KR101314883B1 - Method for vertical handover in heterogeneous wireless internet service network - Google Patents

Abstract

The present invention relates to a method for supporting interworking between heterogeneous networks in a wireless Internet service network. The present invention provides an IPv6 access service without changing or replacing existing devices in a network configured for a wireless Internet service for IPv4 that does not support IPv6, and uses mobile IPv6. It is to provide a heterogeneous network interworking support method that can support heterogeneous network interworking function regardless of IPv6 mobility function of existing equipment.

To this end, the present invention, in a method for supporting interworking between heterogeneous networks in an IPv4-based wireless Internet service network, a wireless terminal in one wireless network area accesses a gateway using an IPv4 address assigned through a corresponding network interface to provide IPv6 over IPv4 service. A first router announcement message sending step, when the gateway sends a router announcement message including the IPv6 prefix for the one wireless network; And by the gateway, recovering a packet transmitted through 'IPv6 over IPv4 tunneling' from the wireless terminal assigned an IPv6 address through the IPv6 prefix for the one wireless network, and delivering the packet to the IPv6 Internet through 'mobile IPv6 tunneling'. And a first tunneling step, wherein the gateway transmits a different IPv6 prefix in a router announcement message for each address or divided network and transmits the same to the wireless terminal.

Heterogeneous network, IPv4, IPv6, WiFi, WiBro, manganese interworking, vertical handover

Description

A method for supporting heterogeneous manganese interworking in a wireless internet service network {Method for vertical handover in heterogeneous wireless internet service network}

1 is a network configuration diagram for a general IPv4 wireless Internet service,

2 is a network diagram for supporting interworking between heterogeneous networks in a wireless Internet service network to which the present invention is applied;

3 is a diagram illustrating an embodiment of a header IP address of an input / output packet for supporting interworking between heterogeneous networks in a wireless Internet service network according to the present invention;

4 is a diagram illustrating another embodiment of a header IP address of an input / output packet for supporting interworking between heterogeneous networks in a wireless Internet service network according to the present invention.

* Explanation of symbols on the main parts of the drawing

11: wireless terminal (MN) 12: access point (AP)

13,16 switch 14: access router (AR)

15: Remote Control Server (RAS) 17: Access Control Router (ACR)

18: IPv6 gateway 19: Home Agent (HA)

20: corresponding terminal (CN)

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The present invention relates to a method for supporting interworking between heterogeneous networks in a wireless Internet service network, and more particularly, to an existing apparatus in a network configured for wireless Internet service for IPv4 (Internet Protocol version 4) that does not support IPv6 (Internet Protocol version 6). In the heterogeneous network interworking support method, which provides IPv6 access service without changing or replacing them, and can use the mobile IPv6 to service the heterogeneous network handover function regardless of whether the existing equipment supports the IPv6 mobility function. It is about.

The Internet, which is driving the rapid wave of informatization of the society, is expanding to almost unlimited use, and even the telephone service for existing voice communication is being changed based on the Internet. One of the biggest problems in the widespread use of the Internet is the lack of IP (Internet Protocol) addresses.

The application of the Internet to a wide variety of fields such as a surging Internet user and a Ubiquitous Sensor Network (USN) requires a large number of IP addresses. Especially, when using the Internet for voice and video communication, The lack of IP addresses has been recognized as a serious obstacle for the society to move to the information age because it requires a unique IP address rather than a private IP address using Network Address Translation (NAT).

The current wireless Internet environment is represented by WiBro service based on Wireless LAN (WiFi) based on IEEE 802.11 standard or Mobile WiMax (IEEE 802.16e). As the wireless Internet service is becoming more popular after wired Internet, the existing IPv4 address is gradually being exhausted due to the increase of usage, and in the long term, the transition to the next generation Internet standard, IPv6 (Internet Protocol Version 6, IETF RFC3513) It is expected to be essential.

To address the problem of address exhaustion, the IETF has standardized IPv6 as a new addressing system for the next generation of the Internet, and its adoption is in full swing.

IPv6, the address system of the next generation Internet, does not simply increase the number of usable IP addresses but includes new technologies such as automatic address setting and simplified option header, which solve the problems of the Internet which was difficult to solve in the existing IPv4 system . As an example, Mobile IPv6 (Mobile IPv6) technology, which utilizes the characteristics of IPv6, is more convenient than IP IPv4 (RFC3344). There is a big advantage in saving time. Therefore, support for Layer 3 (network layer) mobility in the wireless Internet network has been studied in academia and industry.

However, in the new wireless Internet services such as WiBro, IPv6 has not been introduced yet. The reason for this is the difficulty of developing new wireless Internet technology itself and the economical and technical difficulties that network operators still want to support IPv4 first and replace existing equipment in order to introduce mobility support technology using IPv6. Therefore, support for mobility of wireless terminals in the IP layer is rarely applied to an actual network, and mobility support in WiBro is mostly made up of Layer 2.

In addition, in the reality that various wireless Internet services such as WiFi and WiBro are emerging, when one wants to move out of one type of wireless Internet service area and move to another type of wireless Internet area or selectively move to another type of network, which is accessible. In addition, the introduction of new technologies such as Vertical Handover, which can naturally connect to the existing Internet connection, has not been actively performed with the delay of the introduction of IPv6.

As such, IPv6 has many advantages in supporting mobility of wireless Internet terminals unlike IPv4. Therefore, the introduction of IPv6 to wireless Internet is expected to occur earlier than wired. However, support for IPv4 is still a priority in newly introduced services such as WiBro. Since it should be, support for IP mobility of UEs in Layer 3 using mobility enhancements of IPv6 is delayed. Accordingly, the Mobile IPv6 (IETF RFC3775) technology, which is capable of supporting IP layer mobility of Layer 3 better using the automatic address setting of IPv6, has not been applied.

In addition, in order to provide an economical wireless mobile Internet service, wireless terminals capable of accessing at least two kinds of services to various heterogeneous wireless Internets such as WiFi, WiBro, and W-CDMA may selectively use the appropriate type of wireless Internet according to the situation. When connecting to other networks, the implementation of heterogeneous vertical handover technology, which can prevent the existing Internet connection, has emerged as an important issue.

In summary, although the wireless Internet service and its applications are becoming more and more popular after the wired Internet, it is known that there are many technical problems in the mobility function of the layer 3 wireless Internet terminal using IPv4. In order to solve this problem, standardization organizations such as the Internet Engineering Task Force (IETF) have implemented IPv6 Mobile IPv6 technology using the automatic address setting function of IPv6, which is the next generation Internet address system. It is proposed as a solution for supporting IP mobility. However, it is anticipated that considerable technical and economic difficulties will be expected in the existing IPv4 wireless Internet such as WiFi and WiBro, and prioritizing the IPv4 service and replacing the developed devices with devices supporting IPv6 and Mobile IPv6. In addition, various types of wireless Internet such as WiFi, WiBro, and W-CDMA are being serviced in earnest, and the existing connection can be maintained when the terminal accesses another type of wireless network while using a suitable wireless network in some cases. There is an urgent need for the implementation of heterogeneous vertical handover functions.

Therefore, network providers who provide various types of wireless internet services can provide IPv6 access service without changing or replacing equipment for existing IPv4 wireless internet service, and facilitate IPv6-based vertical handover. There is an urgent need for support.

The present invention has been proposed to meet the above requirements, and provides an IPv6 access service without changing or replacing existing devices in a network configured for a wireless Internet service for IPv4 that does not support IPv6 and uses heterogeneous mobile IPv6. It is an object of the present invention to provide a method for supporting heterogeneous manganese interworking, which enables the service of a network handover function regardless of whether the existing equipment supports IPv6 mobility function.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. It will also be readily apparent that the objects and advantages of the invention may be realized and attained by means of the instrumentalities and combinations particularly pointed out in the appended claims.

In order to achieve the above object, the present invention provides a method for supporting interworking between heterogeneous networks in an IPv4-based wireless Internet service network. Transmitting, by the gateway, a first Router Advertisement message, when the gateway requests an IPv4 service, a Router Advertisement message including the IPv6 prefix for the one wireless network is transmitted; And by the gateway, recovering a packet transmitted through 'IPv6 over IPv4 tunneling' from the wireless terminal assigned an IPv6 address through the IPv6 prefix for the one wireless network, and delivering the packet to the IPv6 Internet through 'mobile IPv6 tunneling'. And a first tunneling step, wherein the gateway transmits a different IPv6 prefix in a router announcement message for each address or divided network and transmits the same to the wireless terminal.
In addition, the present invention, when the wireless terminal is moved from the one wireless network area to another wireless network area, the wireless terminal in the other wireless network area to the gateway using an IPv4 address assigned through the corresponding network interface A second router announcement message transmission step of transmitting, by the gateway, a router announcement message including the IPv6 prefix for the other wireless network when the IPv6 over IPv4 service is requested; And the gateway recovers a packet transmitted through 'IPv6 over IPv4 tunneling' from the wireless terminal assigned an IPv6 address through the IPv6 prefix for the other wireless network, and delivers the packet to the IPv6 Internet through 'mobile IPv6 tunneling'. It further comprises a second tunneling step.

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Meanwhile, the present invention provides a method for supporting interworking between heterogeneous networks in an IPv4-based wireless Internet service network, wherein a wireless terminal in a wireless network area requests an IPv6 over IPv4 service by accessing a gateway using an IPv4 address assigned through a corresponding network interface. A third router announcement message transmitting step of transmitting, by the gateway, a router announcement message including the IPv6 prefix for the one wireless network; And receiving the IPv6 packet transmitted to the wireless terminal assigned the IPv6 address through the IPv6 prefix for the one wireless network from the IPv6 Internet through 'mobile IPv6 tunneling' and performing the 'IPv6 over IPv4 tunneling'. And a third tunneling step of transmitting to the wireless terminal, wherein the gateway transmits a different IPv6 prefix in a router announcement message to each wireless terminal according to each address or a separate network.
In addition, the present invention, when the wireless terminal is moved from the one wireless network area to another wireless network area, the wireless terminal in the other wireless network area to the gateway using an IPv4 address assigned through the corresponding network interface A fourth router announcement message transmission step of transmitting, by the gateway, a router announcement (RA) message including the IPv6 prefix for the other wireless network when the IPv6 over IPv4 service is requested; And receiving, via the mobile IPv6 tunneling, an IPv6 packet transmitted from the IPv6 Internet to an IPv6 packet transmitted to the wireless terminal assigned an IPv6 address through the IPv6 prefix for another wireless network, through 'IPv6 over IPv4 tunneling'. And a fourth tunneling step of transmitting to the wireless terminal.

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On the other hand, the present invention is a method for supporting heterogeneous network interworking in an IPv4-based wireless Internet service network, comprising: receiving a first IPv4 address by a wireless terminal in one wireless network area through a corresponding network interface; Requesting, by the wireless terminal, an IPv6 over IPv4 service by accessing a gateway using the assigned first IPv4 address; A first IPv6 address allocating step, wherein the wireless terminal is assigned an IPv6 address based on the IPv6 prefix for one radio network included in a router announcement (RA) message transmitted from the gateway; And a first heterogeneous network interworking service step in which the wireless terminal performs an IPv6 access service in the one wireless network area through tunneling to the home agent through the gateway, wherein the gateway is configured for each address or divided network. According to the different IPv6 prefix to the router announcement message and transmits to the wireless terminal.
In addition, the present invention, if the wireless terminal is moved from the one wireless network area to another wireless network area, the step of the wireless terminal in the other wireless network area is assigned a second IPv4 address through the network interface; Requesting, by the wireless terminal, an IPv6 over IPv4 service by accessing the gateway using the assigned second IPv4 address; A second IPv6 address allocation step of receiving, by the wireless terminal, an IPv6 address assigned based on the IPv6 prefix for another wireless network included in a router announcement (RA) message transmitted from the gateway; And a second heterogeneous network interworking service step in which the wireless terminal performs an IPv6 access service in the other wireless network area through tunneling to the home agent through the gateway.

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The present invention is to support heterogeneous network IPv6 mobility function in IPv4 wireless Internet environment.

That is, the present invention provides a network service provider that provides various types of wireless Internet services such as WiFi, WiBro, and W-CDMA to support existing IPv4-based wireless Internet service (Access Router for WiFi, Access Control Router for WiBro). It supports mobile IPv6 to the wireless internet terminal without replacing, etc., and enables IPv6 vertical handover (heterogeneous network interworking) of the terminal.

To this end, the present invention is an AR (Access Router), ACR equipment for the case that the network provider that provides a variety of wireless Internet services, such as WiFi, WiBro is performing a wireless Internet service business using IPv4-based equipment When a Layer 3 wireless Internet device such as an Access Control Router supports only IPv4, it utilizes a tunneling method to support IPv6 so that wireless Internet terminals can use IPv6 without replacing existing devices. Enable IPv6 Vertical Handover between networks. That is, it enables IPv6 access service and IPv6 vertical handover between heterogeneous networks to mobile wireless terminals such as PCs and PDAs without replacing or changing existing IPv4 service devices.

The foregoing and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, in which: There will be. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is applicable regardless of the type of wireless Internet service, but it will be described on the assumption of WiBro (IEEE 802.16e) network and WiFi (IEEE 802.11) network.

1 is a diagram illustrating a network configuration for a general IPv4 wireless Internet service, and illustrates an existing IPv4 wireless internet access network structure such as WiBro (IEEE 802.16e) and WiFi (IEEE 802.11) services.

In a WiBro (IEEE 802.16e) network, a remote access server (RAS) 15 provides a physical wireless access function to a WiBro mobile node 11 (MN), and access control router. (ACR: Access Control Router) 17 is in charge of higher layers such as routing.

Correspondingly, in the WiFi (IEEE 802.11) network, an access point (AP) 12 and an access router (AR) 14 correspond to the roles of the RAS 15 and the ACR 17, respectively. Equipment.

In FIG. 1, it is assumed that a wireless terminal (MN) 11 has both a WiBro and a WiFi interface, a WiBro service is connected using the IEEE 802.16e standard, and a WiFi is connected using the IEEE 802.11 standard.

In the present invention, since the remote control server (RAS) 15 or the access point (AP) 12 is a device that plays a role below Layer 2 (L2: Layer 2), Layer 3 (Layer 3 layer) to be dealt with in the present invention. It seems to work regardless of IPv4 or IPv6 protocol.

Accordingly, the present invention is based on the premise that it is difficult to introduce IPv6 wireless Internet service because the access control router (ACR) 17 or the access router (AR) 14 that has to deal with layer 3 does not support IPv6.

In addition, a mobile wireless terminal (MN) 11 such as a personal digital assistant (PDA) or a notebook computer has a dual stack structure supporting both IPv4 and IPv6, and supports IPv6 over IPv4 tunneling function and MIPv6 support. It is assumed that the terminal side function is installed.

2 is a network diagram for supporting interworking between heterogeneous networks in a wireless Internet service network to which the present invention is applied.

In FIG. 2, the access point (AP) 12, the access router (AR) 14, the remote control server (RAS) 15, and the access control router (ACR), which are existing network equipments, in the heterogeneous wireless IPv4 Internet of FIG. By having the home equipment (HA) 19, which is one of the basic elements constituting MIPv6, and the IPv6 gateway 18 proposed by the present invention, with the access equipment such as (17) remaining intact, The wireless Internet terminal (MN) 11 enables basic IPv6 access service and heterogeneous network interworking (Vertical Handover).

The IPv6 gateway 18 is connected to the IPv6 Internet to provide IPv6 access service to the connected wireless terminals (MNs) 11, and all IPv6 connections occurring at the wireless terminals (MNs) 11 are IPv6 connections. The gateway 18 is connected to the IPv6 Internet.

The IPv6 gateway 18 is in charge of the Tunneling Server function that supports IPv6 over IPv4, and basic IPv6 mobile wireless terminals (MNs) 11 can use the IPv6 address autoconfiguration function. The router supports a function of periodically sending a Router Advertisement (RA) message to wireless terminals. In addition, the IPv6 gateway 18 has different IPv4 address interfaces depending on the type of the wireless network (WiFi (IEEE 802.11) wireless network, WiBro (IEEE 802.16e) wireless network).

Therefore, in the WiFi wireless network and the WiBro wireless network, the wireless terminal (MN) 11 first connects to the IPv6 gateway 18 with different IPv4 addresses of the IPv6 gateway 18. At this time, the IPv6 gateway 18 delivers (notifies) different IPv6 prefixes through RA1 and RA2 according to the IPv4 address to which the wireless terminal (MN) 11 is connected. Using this prefix, the wireless terminals (MN) 11 generate an IPv6 address in the wireless Internet service area by using the IPv6 automatic address generation function.

As such, when an IPv6 address is generated in the wireless Internet terminal (network) in the wireless Internet terminal (MN) 11, all subsequent IPv6 packets are transmitted to the IPv6 gateway 18 through IPv6 over IPv4 tunneling, and the IPv6 gateway. 18 recovers the IPv6 packet and forwards it to the IPv6 Internet.

However, regardless of the presence of the IPv6 gateway 18, IPv4 traffic can be accessed by an access router (AR) 14 in a WiFi (IEEE 802.11) wireless network and an access control router (ACR) 17 in a WiBro (IEEE 802.16e) wireless network. Is connected to the IPv4 Internet.

That is, the mobile wireless Internet terminal (MN) 11 uses the existing access control router (ACR) 17 or the access router (AR) 14 as the default router for IPv4 packets, but does not use the IPv6 packet. For example, the IPv6 gateway 18 is used as the default router.

In FIG. 2, a correspondent that is a home agent (HA) 19 and a mobile wireless Internet terminal (MN) 11 that are IPv6 communication counterparts to be installed to support mobility of the mobile wireless Internet terminal (MN) 11 in a Mobile IPv6 network A terminal (CN: Correspondent Node) 20 is shown. Here, it is assumed that the corresponding terminal (CN) 20 is a general node on IPv6 that does not support the Mobile IPv6 function.

Then, in order to explain a process in which heterogeneous network interworking occurs (Vertical Handover), a case in which the wireless Internet terminal (MN) 11 moves from a WiFi (IEEE 802.11) wireless network to a WiBro (IEEE 802.16e) wireless network will be described as an example. Let's do it.

The IPv6 gateway 18 uses two IPv4 addresses (i.e. IPv4-GW1 (WiFi wireless networks) to distinguish two different types of networks: WiFi (IEEE 802.11) wireless networks and WiBro (IEEE 802.16e) wireless networks). IPv4 address of IPv6 gateway 18 used by wireless terminal (MN) 11), IPv4-GW2 (IPv4 address of IPv6 gateway 18 used by wireless terminal (MN) 11 in WiBro wireless network) A wireless terminal (MN) that has a (or can be distinguished using one IPv4 address and two port numbers), and that connects a different IPv6 prefix for each address (or depending on the network being divided). To 11).

It is assumed that the wireless Internet terminal (MN) 11 has a home address (HoA) registered in the home agent (HA) 19.

Therefore, when the wireless Internet terminal (MN) 11 first connects to the WiFi wireless network, an IPv4 address (that is, an IPv4 address of the wireless terminal (MN) 11 in the WiFi wireless network) through the Wireless LAN (IEEE 802.11) interface ( IPv4-MN1)). Using this IPv4-MN1 address, the wireless Internet terminal (MN) 11 accesses the IPv4-GW1 address of the IPv6 gateway 18 from the Wireless LAN (IEEE 802.11) to request IPv6 over IPv4 service, and the IPv6 gateway (18). ) Transmits a Router Advertisement message (RA1 message) containing an IPv6 prefix for Wireless LAN (IEEE 802.11) to the corresponding wireless terminal (MN) 11.

Subsequently, the wireless Internet terminal (MN) 11 receiving the router announcement message (RA1 message) uses the received IPv6 prefix and the medium access control (MAC) address of its Wireless LAN (IEEE 802.11) interface. Create a 128-bit IPv6 address and set the IPv6 gateway 18 as the default gateway for IPv6 routing.

Next, the wireless Internet terminal (MN) 11 registers this IPv6 address with its home agent (HA) 19 as a temporary address (CoA: Care of Address) (CoA1) (Binding Update). And, when communicating with the corresponding terminal (CN) 20 on the IPv6 Internet IPv6 over IPv4 / Mobile IPv6 tunneled packet is transmitted in the form as shown in Figure 3a.

That is, as shown in FIG. 3A, when the mobile radio terminal (MN) 11 sends a packet to the corresponding terminal (CN) 20 on IPv6, the packet transmitted to the IPv6 gateway 18 is for IPv6 over IPv4. Headers [i.e., IPv4 address (IPv4-MN1) (IPv4 source address) of the wireless terminal (MN) 11 in the WiFi wireless network, the IPv6 gateway used by the wireless terminal (MN) 11 in the WiFi wireless network ( IPv4 address (IPv4-GW1) (IPv4 destination address)] of 18) is removed and sent to the Home Agent (HA) 19, where the Home Agent (HA) 19 sends headers for Mobile IP (i.e. WiFi). IPv6 temporary address (IPv6 CoA1) (IPv6 source address) generated by a wireless terminal (MN) 11 in a wireless network using a router announcement message (RA1 message) from an IPv6 gateway 18, a wireless terminal in a WiFi wireless network The IPv6 address (IPv6 HAA) (IPv6 destination address) of the home agent 19 used by the (MN) 11 is removed and sent to the corresponding terminal (CN) 20.

Therefore, [IPv6 home address (IPv6 HoA) (IPv6 source address) of the wireless terminal (MN) 11 in the WiFi wireless network, IPv6 address (IPv6 CN) of the corresponding terminal (CN) 20 in the WiFi wireless network ( IPv6 destination address), payload data] is transmitted from the mobile radio terminal (MN) 11 to the corresponding terminal (CN) 20.

Meanwhile, in FIG. 3B, the packet transmitted by the corresponding terminal (CN) 20 to the mobile wireless terminal (MN) 10 is tunneled to the mobile IPv6 by the home agent (HA) 19, and is again IPv6 by the IPv6 gateway 18. The packet arrived at the mobile radio terminal (MN) 11 through the IPv4 tunneling.

That is, as shown in FIG. 3B, when the corresponding terminal (CN) 20 sends a packet to the mobile radio terminal (MN) 11 on IPv4, the packet transmitted to the IPv6 gateway 18 is transmitted to the home agent (HA). Headers for Mobile IP (i.e., the IPv6 address (IPv6 HAA) (IPv6 source address) of the home agent 19 used by the wireless terminal (MN) 11 in the WiFi wireless network) IPv6 temporary address (IPv6 CoA1) (IPv6 destination address) generated by a wireless terminal (MN) 11 in a network using a router announcement message (RA1 message) from an IPv6 gateway 18] is added to the IPv6 gateway 18. IPv6 gateway 18 sends the headers for IPv6 over IPv4 (i.e. IPv4 address (IPv4-GW1) (IPv4) of IPv6 gateway 18 used by the wireless terminal (MN) 11 in the WiFi wireless network. Source address), and IPv4 address (IPv4-MN1) (IPv4 destination address) of the wireless terminal (MN) 11 in the WiFi wireless network] are added to the mobile wireless terminal (MN) 11.

Therefore, the IPv4 address (IPv4-GW1) (IPv4 source address) of the IPv6 gateway 18 used by the wireless terminal (MN) 11 in the WiFi wireless network, and the wireless terminal (MN) 11 in the WiFi wireless network. IPv4 address (IPv4-MN1) (IPv4 destination address), the IPv6 address (IPv6 HAA) (IPv6 source address) of the home agent 19 used by the wireless terminal (MN) 11 in the WiFi wireless network, in the WiFi wireless network IPv6 temporary address (IPv6 CoA1) (IPv6 destination address) generated by the wireless terminal (MN) 11 using the router announcement message (RA1 message) from the IPv6 gateway 18, and the corresponding terminal (CN) in the WiFi wireless network. IPv6 address (IPv6 CN) (IPv6 source address) of (20), IPv6 home address (IPv6 HoA) (IPv6 destination address), payload data] of wireless terminal (MN) 11 in WiFi wireless network It is transmitted from the terminal (CN) 20 to the mobile radio terminal (MN) (11).

On the other hand, when this mobile wireless Internet terminal (MN) 11 enters the area of the WiBro (IEEE 802.16e) wireless network beyond the area of the Wireless LAN (IEEE 802.11), the Wireless LAN (IEEE 802.11) interface is down and the corresponding IPv4 address ( IPv4 MN-1) disappears and is assigned a new IPv4 address (IPv4-MN2) via the WiBro (IEEE 802.16e) interface.

Therefore, when the WiBro (IEEE 802.16e) interface is activated, the mobile wireless terminal (MN) 11 connects to IPv4-GW2, which is the address of the IPv6 gateway 18 in the corresponding area, and through this connection, the IPv6 gateway 18 A Router Announcement message (RA2 message) containing a new prefix to send is used to generate an IPv6 address (IPv6-CoA2) for use in the WiBro (IEEE 802.16e) wireless network, which is then sent to the Home Agent (HA) 19. Binding Update process is performed to register as a new CoA. Thereafter, as shown in FIG. 4A, IPv6 communication with the corresponding terminal (CN) 20 may be maintained in the same manner as before, thereby enabling heterogeneous network interworking (Vertical Handover).

That is, when the wireless Internet terminal (MN) 11 is connected to the WiBro wireless network, the IPv4 address (that is, the IPv4 address of the wireless terminal (MN) 11 in the WiBro wireless network) through the WiBro (IEEE 802.16e) interface ( IPv4-MN2)) is assigned. Using this IPv4-MN2 address, the wireless Internet terminal (MN) 11 accesses the IPv4-GW2 address of the IPv6 gateway 18 in WiBro (IEEE 802.16e) and requests IPv6 over IPv4 service, and the IPv6 gateway (18). ) Transmits a router announcement message (RA2 message) containing an IPv6 prefix for WiBro (IEEE 802.16e) to the corresponding wireless terminal (MN) 11.

Then, the wireless Internet terminal (MN) 11 receiving the router announcement message (RA2 message) uses the received IPv6 prefix and the medium access control (MAC) address of its WiBro (IEEE 802.16e) interface. Create a 128-bit IPv6 address and set the IPv6 gateway 18 as the default gateway for IPv6 routing.

Next, the wireless Internet terminal (MN) 11 registers this IPv6 address with its home agent (HA) 19 as a temporary address (CoA: Care of Address) (CoA2) (Binding Update). And, when communicating with the corresponding terminal (CN) 20 on the IPv6 Internet IPv6 over IPv4 / Mobile IPv6 tunneled packet is transmitted in the form as shown in Figure 4a.

That is, as shown in FIG. 4A, when the mobile radio terminal (MN) 11 sends a packet to the corresponding terminal (CN) 20 on IPv6, the packet transmitted to the IPv6 gateway 18 is for IPv6 over IPv4. Headers (that is, IPv4 address (IPv4-MN2) (IPv4 source address) of the wireless terminal (MN) 11 in the WiBro wireless network, IPv6 gateway (used by the wireless terminal (MN) 11 in the WiBro wireless network) IPv4 address (IPv4-GW2) (IPv4 destination address)] of 18) is removed and sent to the home agent (HA) 19, where the home agent (HA) 19 sends headers for the Mobile IP (i.e., WiBro). IPv6 temporary address (IPv6 CoA2) (IPv6 source address) generated by a wireless terminal (MN) 11 in a wireless network using a router announcement message (RA2 message) from an IPv6 gateway 18, a wireless terminal in a WiBro wireless network The IPv6 address (IPv6 HAA) (IPv6 destination address) of the home agent 19 used by the (MN) 11 is removed and sent to the corresponding terminal (CN) 20.

Therefore, [IPv6 home address (IPv6 HoA) (IPv6 source address) of the wireless terminal (MN) 11 in the WiBro wireless network, the IPv6 address (IPv6 CN) of the corresponding terminal (CN) 20 in the WiBro wireless network ( IPv6 destination address), payload data] is transmitted from the mobile radio terminal (MN) 11 to the corresponding terminal (CN) 20.

Meanwhile, in FIG. 4B, a packet sent by the corresponding terminal (CN) 20 to the mobile wireless terminal (MN) 10 is tunneled to the mobile IPv6 by the home agent (HA) 19, and then again IPv6 by the IPv6 gateway 18. The packet arrived at the mobile radio terminal (MN) 11 through the IPv4 tunneling.

That is, as shown in FIG. 4B, when the corresponding terminal (CN) 20 sends a packet to the mobile radio terminal (MN) 11 on IPv4, the packet transmitted to the IPv6 gateway 18 is transmitted to the home agent (HA). Headers for Mobile IP (i.e., the IPv6 address (IPv6 HAA) (IPv6 source address) of the home agent 19 used by the wireless terminal (MN) 11 in the WiBro wireless network), WiBro wireless IPv6 temporary address (IPv6 CoA2) (IPv6 destination address) generated by a wireless terminal (MN) 11 in a network using a router announcement message (RA2 message) from an IPv6 gateway 18] is added to the IPv6 gateway 18. IPv6 gateway 18 is sent to the headers for IPv6 over IPv4 (i.e. IPv4 address (IPv4-GW2) (IPv4) of the IPv6 gateway 18 used by the wireless terminal (MN) 11 in the WiBro wireless network. Source address) and IPv4 address (IPv4-MN2) (IPv4 destination address) of the wireless terminal (MN) 11 in the WiBro wireless network] are added to the mobile wireless terminal (MN) 11.

Therefore, the IPv4 address (IPv4-GW2) (IPv4 source address) of the IPv6 gateway 18 used by the wireless terminal (MN) 11 in the WiBro wireless network, and the wireless terminal (MN) 11 in the WiBro wireless network. IPv4 address (IPv4-MN2) (IPv4 destination address), IPv6 address (IPv6 HAA) (IPv6 source address) of the home agent 19 used by the wireless terminal (MN) 11 in the WiBro wireless network, in the WiBro wireless network IPv6 temporary address (IPv6 CoA2) (IPv6 destination address) generated by the wireless terminal (MN) 11 using a router announcement message (RA2 message) from the IPv6 gateway 18, a corresponding terminal (CN) in the WiBro wireless network. IPv6 address (IPv6 CN) (IPv6 source address) of (20), IPv6 home address (IPv6 HoA) (IPv6 destination address), payload data of wireless terminal (MN) 11 in WiBro wireless network] It is transmitted from the terminal (CN) 20 to the mobile radio terminal (MN) (11).

As described above, the present invention adds an IPv6 gateway 18 to an existing network, thereby using wireless Internet without MIPv6 without replacing or changing an access router (AR) 14 or an access control router (ACR) 17 for IPv4. Heterogeneous Manganese Interworking (Vertical Handover) can be serviced.

The method of the present invention as described above may be embodied as a program and stored in a computer-readable recording medium (such as a CD-ROM, a RAM, a ROM, a floppy disk, a hard disk, or a magneto-optical disk). Such a process can be easily carried out by those skilled in the art and will not be described in detail.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The present invention is not limited to the drawings.

As described above, the present invention enables IPv6 access service regardless of whether the existing IPv4 device supports IP mobility function in the wireless Internet that does not support IPv6, and IPv6 enables interworking between heterogeneous wireless networks using Mobile IPv6. There is an effect that allows the network operator to provide heterogeneous manganese interworking (Vertical Handover).

Claims (24)

A method for supporting interworking between heterogeneous networks in an IPv4-based wireless Internet service network, When a wireless terminal in a wireless network area requests an IPv6 over IPv4 service by accessing a gateway using an IPv4 address assigned through a corresponding network interface, the gateway sends a Router Advertisement (RA) message including the IPv6 prefix for the wireless network. Transmitting a first router announcement message to transmit; And The gateway recovers a packet transmitted through 'IPv6 over IPv4 tunneling' from the wireless terminal assigned an IPv6 address through the IPv6 prefix for the one wireless network, and delivers the packet to the IPv6 Internet through 'mobile IPv6 tunneling' 1 tunneling step, The gateway transmits a different IPv6 prefix in a router notification message for each address or according to a divided network, and transmits the same to the wireless terminal. The method of claim 1, When the wireless terminal moves from one wireless network area to another wireless network area, the wireless terminal in the other wireless network area accesses the gateway using an IPv4 address assigned through the corresponding network interface to provide IPv6 over IPv4 service. A second router announcement message transmission step, when the gateway sends a router announcement message including the IPv6 prefix for the other wireless network; And The gateway recovers a packet transmitted through 'IPv6 over IPv4 tunneling' from the wireless terminal assigned an IPv6 address through the IPv6 prefix for the other wireless network, and delivers the packet to the IPv6 Internet through 'mobile IPv6 tunneling'. Second tunneling step Heterogeneous network interworking support method in a wireless Internet service network further comprising. A method for supporting interworking between heterogeneous networks in an IPv4-based wireless Internet service network, When a wireless terminal in a wireless network area requests an IPv6 over IPv4 service by accessing a gateway using an IPv4 address assigned through a corresponding network interface, the gateway sends a Router Advertisement (RA) message including the IPv6 prefix for the wireless network. Transmitting a third router announcement message; And The gateway receives an IPv6 packet transmitted to the wireless terminal assigned an IPv6 address through the IPv6 prefix for the one wireless network from the IPv6 Internet through 'Mobile IPv6 Tunneling' and performs the wireless communication through 'IPv6 over IPv4 tunneling'. A third tunneling step of transmitting to the terminal; The gateway transmits a different IPv6 prefix in a router notification message for each address or according to a divided network, and transmits the same to the wireless terminal. The method of claim 3, wherein When the wireless terminal moves from one wireless network area to another wireless network area, the wireless terminal in the other wireless network area accesses the gateway using an IPv4 address assigned through the corresponding network interface to provide IPv6 over IPv4 service. Transmitting, by the gateway, a fourth router announcement message for transmitting a router announcement message including the IPv6 prefix for the other wireless network; And The gateway receives an IPv6 packet transmitted to the wireless terminal assigned an IPv6 address through the IPv6 prefix for the other wireless network from the IPv6 Internet through 'Mobile IPv6 Tunneling' and through the 'IPv6 over IPv4 tunneling'. A fourth tunneling step of transmitting to a wireless terminal Heterogeneous network interworking support method in a wireless Internet service network further comprising. The method according to claim 2 or 4, The wireless network is a wireless LAN (WiFi) based on the IEEE 802.11 standard, The other wireless network is a mobile Internet (WiBro) based on mobile WiMax (IEEE 802.16e), heterogeneous network interworking support method in a wireless Internet service network. 5. The method according to any one of claims 1 to 4, The gateway comprises: In order to distinguish between networks, each wireless network has an IPv4 address or is divided using one IPv6 address and a port number according to the number of networks. delete 5. The method according to any one of claims 1 to 4, The wireless terminal, It has a dual stack structure supporting both IPv4 and IPv6, and is equipped with terminal-side functions for supporting IPv6 over IPv4 and Mobile IPv6, and has a home address (HoA) registered in a home agent (HA). A method for supporting interworking between heterogeneous networks in a wireless Internet service network. 5. The method according to any one of claims 1 to 4, The wireless terminal, Create a 128-bit IPv6 address using the IPv6 prefix in the router announcement message and the MAC address of your network interface, set the gateway as the default gateway for IPv6 routing, and generate the generated IPv6 address A method for supporting interworking between heterogeneous networks in a wireless Internet service network, which registers (binds updating) its home agent with a temporary address (CoA). The method of claim 2, In the first and second tunneling step, When the wireless terminal communicates with a counterpart terminal on the IPv6 Internet, when the wireless terminal transmits a 'packet for IPv6 over IPv4 tunneling and mobile IPv6 tunneling', the gateway transmits a packet from the wireless terminal. Remove the header for IPv6 over IPv4 and send it to the home agent, The home agent removes a mobile IPv6 header from the packet transmitted from the gateway and transmits the header to the counterpart terminal. The method for supporting interworking between heterogeneous networks in a wireless Internet service network. 5. The method of claim 4, In the third and fourth tunneling step, When the wireless terminal communicates with the counterpart terminal on the IPv6 Internet, if a packet is transmitted from the counterpart terminal, the home agent adds a Mobile IPv6 header to the packet transmitted from the counterpart terminal and transmits the packet to the gateway. , The gateway adds a header for IPv6 over IPv4 to the packet transmitted from the home agent and transmits the header to the wireless terminal. A method for supporting interworking between heterogeneous networks in an IPv4-based wireless Internet service network, Receiving, by a wireless terminal within an area of a wireless network, a first IPv4 address through a corresponding network interface; Requesting, by the wireless terminal, an IPv6 over IPv4 service by accessing a gateway using the assigned first IPv4 address; A first IPv6 address allocating step, wherein the wireless terminal is assigned an IPv6 address based on the IPv6 prefix for one radio network included in a router announcement (RA) message transmitted from the gateway; And A first heterogeneous network interworking service step of performing, by the wireless terminal, an IPv6 access service in the one wireless network area through tunneling to a home agent through the gateway; The gateway transmits a different IPv6 prefix in a router notification message for each address or according to a divided network, and transmits the same to the wireless terminal. 13. The method of claim 12, When the wireless terminal moves from the one wireless network area to another wireless network area, the wireless terminal in the other wireless network area being assigned a second IPv4 address through the corresponding network interface; Requesting, by the wireless terminal, an IPv6 over IPv4 service by accessing the gateway using the assigned second IPv4 address; A second IPv6 address allocation step of receiving, by the wireless terminal, an IPv6 address assigned based on the IPv6 prefix for another wireless network included in a router announcement (RA) message transmitted from the gateway; And A second heterogeneous network interworking service step in which the wireless terminal performs an IPv6 access service in the other wireless network area through tunneling to the home agent through the gateway; Heterogeneous network interworking support method in a wireless Internet service network further comprising. 14. The method of claim 13, The wireless network is a wireless LAN (WiFi) based on the IEEE 802.11 standard, The other wireless network is a mobile Internet (WiBro) based on mobile WiMax (IEEE 802.16e), heterogeneous network interworking support method in a wireless Internet service network. 15. The method according to any one of claims 12 to 14, The gateway comprises: In order to distinguish between networks, each wireless network has an IPv4 address or is divided using one IPv6 address and a port number according to the number of networks. 15. The method according to any one of claims 12 to 14, The wireless terminal, It has a dual stack structure supporting both IPv4 and IPv6, and has a terminal side function for supporting IPv6 over IPv4 and Mobile IPv6, and has a home address (HoA) registered in the home agent (HA). To support interworking between heterogeneous networks in a wireless internet service network. 14. The method of claim 13, In the first and second IPv6 address assignment step, The wireless terminal generates a 128-bit IPv6 address using an IPv6 prefix included in a router advertisement message and a MAC address of its network interface, and sets the gateway as a default gateway for IPv6 routing. And registering (binding update) the generated IPv6 address in the home agent as a temporary address (CoA). 14. The method of claim 13, The first and second heterogeneous manganese interworking service step, When the wireless terminal communicates with a counterpart terminal on the IPv6 Internet, when the wireless terminal transmits a 'packet for IPv6 over IPv4 tunneling and mobile IPv6 tunneling', the gateway transmits an IPv6 packet in a packet transmitted from the wireless terminal. removing the over IPv4 header and transmitting it to the home agent; And Removing, by the home agent, a header for mobile IPv6 from a packet transmitted from the gateway and transmitting the header to the counterpart terminal; Heterogeneous network interworking support method in a wireless Internet service network including a. 14. The method of claim 13, The first and second heterogeneous manganese interworking service step, When the wireless terminal communicates with a counterpart terminal on the IPv6 Internet, when a packet is transmitted from the counterpart terminal, the home agent adds a Mobile IPv6 header to the packet transmitted from the counterpart terminal and transmits the packet to the gateway. step; And The gateway adding a header for IPv6 over IPv4 to the packet transmitted from the home agent and transmitting the header to the wireless terminal Heterogeneous network interworking support method in a wireless Internet service network including a. delete delete delete delete delete

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