KR20090001009A - Method for measuring handover delay of mobile terminals in mobile ipv6 (mipv6) networks - Google Patents

Abstract

A hand over delay time measuring method using data traffic of a mobile terminal in mobile IPv6 network is provided to measure user handover delay time without additional software in the mobile terminal. Traffic is transmitted through IPv6 access router(110) by connecting a mobile terminal(100) to home network(120) before handover. If handover is occurred by moving the mobile terminal to outer network, a handover binding update message is transmitted to the access router 1 through an access router 2(111) of the external network. The access router 1 receives the handover completion message and transmits BA(Binding Acknowledgment) message to the mobile terminal.

Description

Method for measuring handover delay using data traffic of a mobile terminal in a mobile IPv6 network {method for measuring handover delay of mobile terminals in mobile IPv6 (MIPv6) networks}

1 is a diagram illustrating a handover delay time by observing user upload traffic in a mobile IPv6 network to which a route optimization scheme according to an embodiment of the present invention is not applied.

2 is a diagram illustrating a handover delay time by observing user upload traffic in a mobile IPv6 network to which a route optimization scheme according to an embodiment of the present invention is applied.

3 is a diagram for calculating handover delay time by observing user download traffic in a mobile IPv6 network to which a route optimization scheme according to an embodiment of the present invention is not applied.

4 is a diagram for calculating handover delay time by observing user download traffic in a mobile IPv6 network to which a route optimization scheme according to an embodiment of the present invention is applied.

FIG. 5 is a diagram illustrating a process of collecting packets measured by each access router and transmitting the packets to an IPv6 / MIPv6 traffic analysis server.

FIG. 6 is a diagram illustrating a process of detecting an IPv6 data flow, a handover complete message, and a response message in an access router and transmitting the same to a traffic analysis server.

7 is a diagram illustrating a process of calculating a handover delay time from data transmitted from an access router in a traffic analysis server.

The present invention relates to a method for measuring a handover delay time of a mobile terminal in a mobile IPv6 (MIPv6) network, and more particularly, does not cause unnecessary traffic to a terminal and does not require a specific program to be installed in a router. The present invention relates to a method for measuring a handover delay time of a mobile terminal.

In the existing Internet, a host is assigned an internet protocol (IP) address consisting of a network identifier and a host identifier.If a host establishes a connection with another host, the same IP address must be kept fixed while the connection is established. . However, when using a mobile terminal, when moving out of the service area and moving to another service area while the connection is established, the IP address assigned to the host must be changed. In order to solve the problem of disconnection when the host changes the network to connect to the Internet as described above, the mobile IPv6 (MIPv6) to keep the connection established even if the user changes the location Technology has been developed. A mobile IPv6 network is an IPv6 network in which user terminals can be moved, and mobility is essentially supported in the IPv6 standard.

Handover (HANDOVER) refers to the IPv6 user terminal to move from the cell to which the currently connected to the neighboring neighbor cell is assigned a new IPv6 address to continue communication. When the mobile terminal moves to a new network, it detects this, acquires a timely IP address, and if a long time is required for a binding update (BU) to occur and normal service is performed, the packet uploaded or downloaded during the period is destined for the destination. Indeterminate packet loss can occur. Therefore, the measurement of handover latency needs to minimize handover delay time for stable data exchange.

User-experimental handover delay (USER-EXPERIENCED HANDOVER DELAY) is a tactile handover delay that a user feels when a handover occurs. Physical handover delay time, data link layer handover delay time, and network layer Refers to the sum of handover delay time. In a mobile IPv6 network, handover occurs through a process of recognizing attenuation of wireless signals, detecting signals of neighboring WLAN access points, connecting to neighboring WLAN access points, and allocating new IPv6 addresses. It is important to find the final handover delay. Since the handover delay described in the present invention refers to the user haptic handover delay time.

In the existing mobile IPv6 network, the methods for measuring the handover delay time are calculated by collecting and analyzing all the traffic of the user by installing a specific software in the terminal. However, random installation of specific software on a user's terminal in a mobile IPv6 network is not easy because the user's permission is required. In addition, when measuring the handover delay time, since traffic for measurement is randomly generated instead of user traffic, unnecessary traffic is generated.

The present invention is to solve the problems of the prior art as described above, by observing the user's data traffic in the router rather than the user terminal in the mobile IPv6 network to reduce the user experience handover delay time without installing additional software in the user terminal The aim is to provide a method that can be measured.

Another object of the present invention is to provide a method for measuring user handover delay time by observing only user traffic without generating additional measurement traffic.

In order to achieve the above object, the present invention provides a method for measuring a user haptic handover delay time in a mobile IPv6 network, comprising: (A) detecting an IPv6 dataflow, a handover completion message, and a response message in an access router and Collecting the; (B) transmitting data collected at the access router to the traffic analysis server; (C) distinguishing the case of the upload in which the user transmits traffic from the received IPv6 data flow and the case in which the user receives the traffic; And (D) dividing the case of upload or download and calculating the haptic handover delay time from the handover completion message and the response message observation time values received in step (B). It is about.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, these examples are for illustrative purposes only and the present invention is not limited thereto.

FIG. 1 is a diagram schematically illustrating a method of calculating a handover delay time when uploading in a mobile IPv6 network to which a path optimization technique is not applied. Referring to FIG. 1, it can be seen that the IPv6 data flow of the mobile terminal 100 before and after the handover necessarily passes through the home agent and the IPv6 access router 1 110. Prior to handover, the mobile terminal is connected to the home network 120 to transmit traffic through the IPv6 access router 1 (110). When the mobile terminal moves from the home network 120 to the external network 130 and a handover occurs, the handover complete message (access to the access router 1 (110) via the access router 2 (111) of the external network 130 ( Send Binding Update: BU). The home agent and access router 1 (110) receives the handover complete message and transmits a corresponding response message (Binding Acknowledgment (BA)) to the mobile terminal. After this process, the mobile terminal 100 can proceed with normal data transmission. Therefore, the access router 1 110 records the final arrival time of the user upload packet transmitted by the mobile terminal before the handover, and the access router 2 110 records the arrival time of the user upload packet first generated after the handover. By calculating the difference value, the user's perceived handover delay time can be known.

FIG. 2 is a diagram schematically illustrating a method of calculating a handover delay time in case of an upload in a mobile IPv6 network to which a path optimization technique is applied. 2, the IPv6 data traffic of the mobile terminal 200 after the handover is a home agent and directly communicates with the other terminal 240 through the access router 2211 without passing through the IPv6 access router 1 210. Able to know. Prior to handover, the mobile terminal is connected to the home network 220 to transmit traffic through the IPv6 access router 1 (210). When the mobile terminal moves from the home network 220 to the external network 230 and a handover occurs, the handover complete message (access to the access router 1 210 via the access router 2 211 of the external network 230) BU). The home agent and access router 1 210 receives the handover completion message and transmits a response message BA corresponding thereto to the mobile terminal. When the path optimization technique is applied, the mobile terminal 200 also exchanges the handover complete message BU and the response message BA with the counterpart terminal 240. After this process, the mobile terminal communicates directly with the other terminal 240 without passing through the access router 1 (210). Accordingly, the access router 1 210 records the final arrival time of the packet transmitted by the mobile terminal 200 before the handover, and records the arrival time of the first packet generated after the handover by the access router 2211. By calculating the difference value, the user's perceived handover delay time can be known.

FIG. 3 is a diagram schematically illustrating a method for calculating a handover delay time in a download case in a mobile IPv6 network to which a path optimization technique is not applied. Referring to FIG. 3, it can be seen that the IPv6 data traffic of the mobile terminal 300 before and after the handover necessarily passes through the home agent and the IPv6 access router 1 310. Prior to handover, the mobile terminal is connected to the home network 320 to transmit traffic through the IPv6 access router 1 (310). When the mobile terminal moves from the home network 320 to the external network 330 and a handover occurs, the handover complete message (access to the access router 1 (310) via the access router 2 (311) of the external network 330) BU). The home agent and access router 1 310 receives the handover completion message and transmits a response message BA corresponding thereto to the mobile terminal 300. After this process, the mobile terminal 300 may proceed with normal data transmission. However, in the case of download, it is difficult to accurately determine the final time of user traffic before handover. Therefore, the difference between the initial observation time of the handover complete message BU found in the access router 2311 and the initial observation time of the user download packet found in the access router 2311 after the handover is completed is determined. Calculate the user experience handover delay time.

FIG. 4 is a diagram schematically illustrating a method of calculating a handover delay time in a download case in a mobile IPv6 network to which a path optimization technique is applied. Referring to FIG. 4, it can be seen that after the handover of the mobile terminal 400, IPv6 data traffic is a home agent and does not go through the IPv6 access router 1 410. Prior to handover, the mobile terminal 400 is connected to the home network 420 to receive traffic through the IPv6 access router 1 410. When the mobile terminal 400 moves from the home network 420 to the external network 430 and a handover occurs, the home agent and access router 1 410 passes through the access router 2 411 of the external network 430. Sends a handover complete message (BU). The home agent / access router 1 (410) receives the handover completion message and transmits a response message (BA) corresponding thereto to the mobile terminal. When the path optimization technique is applied, the mobile terminal 400 and the counterpart terminal 440 exchange the handover complete message BU and the response message BA. After the path optimization scheme is completed, the mobile terminal 400 directly communicates with the other terminal 440 without passing through the access router 1410. In case of a download, it is difficult to accurately detect the last time of a packet transmitted to the mobile terminal before the handover. Therefore, the initial observation time of the handover completion message (BU) in the access router 2 (411) and the access router 2 (411) after the handover. The user experience handover delay time can be found by calculating the difference value from the initial time of the user download packet found in

In FIG. 5, packets collected by each access router 510 and 511 are collected and transmitted to the IPv6 / MIPv6 traffic analysis server 520. That is, the IPv6 / MIPv6 traffic analysis server calculates the handover delay time using the handover completion message, the response message, the IPv6 data flow, and the time information measured by the router.

FIG. 6 shows a process of transmitting data measured by the access router 610 to the IPv6 / MIPv6 traffic analysis server in more detail. In the access router, the IPv6 / MIPv6 message detector 610 detects the IPv6 data flow, the handover complete message, and the response message, and converts the IPv6 data flow, the handover completion message, and the response message into a standard form called IPFIX by the IPFIX flow transmitter 620, and transmits it to the traffic analysis server. do.

FIG. 7 is a diagram illustrating a process of calculating a handover delay time by processing data transmitted from an access router converted to an IPFIX standard format by a traffic analysis server. The IPFIX flow receiving unit 700 of the IPv6 / MIPv6 traffic analysis server receives IPFIX-type flow information of IPv6 / MIPv6 related traffic transmitted from the router, and stores the flow information in the flow DB 710 which is a database for analyzing it. If it is determined in the flow analysis unit 720 that the upload stored by the user from the IPv6 data flow of the information stored in the flow DB in the case of the upload, before the handover in the mobile IPv6 access router and the last observation time of the user upload flow and after the handover The user experience handover delay time is calculated from the difference of the initial observation time value. On the other hand, if it is determined that the user is in the case of a download receiving the traffic, the first handover complete message (BU) occurring at the time of handover of the download packet in the mobile IPv6 access router and the initial observation time of the download packet occurring after the handover The user experience handover delay is calculated from the difference.

As described above, according to the present invention, by observing the user's data traffic in the router, not the user terminal, the user feels the handover delay time, and thus does not require additional software and does not cause additional traffic. Network operators can be usefully used to calculate basic data for measuring user handover and improving performance in mobile IPv6 networks.

Claims (2)

A method for measuring user haptic handover delay time in a mobile IPv6 network, (A) detecting and collecting data on the IPv6 dataflow, the handover complete message and the response message at the access router; (B) transmitting the data collected at the access router to the traffic analysis server; (C) distinguishing the case of the upload in which the user transmits traffic from the received IPv6 data flow and the case in which the user receives the traffic; And (D) In case of an upload in which the user transmits traffic, the user experiences a hand from the difference between the last observation time of the user upload flow before handover and the first observation time after handover in the mobile IPv6 access router received in step (B). Calculating an over delay time; The user haptic handover delay time measurement method comprising a. A method for measuring user haptic handover delay time in a mobile IPv6 network, (A) detecting and collecting data on the IPv6 dataflow, the handover complete message and the response message at the access router; (B) transmitting the data collected at the access router to the traffic analysis server; (C) distinguishing the case of the upload in which the user transmits traffic from the received IPv6 data flow and the case of the download in which the user receives the traffic; And (D) In the case of a download in which the user receives the traffic, the initial handover complete message (BU) generated at the time of handover of the download packet in the mobile IPv6 access router received in step (B) and the download packet generated after the handover Calculating a user haptic handover delay time from a difference of an initial observation time value of; The user haptic handover delay time measurement method comprising a.

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