invention, there is provided a network performance measurement system, comprising: measurement control / analysis means for generating and transmitting a measurement schedule and analyzing the received measurement result to display the analysis result; The test packet is generated and transmitted to other active measurement means according to the measurement schedule from the measurement control / analysis means, the end-to-end performance of the network is calculated from the test packet received from the other active measurement means, and the measurement result is measured. Active measuring means for transmitting to the analyzing means; And manual measurement means for monitoring and collecting test packets according to the measurement schedule from the measurement control / analysis means and transmitting the measurement results for the performance of each network section to the measurement control / analysis means. do.

On the other hand, the method of the present invention, the network performance measurement method applied to the network performance measurement system, the server receives a measurement schedule from the user to generate a measurement schedule for each measuring device; Transmitting, by the server, the generated measurement schedule to an active meter or a passive meter; A third step of the active meter measuring end-to-end performance of the network according to the measurement schedule and transmitting the measurement result to the server; A fourth step of receiving, by the manual measuring device, the measurement schedule and measuring performance of each network section according to the measurement schedule and transmitting the measurement result to the server; And a fifth step of the server analyzing the measurement results received from each of the measuring devices and outputting the analyzed results to the user.

On the other hand, the present invention, the network performance measurement system having a large capacity processor, the server receives a measurement schedule from the user to generate a measurement schedule for each measuring device; A second function of sending, by the server, the generated measurement schedule to an active meter or a passive meter; A third function of measuring, by the active meter, end-to-end performance of the network according to the measurement schedule and transmitting the measurement result to the server; A fourth function of the manual measuring instrument receiving the measuring schedule measuring the performance of each section of the network according to the measuring schedule and transmitting the measured result to the server; And a computer readable recording medium having recorded thereon a program for realizing a fifth function of analyzing, by the server, the measurement results received from the respective measuring devices and outputting the analyzed results to the user.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of an embodiment of a network performance measurement system according to the present invention, and shows the relationship between the devices constituting the measurement system in each element in the network.

As shown in FIG. 1, the network performance measurement system generates a measurement schedule and transmits the measurement schedule to each of the measuring devices 102 to 105, and analyzes the measuring result received from each of the measuring devices 102 to 105 to display the analysis result. (101) generates a test packet according to the measurement schedule from the server 101 and transmits the test packet to another active measuring instrument, calculates network performance from the test packet received from another active measuring instrument, and sends the measurement result to the server 101. Active measuring devices (102, 105) for transmitting, passive measuring devices (103, 104) for monitoring and collecting test packets according to the measurement schedule from the server 101, and transmits the measurement results to the server (101) do.

The active measuring method by the active measuring devices (102, 105) is mainly used as a means for measuring the quality of the end-to-end Internet network from the user's point of view, the manual measuring method by the manual measuring devices (103, 104) is characterized by It is mainly used as a means for measuring.

2 is a block diagram of an embodiment of a server included in a network performance measurement system according to the present invention.

As shown in FIG. 2, the server 101 of the measurement system may input or adjust a schedule from time to time, and input / receive the user interface 201 through which the user can view measurement results. The measurement schedule generating device 202 for generating a measurement schedule to be sent to each measuring device according to the adjusted schedule, the measurement schedule generated in the measurement schedule generating device 202 or the measurement schedule stored in the measurement schedule database 204, respectively. An active measuring device located at a predetermined place at a predetermined time due to the presence of a measuring schedule downloading device 203 for transmitting to the measuring device, a measuring schedule database 204 for maintaining the measuring schedule generated by the measuring schedule generating device 202, and It is responsible for sending the schedule to the manual measuring instrument.

In addition, the server 101 is a measurement result uploading device 205 for receiving measurement results from each measuring device and a measurement result analysis device 206 for analyzing the measurement results received by the measurement result uploading device 205, the analysis There is a measurement result update device 207 for updating the results and analyzes the measurement results received from each measuring instrument and provides the results to the user through the user interface 201, uploading the measurement results for its maintenance and future analysis A measurement result database 208 that stores the measurement results received via the device 205 and the analysis results analyzed by the measurement result analysis device 206.

3 is a block diagram of an exemplary embodiment of an active meter according to the present invention, and shows a representative functional block.

As shown in FIG. 3, the active measuring device includes a time synchronization device 301 for synchronizing the time with each measuring device for one-way measurement, and adjusts the correct time at any time, and calls each function in the measuring device according to a predetermined schedule. There is a time scheduler 302 to execute.

In addition, the active measuring device includes a measurement schedule download device 303 and a measurement result upload device 307 for downloading a schedule or uploading a measurement result through transmission and reception with the server.

In addition, the active measuring device generates a test packet for measurement and transmits a test packet to a target active measuring device 304 and a packet receiving device for receiving a test packet transmitted from another active measuring device for the active measuring device itself. Measurement results measured by the measurement result statistical processing unit 306 and the measurement result statistical processing unit 306 for calculating the network performance from the packet received through the device 305, the packet receiving device 305 and stored in a temporary database There is a temporary storage database 308 of the measurement results to temporarily store the results before uploading.

4 is a diagram illustrating a configuration of an exemplary embodiment of a manual measuring instrument according to the present invention, and shows a representative functional block.

As shown in Figure 4, the manual measuring device, there is a time synchronization device 401 for synchronizing the time with each measuring device for the one-way measurement to adjust the correct time from time to time, and to call and execute each function according to a predetermined schedule There is a time scheduler 402.

In addition, the manual measuring device includes a measurement schedule download device 403 and a measurement result upload device 406 for downloading a schedule or uploading a measurement result through transmission and reception with a server, and monitoring traffic flow and detecting a predetermined test packet. Measurement result statistical processing device 405 and measurement for statistically processing the packet monitoring and packet collection device 404 and the packet monitoring and collection results from the packet monitoring and packet collection device 404 to collect them in a temporary database It is composed of a temporary storage database 407 of the measurement results to temporarily store the results before uploading.

In particular, since the packet monitoring and packet collecting device 404 that monitors and collects packets operates only with a traffic receiving function, the packet monitoring and packet collecting device 404 does not participate in the flow of traffic including a test packet, and the contents of the packet are detected only when a predetermined test packet is detected. Read and record the time to measure performance. In this case, the test packet only reads the contents of the packet copied from the lower layer, and does not have any interest in transmitting the test packet to the destination.

The operation of the server described with reference to FIG. 2, the active meter described with reference to FIG. 3, and the passive meter described with reference to FIG. 4 will be described in detail with reference to FIG. 5.

5 is a flowchart illustrating a network performance measurement process of a network performance measurement system according to the present invention.

As shown in FIG. 5, the measurement is largely divided into a schedule preparation operation performed at the server, a measurement operation performed at each measuring instrument, and a measurement result processing operation at the server.

First, when a measurement schedule is input through the user interface (501), a measurement schedule is generated for each measuring instrument (502), and the measuring schedule generated by the server is a measuring schedule to be transmitted to an active measuring instrument or transmitted to a manual measuring instrument. It is determined whether the measurement schedule is to be transmitted according to each measuring device (503).

As a result of the determination, in the case of transmission to the active meter, the active meter downloads the measurement schedule from the server (504).

In operation 530, it is determined whether the operation of the active measuring device by the downloaded measuring schedule transmits a test packet to another measuring device at a predetermined time (505) or receives from another measuring device (506).

As a result of the determination 530, when the test packet is transmitted to another measuring instrument, a test packet is generated (505), and the test packet is transmitted to another measuring instrument and proceeds to the start process.

In the determination result 530, when the test packet is received from another measuring instrument, the test packet is received from the other measuring instrument (506), and after statistical processing of the measuring result (507), when the predetermined time is reached according to the measuring schedule, the server Upload to 508. In this case, the measurement result of receiving the test packet (506) is stored by statistical processing (507), and the process of transmitting the test packet or receiving and statistical processing of the test packet is usually performed several times within one schedule. It is supposed to perform.

As a result of the determination (503), in the case of transmission to the manual measuring instrument, the manual measuring instrument downloads the measuring schedule from the server (509), starts traffic monitoring at a time determined by the measuring schedule, and collects a predetermined test packet. In operation 510, the measurement result is statistically processed in operation 511 and uploaded to the server in accordance with the measurement schedule in operation 512.

The server receives the measurement results uploaded from each measuring instrument (513), analyzes the results for each measurement event (514), and updates the analysis results to provide them to the user (515).

As described above, the method of the present invention may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be apparent to those of ordinary knowledge.

The present invention as described above, by introducing a passive measuring method in the active measuring method it is possible to measure the performance for each section only by transmitting and receiving one test packet. Therefore, in the conventional active measurement method for tonsil measurement, it is possible to measure the performance of the network more efficiently by solving technical problems that are fundamentally difficult or impossible to measure accurately.

In addition, the present invention, both the user and the network administrator can distinguish the correct responsibility for the quality, there is an effect that can be performed to improve and maintain the network efficiently.

Claims (6)

In the network performance measurement system, Measurement control / analysis means for generating and transmitting a measurement schedule and analyzing the received measurement results to display the analysis results; The test packet is generated and transmitted to other active measurement means according to the measurement schedule from the measurement control / analysis means, the end-to-end performance of the network is calculated from the test packet received from the other active measurement means, and the measurement result is measured. Active measuring means for transmitting to the analyzing means; And Manual measurement means for monitoring and collecting test packets according to the measurement schedule from the measurement control / analysis means and transmitting the measurement results on the performance of each section of the network to the measurement control / analysis means. Network performance measurement system comprising a. The method of claim 1, The server, User interfacing means for inputting / adjusting a measurement schedule from a user and outputting a measurement result; Measurement schedule generation means for generating a measurement schedule to be sent to each measurement means according to a schedule input / adjusted through the user interfacing means; First measurement schedule downloading means for transmitting the measurement schedule generated in the measurement schedule generation means or the measurement schedule stored in the measurement schedule storage means to the corresponding measurement means; The measurement schedule storage means for maintaining the measurement schedule generated by the measurement schedule generation means; First measurement result uploading means for receiving a measurement result from each measurement means; Measurement result analysis means for analyzing the measurement result received by the first measurement result uploading means; Measurement result updating means for updating the analysis result analyzed by the measurement result analysis means; And Measurement result storage means for storing the measurement result received through the first measurement result uploading means and the analysis result analyzed by the measurement result analysis means Network performance measurement system comprising a. The method according to claim 1 or 2, The active measuring means, First time synchronization means for synchronizing the time with other active measurement means for one-way measurement; First time scheduling means for calling and executing each function in the active measuring means according to a predetermined schedule; Second measurement schedule downloading means for downloading a measurement schedule from the measurement control / analysis means; Packet generation means for generating a test packet for measurement according to the measurement schedule and transmitting the test packet to the target active measurement means; Packet receiving means for receiving a test packet transmitted from another active measuring means to the active measuring means itself; First measurement result statistical processing means for calculating end-to-end network performance from the packet received through said packet receiving means; Storage means for temporarily storing the first measurement result for temporarily storing the measurement result measured by the first measurement result statistical processing means before uploading; And Second measurement result uploading means for uploading the network end-to-end performance result measured by the measurement schedule to the measurement control / analysis means. Network performance measurement system comprising a. The method of claim 3, wherein The manual measurement means, Second time synchronization means for synchronizing the time with other measurement means; Second time scheduling means for calling and executing each function in the manual measurement means according to a predetermined schedule; Third measurement schedule downloading means for downloading the measurement schedule from the measurement control / analysis means; Packet monitoring and packet collecting means for monitoring the traffic flow of the network and collecting the predetermined test packet when it is detected; Second measurement result statistical processing means for statistically processing the packet monitoring and collection results in the packet monitoring and packet collection means; Second storage means for temporarily storing measurement results for temporarily storing the measurement results in the second measurement result statistical processing means before uploading; And Third measurement result uploading means for uploading the performance result for each section of the network measured by the manual measurement means; Network performance measurement system comprising a. In the network performance measurement method applied to a network performance measurement system, A first step of the server receiving a measurement schedule from a user and generating a measurement schedule for each measurement device; Transmitting, by the server, the generated measurement schedule to an active meter or a passive meter; A third step of the active meter measuring end-to-end performance of the network according to the measurement schedule and transmitting the measurement result to the server; A fourth step of receiving, by the manual measuring device, the measurement schedule and measuring performance of each network section according to the measurement schedule and transmitting the measurement result to the server; And A fifth step of the server analyzing the measurement results received from each of the measuring devices and outputting the analyzed results to a user Network performance measurement method comprising a. In a network performance measurement system with a large processor, A first function of the server receiving a measurement schedule from a user and generating a measurement schedule for each measuring device; A second function of sending, by the server, the generated measurement schedule to an active meter or a passive meter; A third function of measuring, by the active meter, end-to-end performance of the network according to the measurement schedule and transmitting the measurement result to the server; A fourth function of the manual measuring instrument receiving the measuring schedule measuring performance of each network section according to the measuring schedule and transmitting the measured result to the server; and A fifth function in which the server analyzes the measurement results received from each of the measuring devices and outputs the analyzed results to a user A computer-readable recording medium having recorded thereon a program for realizing this.