KR101480513B1 - Network interworking system and its method - Google Patents

Abstract

The present invention discloses a network interworking system and a method thereof. That is, the IP address is generated based on the network address allocated from the network relay device according to the entry of the short-range wireless network, and based on the generated IP address, the Internet server located on the IP network through the network relay device The connection between the IP network and the short-range wireless network is possible.

IP network, wireless personal area network (WPAN), ZigBee, address translation

Description

[0001] SYSTEM AND METHOD FOR NETWORK LINKING [0002]

The present invention relates to a network interworking method, and more particularly, to a method of network interworking in which a subnet mask is applied considering a bit size of a network address allocated in a wireless personal area network (WPAN) (IP) network and a local area wireless network by mapping the network address to a local area network (LAN) area and a method thereof.

Currently, wireless personal area network (WPAN) systems are mainly used for network configurations that exist independently within a limited geographical range.

Since the short range wireless network technology can be implemented at a relatively low cost, can be operated at low power, and can connect to a large number of nodes, it is widely used in a sensor network configuration requiring various nodes.

In addition, the short-range wireless network technology has been utilized due to the relatively low data rate compared to the conventional technologies such as wireless LAN (WLAN) technology, but it has been applied to a short-range wireless network technology Has been developed and various short range wireless network related technologies and application methods have been studied.

In recent years, there has been an increasing number of cases in which a local wireless network technology is mounted on a terminal for hair using a low price and a low power consumption characteristic of the local wireless network. In this regard, if the mobile terminal equipped with the near-field wireless network technology can access the Internet, that is, the IP network, the utilization of the mobile terminal can be maximized.

However, considering the short-range wireless network node, the address scheme of the short-range wireless network is different from that of the IP network. Therefore, in order for a node located in the short-range wireless network to access the IP network, It must be supported.

The present invention has been made to solve the problems inherent in the prior art as described above, and it is an object of the present invention to provide a subnet mask in consideration of a bit size of a network address allocated in a wireless personal area network (WPAN) (IP network) and a local area wireless network by mapping the network address to a host area of a basic IP address by applying a subnet mask to a local area network and a local network.

According to an aspect of the present invention, there is provided a network interworking system, comprising: a network interfacing device located on an IP network and performing packet exchange with a network terminal located on a short- Internet server; A short-range wireless network for the network terminal to allocate a network address to the network terminal that has entered the local area network, and relay packet exchange between the IP network and the local area wireless network based on the IP address generated based on the network address A network relay device; And generating the IP address based on the network address allocated by the network relay device located on the short-range wireless network and performing packet exchange with the Internet server through the network relay device based on the generated IP address And a network terminal that performs the network operation.

Preferably, the network terminal generates the IP address including the network address by applying a predetermined subnet mask based on a bit size of the network address, And performs packet exchange with the Internet server through the network relay device based on the address.

Preferably, the network terminal generates the IP address by mapping the network address to a host area having a predetermined basic IP address based on the applied subnet mask.

Preferably, the network relay device extracts a network address by analyzing the host area of the IP address, and recognizes the network terminal.

According to another aspect of the present invention, there is provided a network terminal for performing packet exchange with an IP network through interworking with a network relay apparatus forming a short-range wireless network, the terminal comprising: A network entry unit for receiving a network address from the network relay apparatus by transmitting an entry request message including a setting ID to the apparatus; An address generator for generating the IP address based on the network address assigned by the network relay device; And a packet exchange unit for performing packet exchange with an Internet server located on the IP network through the network relay apparatus based on the generated IP address.

Preferably, the address generator generates the IP address including the network address by applying a predetermined subnet mask based on a bit size of the network address.

Preferably, the address generator generates the IP address by applying a bit value of the network address to a host area having a predetermined basic IP address based on the applied subnet mask.

According to another aspect of the present invention, there is provided a network interworking method, comprising: a network address assigning step of assigning a network address to a network terminal in which a network relay device enters a short-range wireless network; An IP address generating step wherein the network terminal generates an IP address based on a network address allocated from the network relay device; A packet exchange request step of requesting the network relay device to exchange packets with an Internet server located on the IP network based on the IP address generated by the network terminal; And requesting the network relay device to exchange packets with the Internet server based on the IP address.

Preferably, the IP address generating step generates the IP address including the network address by applying a predetermined subnet mask based on a bit size of the network address do.

Preferably, the IP address generating step generates the IP address by mapping the network address to a host area having a predetermined basic IP address based on the applied subnet mask.

According to another aspect of the present invention, there is provided a network interworking method comprising: an entrance request step of transmitting an entry request message including a set ID to a network relay device in accordance with entry of a near field wireless network; An access granting step of allocating a network address corresponding to the setting ID from the network relay device; An address generating step of generating the IP address based on a network address allocated by the network relay device; And a network interworking step of requesting packet exchange with an Internet server located on the IP network through the network relay device based on the generated IP address.

Preferably, the address generating step generates the IP address including the network address by applying a predetermined subnet mask based on a bit size of the network address .

Preferably, the address generating step generates the IP address by applying a bit value of the network address to a host area having a predetermined basic IP address based on the applied subnet mask.

According to the network interworking system and method of the present invention, the network address is mapped to a host area of a basic IP address considering a bit size of a network address allocated in a wireless personal area network (WPAN) IP network) and the short-range wireless network, it is possible to directly use the ZigBee NWK layer without changing the address system of the network terminal or the upper network protocol of the IEEE 802.15.4 MAC / PHY, IP) network.

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

1 shows a schematic configuration diagram of a network interworking system according to an embodiment of the present invention.

As shown in FIG. 1, the system includes an Internet server 100 located on an IP network, a network relay apparatus 200 relaying packets exchanged between an IP network and a local area wireless network, and a local area network , And a network terminal 300 located on a wireless personal area network (LAN). For example, the short-range wireless network refers to a ZigBee network, and accordingly, the network terminal 200 refers to a plurality of ZigBee nodes forming a ZigBee network.

The Internet server 100 is located on the IP network and performs packet exchange with the network terminal 300 located on the short-range wireless network through the network relay apparatus 200.

The network relay apparatus 200 forms a short-range wireless network for a plurality of network terminals 300 and relays a packet exchange between the IP network and the short-range wireless network. More specifically, the network relay apparatus 200 receives an access request message (Association REQ) including a setting ID (ID), for example, 'EUI' of 64 bits, from the network terminal 300 that has entered the short- For example, a 16-bit short address to the network terminal 300. The network terminal 300 receives the network address, In addition, the network relay apparatus 200 relays packet exchange between the IP network and the local area wireless network according to the packet exchange request of the network terminal 300 including the IP address generated based on the assigned network address. Meanwhile, the bit value of the network address is applied to the host area of the IP address generated based on the network address, and the network relay device 200 recognizes the network terminal 300 through the analysis of the host area of the IP address Packet exchange can be performed.

The network terminal 300 generates the IP address based on the network address allocated from the network relay apparatus 200 according to the entry of the short-range wireless network, and transmits the IP address to the network relay apparatus 300 based on the generated IP address And performs packet exchange with the Internet server 100 through the Internet. More specifically, the network terminal 300 transmits an access request message (Association REQ) including a setting ID (ID) of, for example, 64 bits (Bit) to the network relay apparatus 200 And is assigned a corresponding network address, for example, a 16-bit short address. Based on this, the network terminal 300 generates an IP address using a 16-bit short address which is a network address. That is, the network terminal 300 applies a predetermined subnet mask based on the bit size of the network address, and transmits the subnet mask to the host area of the predefined basic IP address based on the applied subnet mask. The bit value of the address is applied to generate the IP address.

Hereinafter, a more specific configuration of the network terminal 300 according to the embodiment of the present invention will be described with reference to FIG.

That is, the network terminal 300 includes a network entry unit 310 to which a network address is assigned, an address generation unit 320 that generates an IP address based on the network address, And a packet exchange unit 330 for exchanging packets with the Internet server 100 located on the IP network through the Internet 200.

The network entry unit 310 transmits an Association REQ message including a set ID (e.g., 64 bits) of 'EUI' to the network relay apparatus 200 according to the entry of the short- For example, a 16-bit short address.

The address generator 320 generates an IP address using a 16-bit short address that is a network address. More specifically, the address generator 320 applies a preset subnet mask based on the bit size of the network address, and generates a host area having a predetermined basic IP address based on the applied subnet mask. Lt; RTI ID = 0.0 > IP < / RTI > address. For example, when the basic IP address is '192.168.0.0/16' and the 16 bit short address value is 'Ob0000000000000001', by applying the host area of the basic IP address, that is, the lower 16 bits, to the bit value of the network address 'Ob0000000000000001' , An IP address having an address value of '192.168.0.1' is generated.

As described above, according to the network interworking system according to the embodiment of the present invention, an IP address is generated by applying a subnet mask based on the bit size of the network address allocated from the network relay device 200, And performs direct packet connection between the IP network and the local area wireless network by performing packet exchange with the Internet server 100 through the network relay apparatus 200 based on the generated IP address.

Hereinafter, a network interworking method according to an embodiment of the present invention will be described with reference to FIGS. Here, for convenience of description, the configurations shown in FIGS. 1 and 2 will be described with reference to corresponding reference numerals.

First, a method of operating a network interworking system according to an embodiment of the present invention will be described with reference to FIG.

First, the network relay device 200 assigns a network address to a network terminal that has entered the short-range wireless network (S110 - S130). Preferably, the network relay apparatus 200 receives an access request message (Association REQ) including a setting ID (ID) of, for example, 64 bits (EUI) from the network terminal 300 that has entered the short- For example, a 16-bit short address to the network terminal 300. The network terminal 300 receives the network address,

Next, the network terminal 300 generates an IP address based on the network address assigned from the network relay device 200 (S140). Preferably, the network terminal 300 generates an IP address using a 16-bit short address that is a network address. That is, the network terminal 300 applies a predetermined subnet mask based on the bit size of the network address, and transmits the subnet mask to the host area of the predefined basic IP address based on the applied subnet mask. The bit value of the address is applied to generate the IP address.

Then, the network terminal 300 requests the network relay device 200 to exchange packets with the Internet server 100 located on the IP network based on the generated IP address (S150).

Thereafter, the network relay apparatus 200 requests packet exchange to the Internet server 100 based on the IP address (S160).

Hereinafter, more specific operations of the network terminal 300 will be described with reference to FIG.

In step S210, an entry request message including a setting ID is transmitted to the network relay device 200 according to the entry of the short-range wireless network. Preferably, the network entry unit 310 transmits an access request message (Association REQ) including a set ID (e.g., 64 bits) 'EUI' to the network relay apparatus 200 in accordance with the entry of the short- .

Next, the network address corresponding to the setting ID is allocated from the network relay device 200 (S220 - S230). Preferably, the network entry unit 310 is assigned a corresponding network address, for example, a 16-bit short address, from the network relay apparatus 200 according to transmission of an Association REQ message

Then, the IP address is generated based on the network address allocated from the network relay apparatus 200 (S240 - S250). Preferably, the address generator 320 applies a predetermined subnet mask based on the bit size of the network address, and transmits the subnet mask to the host area having the preset basic IP address based on the applied subnet mask. Lt; RTI ID = 0.0 > IP < / RTI > address. For example, when the basic IP address is '192.168.0.0/16' and the 16-bit short address value is 'Ob0000000000000001', the host area of the basic IP address, that is, the lower 16 bits, is applied as the bit value of the network address 'Ob0000000000000001' , An IP address having an address value of '192.168.0.1' is generated.

Thereafter, in step S260, the network relay apparatus 200 requests packet exchange with an Internet server located on the IP network based on the generated IP address. Preferably, the packet switching unit 330 performs packet exchange with the Internet server 100 located on the IP network to the network relay apparatus 200 based on the IP address generated through the address generation unit 320 request.

As described above, according to the network interworking system according to the embodiment of the present invention, an IP address is generated by applying a subnet mask based on the bit size of the network address allocated from the network relay device 200, And performs direct packet connection between the IP network and the local area wireless network by performing packet exchange with the Internet server 100 through the network relay apparatus 200 based on the generated IP address.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

According to the network interworking system and method of the present invention, the network address is mapped to a host area of a basic IP address considering a bit size of a network address allocated in a wireless personal area network (WPAN) IP network) and a short-range wireless network, it is possible to use a device that is not only used for the related technology, but also has a possibility of selling or operating the device. This is an invention that is industrially usable because it is possible.

1 is a schematic configuration diagram of a network interworking system according to an embodiment of the present invention;

2 is a schematic configuration diagram of a network terminal according to an embodiment of the present invention;

3 and 4 are flowcharts for explaining a network interworking method according to an embodiment of the present invention.

Description of the Related Art

100: Internet server

200: Network relay device

300: network terminal

310: network entry unit 320: address generation unit

330: packet exchange unit

Claims (13)

delete delete delete delete 1. A network terminal for performing packet exchange with an IP network through interworking with a network relay apparatus forming a short-range wireless network, A network entry unit for transmitting an entry request message including a setting ID to the network relay apparatus according to the entry of the short-range wireless network and allocating a short address as a network address from the network relay apparatus; An address generator for generating an IPv4 IP address in which the short address is directly inserted into a host area of a basic IP address to which a subnet mask is applied based on a bit size of the network address; And And a packet exchange unit for performing packet exchange with an Internet server located on the IP network through the network relay apparatus based on the generated IPv4 IP address. delete delete delete delete delete An entry request step of transmitting an entry request message including a setting ID (ID) to a network relay device in accordance with entry of a short-range wireless network; An entry granting step of assigning, as a network address, a short address corresponding to the setting ID from the network relay device; An address generating step of generating an IPv4 IP address in which the short address is directly inserted into a host area of a basic IP address to which a subnet mask is applied based on a bit size of the network address; And And a network interworking step of requesting packet exchange with an Internet server located on the IP network through the network relay device based on the generated IPv4 IP address. delete delete

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