KR101072717B1 - Wireless internet sharing method and system using by local network - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and system for sharing a wireless Internet using a local area network. The present invention relates to a wireless device (PMP, DMB Player, And a wireless Internet sharing method according to the present invention, comprising: (a) receiving internet data or packet data from a mobile communication network; (b) requesting communication method information for each local area wireless device using the local area network, and receiving the communication method information from each local area wireless device; (c) selecting a specific smart bearer capable of maintaining the highest quality of service (QoS) of the Internet service based on the communication method information, and performing authentication on the short range wireless device of the specific communication method. ; And (d) connecting the short range wireless device of the specific communication method and transmitting the Internet data or the packet data to the short range wireless device to share the specific wireless communication method.

Wireless Internet, Local Area Network, Bluetooth, Zigbee, Master Device

Description

Wireless internet sharing method and system using local area network

The present invention relates to a method and system for sharing a wireless Internet provided from a mobile communication network in a packet data receiving apparatus using a local area network.

In general, in addition to Bluetooth, technologies used in a short-range communication network include infrared data association (IRDA), wireless LAN (IEEE 802.11), shared wireless access protocol (SWAP), and wireless personal area network. network (hereinafter referred to as WPAN).

WPAN enables two-way communication between devices by connecting computers, peripheral devices, mobile terminals, and home appliances, which are located at a short distance of about 10 meters, to each other via a wireless network. WPAN is a concept that contrasts with local area network (LAN) or long-distance network (WAN), and is a low-cost, low-power implementation of a small-sized wireless communication network, rather than the existing infrastructure network. Applied in applications such as implementation.

WPAN technology enables low-power, high-speed data transfers from 11 to 55 Mbps, and the data transmission range is limited to within 10 m. The basic unit of the WPAN is a piconet consisting of a network of one or more wireless mobile stations sharing a single network identifier with a piconet coordinator (PNC). The piconet arbiter forms a piconet by providing beacons, provides basic communication timing, and provides quality of service (QoS), synchronization, power saving mode, and media access control to mobiles belonging to the piconet that it manages. It has a function of providing a wireless communication service such as Access Control (MAC).

Piconets are randomly generated whenever needed, and in a piconet, multiple mobiles independently share a medium in a peer-to-peer manner and communicate in a multihop manner, and these piconets are also ad-hoc. hoc) network. Here, the multi-hop method means that, in communication between radio devices on an ad hoc network, a packet transmitted from a source arrives at a destination node via a plurality of radio devices simultaneously serving as a host and a router. In a piconet, a packet transmitted from a source cannot be transmitted directly to a destination node. Therefore, the transmission range of radio waves is limited to a maximum of 10 m.

As described above, in the piconet, a plurality of mobiles share a single medium to communicate with each other, so that access to each medium can be controlled to allow communication of each mobile at an appropriate timing so that there is no collision in the communication between the mobiles.

On the other hand, in recent years, a mobile communication network is grafted to the above-mentioned short-range communication network such as WPAN, so that users can control a wireless device connected to the short-range communication network using a mobile communication terminal.

However, a technology in which a mobile communication network and a short-range communication network are combined simply transmits a control command from a mobile communication terminal to a wireless device, so that the wireless device is turned on or off, or a play or Staying at a level that stops.

In addition, although the mobile communication network provides the Internet to each mobile communication terminal, the Internet provided through the mobile communication network is not provided through the wireless device of the short-range communication network incorporating the mobile communication network. Even if the Internet is provided to the wireless device of the short-range communication network in the mobile communication network, there is a problem that the quality of the Internet service occurs depending on the communication method of the wireless device.

Accordingly, the present invention is to solve the above-mentioned disadvantages and problems of the prior art, and receives the Internet data or packet data from the mobile communication network, the most Internet service through a short-range communication network, such as Bluetooth communication, infrared communication, Zigbee communication An object of the present invention is to provide a wireless Internet sharing method and system using a local area network, which transmits to a local area wireless device (PMP, DMB Player, notebook, etc.) in a high quality communication method, so that wireless Internet can be shared.

The wireless Internet sharing method according to the present invention for achieving the above object, in the wireless Internet sharing method of the master device for relaying the Internet service provided in the mobile communication network to the local area network, (a) Internet data or Receiving packet data; (b) requesting communication method information for each local area wireless device using the local area network, and receiving the communication method information from each local area wireless device; (c) selecting a specific smart bearer capable of maintaining the highest quality of service (QoS) of the Internet service based on the communication method information, and performing authentication on the short range wireless device of the specific communication method. ; And (d) connecting the short range wireless device of the specific communication method and transmitting the Internet data or the packet data to the short range wireless device to share the specific wireless communication method.

In addition, in the step (c), the specific communication method selected includes Bluetooth or infrared (IrDA), wireless LAN, SWAP, WPAN, and Zigbee.

In addition, in step (c), a connection structure of a data link layer is set for the selected specific communication scheme.

In addition, in the step (c), in order to allow connection only to the short range wireless device to which the connection is allowed, a device ID of the short range wireless device registered in advance and a device ID of the short range wireless device are compared. Authentication will be performed.

In the step (d), a session instance is created and connected to the short range wireless device for which authentication has been completed, a session ID is managed, an internal IP is assigned, and a connection is maintained. The inter-session quality of service (QoS) is managed to transmit the Internet data or the packet data to the short range wireless device.

On the other hand, the wireless Internet sharing system according to the present invention for achieving the above object, a specific communication scheme that can receive the Internet data or packet data from the mobile communication network, and maintain the best quality of service (QoS) through the local area network ( Smart Bearer) to relay the Internet data or the packet data in the selected specific communication scheme; And a plurality of short range wireless devices that receive and store or display the Internet data or the packet data in the specific communication scheme from the master device.

In addition, the specific communication method may include Bluetooth, infrared (IrDA), wireless LAN, SWAP, WPAN, and Zigbee.

In addition, the plurality of short range wireless devices may include a mobile communication terminal, a notebook computer, a personal multimedia player, a portable game player, a digital multimedia broadcasting player, and a navigation device. (Nevigation Device), Digital Camera, Health Care Device.

The mobile communication terminal may be operated in a mobile communication mode for receiving the Internet data or the packet data from the mobile communication network or a short range communication mode for receiving the Internet data or the packet data from the master device.

In addition, the master device requests communication method information from the plurality of local area radio devices, receives communication method information from each local area wireless device, and transmits the best quality of service (QoS) through the local area network among the communication method information. It includes; a communication method selector (Smart Bearer Organizer) to automatically select the specific communication method that can maintain.

The master device creates a session instance for the authenticated short range wireless device, manages a session ID, assigns an internal IP, and maintains a connection. It further includes a session manager (Session Manager) for managing the quality (QoS).

On the other hand, the present invention for achieving the above object, in the master device for receiving the Internet data or packet data from the mobile communication network to provide a plurality of short-range wireless devices connected via a short-range communication network, from the plurality of short-range wireless devices A connection processing unit for receiving a connection request message including device information and processing the connection; A smart bearer organizer for automatically selecting a specific communication method for maintaining the best quality of service (QoS) through the local area network for the plurality of short range wireless devices; An authentication agent for performing authentication by comparing a device ID with a registered device ID in order to allow access only to a local wireless device to which access is allowed; And manage a session quality of service (QoS) so as to create a session instance, manage a session ID, assign an internal IP, and maintain a connection for the authenticated short range wireless device. It includes a session manager;

In addition, a mobile communication interface for performing an interface with the mobile communication network; A local area communication interface unit for performing an interface with the local area network; A first packet processing unit (Packet Stream Agent 1) for processing the Internet data or the packet data received from the mobile communication network; A second packet processing unit (Packet Stream Agent 2) for converting the Internet data or the packet data into packet data according to the specific communication scheme; When a session is generated through the session manager, an IP router for branching and retransmitting a packet according to the type of the session and the target device operating on the IP or more network layer; And a user interface that receives data from a user, receives a user's request, stores a configuration log, and displays an operation state when an individual service function is performed.

The communication method selector may request communication method information from the plurality of local area radio devices, receive communication method information from each local area wireless device, and transmit the best quality of service (QoS) through the local area network among the communication method information. Automatically selects the particular communication scheme that can maintain the < RTI ID = 0.0 >

The authentication processing unit may include a database storing device identifiers and passwords, device information, session information, and IP information for each short range wireless device.

According to the present invention, even if a user moves to an area of a short-range communication network while performing a wireless internet with a mobile communication terminal, the wireless internet can be provided there.

In addition, the Internet provided by the mobile communication network including CDMA, WCDMA, HSDPA, GSM, Wibro, etc., the short-range communication including Bluetooth, infrared (IrDA), wireless LAN, SWAP, WPAN, Zigbee (etc.) Can be provided through the network.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, FIG. 1 is a configuration diagram schematically showing the configuration of a wireless Internet sharing system according to an embodiment of the present invention.

Referring to FIG. 1, a wireless Internet sharing system 100 according to the present invention includes a mobile communication terminal 110, a master device 120, a mobile communication network 130, an internet 140, and an internet server ( 150, Internet database 152, and local area network 160.

Here, the local area network 160 includes Bluetooth, IrDA, wireless LAN, SWAP, WPAN, Zigbee, etc., a notebook PC (Personal Conputer) 161, PMP (Personal Multimedia Player) 162, Portable Game Player 163, Digital Multimedia Broadcasting Player 164, Navigation Device 165, Digital Camera 166, Health Care Device A wireless device such as (Healthcare Device) 167 can be used.

The mobile communication terminal 110 operates in a mobile communication mode or a short-range communication mode, and receives the Internet data or packet data from the mobile communication network 130 in the mobile communication mode state, and from the master device 120 in the short-range communication mode state. Receive Internet data or packet data.

The master device 120 receives packet data such as Internet data or streams from the mobile communication network 130 and transmits specific data such as Bluetooth, IrDA, wireless LAN, SWAP, and WPAN to wireless devices in the local area network 160. It relays by communication method.

The plurality of wireless devices 161 to 167 transmit and receive data with the master device 120 through a local area network. That is, the plurality of wireless devices 161 to 167 receive and store or display internet data or packet data from the master device 120 in a specific communication method, and the specific communication method is Bluetooth or infrared (IrDA). ), Wireless LAN, SWAP, WPAN, and Zigbee.

The plurality of wireless devices 161 to 167 transmits communication information (Bearer) information to the master device 120 that they can communicate with the master device 120, the master device 120 is a communication received from each wireless device A specific communication method of each wireless device is set based on the method information.

The mobile communication network 130 may include Code Division Multiple Access (CDMA), Wideband Code Division Multiple Access (WCDMA), High Speed Data Packet Access (HSDPA), and WiBro. Wibro) may be implemented as a network. In addition, although not shown, the mobile communication network 130 includes a base station transmitter (BTS), a base station controller (BSC) and a mobile communication switching center (MSC).

The internet server 150 is a server that provides web page, packet data, and streaming data through the Internet 140. The Internet server 150 may be used to stream Internet data or streaming to the master device 120 through the mobile communication network 130 via the Internet 140. Provide data or packet data.

The Internet database 152 stores a plurality of Internet data related to a web page, packet data related to multimedia, or streaming data according to the type, and multimedia data or streaming to the Internet server 150 under the control of the Internet server 150. Supply the data.

The local area network 160 provides a path for transmitting data to wireless devices in a specific communication scheme such as Bluetooth, IrDA, wireless LAN, SWAP, WPAN, Zigbee, and the like.

The notebook PC 161 as a wireless device may transmit and receive Internet data or packet data to and from the master device 120 in a specific communication scheme via the local area network 160.

The PMP 162 receives and displays streaming data from the master device 120 in a specific communication scheme through the local area network 160.

The portable game machine 163 receives and executes game data from the master device 120 in a specific communication method through the local area network 160.

The DMB player 164 receives and reproduces DMB broadcast data from the master device 120 in a specific communication method through the local area network 160.

The navigation device 165 receives data on the navigation service from the master device 120 in a specific communication method through the local area network 160 and provides the data on the screen.

The digital camera 166 may transmit and receive image data or video data through a specific communication method through the master device 120 and the local area network 160.

The health care device 167 receives and provides information about health care from the master device 120 in a specific communication method through the local area network 160.

2 is a configuration diagram schematically showing an internal configuration of a master device according to an embodiment of the present invention.

2, the master device 120 according to the present invention includes a connection agent 202, a smart bearer organizer 204, an authentication agent 206, and a session. A session manager 208, an IP router 210, a mobile communication interface 212, a first packet processor 214, a short range communication interface 216, a second packet processor 218, And a user interface unit 220.

The connection processor 202 receives a connection request message including device information from a plurality of wireless devices and processes the connection request message.

The communication selector 204 controls the overall operation of the master device 120, and in particular receives communication information (Bearer) information from each wireless device, and based on the communication method information for each wireless device local area network ( 160) automatically selects a specific communication method that can best maintain the quality of service (QoS).

The authentication processing unit 206 performs authentication by comparing the device ID with the registered authentication information in order to allow access only to the wireless device to which the administrator has allowed access. Here, the authentication information includes a device identifier, a password, and a device unique number for each wireless device.

In addition, the authentication processing unit 206 stores device IDs and authentication information for a plurality of wireless devices, and stores device identifiers and passwords, device information, session information, and IP information for each wireless device. It contains a database.

The session manager 208 creates a session instance for the authenticated wireless device, manages a session ID, assigns an internal IP, and maintains a connection quality of service (QoS) to maintain a connection. ).

When the session is generated through the session manager 208, the IP router 210 performs a routing function of branching and retransmitting a packet according to a type of a session and a target device operating based on an IP of a network layer or higher. To perform.

The mobile communication interface unit 212 performs an interface with the mobile communication network 130, and the first packet processing unit 214 processes internet data or packet data received from the mobile communication network 130.

The local area communication interface unit 216 performs an interface with the local area network 160, and the second packet processing unit 218 converts Internet data or packet data into packet stream data according to a specific communication method.

The user interface 220 receives data from an administrator, receives a user's request, stores a configuration log, and displays an operation state when an individual service function is performed. In addition, the user interface 220 receives an authentication information for each wireless device, that is, a device identifier, a password, and a device unique number from an administrator.

3 is a configuration diagram schematically showing an internal configuration of a mobile communication terminal as a wireless device according to an embodiment of the present invention.

Referring to FIG. 3, the mobile communication terminal 110 to which the present invention is applied includes a communication unit 310, an input unit 320, a display unit 330, a control unit 340, a storage unit 350, and an operation mode setting unit 360. It includes.

Here, each component is interconnected by a bus 370.

The communication unit 310 transmits / receives voice signals or data to and from the mobile communication network 130, and transmits / receives Internet data or packet data to the local area network 160. To this end, the communication unit 310 may be divided into a mobile communication connection for connecting to the mobile communication network 130 and a short-range communication connection for connecting to the local area network 160.

The input unit 320 inputs a user's operation command and transmits it to the control unit 340. That is, the input unit 320 receives an operation mode setting command for setting the operation state of the mobile communication terminal 110 from the user. To this end, the input unit 320 is provided with a plurality of buttons for numbers or letters and symbols.

The display unit 330 displays an operation state of the mobile communication terminal 110 and displays on the screen whether the operation state of the mobile communication terminal 110 is a mobile communication mode or a near field communication mode. The display unit 330 may be configured of, for example, an LCD.

The controller 340 controls the overall operation of the mobile communication terminal 110, and controls to operate in the mobile communication mode or the short-range communication mode according to the user's operation mode setting.

The storage unit 350 temporarily stores data received through the input unit 320 or stores internet data or packet data received through the communication unit 310.

The operation mode setting unit 360 stores and sets an operation mode state according to a user's setting input in the form of a flag. The controller 340 controls the mobile communication terminal 110 to operate in a mobile communication mode or a short-range communication mode based on a flag relating to an operation mode stored in the operation mode setting unit 350.

4 is a structural diagram showing a protocol stack when a specific communication method according to the present invention is Bluetooth.

Referring to FIG. 4, the Bluetooth stack includes a Bluetooth module 402, a Host Controller Interface (HCI) transport layer (404), a Logical Link Control and Adaptation Protocol (L2CAP) 406, and an RFCOMM ( Radio Frequency Communication (408), Multiple Piconet Manager (410), Personal Area Network Manager (PAN) 412, Point-to-Point Protocol (PPP) 414, TCP / IP (Transmission) Control Protocol / Internet Protocol) 416.

The Bluetooth module 402 is an independent device connected to a wireless device to use Bluetooth by a wired serial communication standard such as RS232C or USB.

The HCI transport layer 404 is RS232C or USB. The HCI transport layer 404 controls the module in response to a series of commands and responses defined in the standard, and transmits and receives data by the host.

The L2CAP 406 is a communication protocol defined in the standard, and is a protocol located above the HCI transport layer 404. The L2CAP 406 is a service that serves as a multi-communication function, division and combination of data, and abstraction of groups for the upper protocol stack. To provide. By the L2CAP 406, the upper protocol and the application not shown can transmit and receive L2CAP packet data having a length of up to 64 Kbytes.

RFCOMM 408, also known as 'Cable Replacement Protocol', is a protocol that replaces serial transmission such as RS232C connecting a modem, and RS232C for higher protocols requiring serial transmission functions such as OBEX (Object Exchange Protocol). It supports the control of and the data signal on the baseband.

The multiple piconet manager 410 manages the Bluetooth device attached to the wireless Internet access device, and monitors the Bluetooth connection status and data transmission speed of the wireless device. In addition, multiple piconet manager 410 processes the connection request received from each wireless device from the monitored results for the wireless devices.

The PAN manager 412 forms a private network based on any Bluetooth device, manages the network policies of the PAN managers individually present in several Bluetooth devices, and may integrate two Bluetooth piconets into one subnet.

PPP 414 is a protocol required when two wireless devices communicate using a serial interface, uses IP and is sometimes considered one of a family of TCP / IP protocols. The PPP 414 provides a data link service corresponding to the second layer when compared to the Open Systems Interconnection (OSI) reference model.

TCP / IP 416 is a protocol used to send data in the form of messages between wireless devices on the Internet, while TCP tracks and manages data packets while IP governs the transmission of data. For example, when an HTML file is sent from the web server 150 to the wireless device, the TCP program layer within the web server 150 divides the file into multiple packets, numberes the packets, and sends them to the IP program layer. . Even though each packet has the same destination address (IP address), the packets can be sent through different paths in the network. Receiving it from the web server 150, TCP / IP 416 reassembles each packet, waits until it can send it to a wireless device as a complete file, and sends it to the wireless device when it completes the file.

5 is a flowchart illustrating a wireless Internet sharing method of a master device according to an embodiment of the present invention.

In the embodiment of the present invention, it is assumed that the PMP 162 or the DMB player 164 is connected to the master device 120 in a short range communication method.

Referring to FIG. 5, Internet data or packet data transmitted from the Internet server 150 is transferred to the master device 120 via the Internet 140 and the mobile communication network 130, and the master device 120 performs mobile communication. Internet data or packet data is received through the interface unit 212 (S502).

In the master device 120, the communication method selector 204 requests communication method information from wireless devices that can be connected through the local area network 160 (S504).

In this case, the communication method information includes a communication method in which each wireless device can communicate with the master device 120, for example, a Bluetooth or Zigbee method, and information about a transmission rate or IP information of each communication method.

A wireless device such as the PMP 162 or the DMB player 164 may transmit information about a communication method capable of communicating with the master device 120, a transmission rate (data rate), IP information, and the like of the communication method. 120).

When the communication method selector 204 receives communication method information from each wireless device (S506), the quality of service (QoS) may be best maintained through the local area network 160 based on the communication method information of each wireless device. A specific communication method is selected and authentication is performed for the wireless device of the selected specific communication method (S508).

For example, the PMP 162 may communicate with the master device 120 using a Bluetooth method and a Zigbee method, and have a transmission rate of 1 Mbps when using the Bluetooth method, and a transmission rate of 0.7 Mbps when using the Zigbee method. In addition, the DMB player 164 can communicate with the master device 120 in the ZigBee method and the IrDA method, and has a transmission speed of 0.5 Mbps in the ZigBee method, and 0.8 Mbps in the IrDA method The communication method selector 204 selects the Bluetooth method having the best quality of service as the specific communication method. Accordingly, the communication method selector 204 performs authentication through the authentication processing unit 206 for the PMP 162 that can communicate in the selected specific communication method. In this case, the authentication processing unit 206 may perform PIN (Personal Identification Number) authentication or Device Certification authentication on the PMP 162.

The communication method selector 204 may perform authentication by checking the connection information of the PMP 162 among the connection information of each wireless device in the database of the authentication processing unit 206 with respect to the PMP 162.

In addition, the communication method selector 204 is based on the communication method information received from the DMB player 164 when the Internet data or packet data received from the Internet server 150 is the data to be received by the DMB player 164. It is possible to confirm which communication method is possible between the DMB player 164 and the master device 120, and select a communication method having the best quality of service, for example, a Bluetooth communication method, from among the possible communication methods.

In addition, the communication method selector 204 may be configured between the health care device 167 and the master device 120 when the Internet data or packet data received from the Internet server 150 is data to be received by the health care device 167. It is possible to determine which communication method can transmit data in the state of the highest quality of service, and select, for example, the Zigbee communication method of the highest quality of service between the master device 120 and the health care device 167.

When a specific communication method is selected by the above-described method, the communication method selector 204 performs authentication through the authentication processing unit 206 for the wireless device of the specific communication method.

When authentication of the wireless device, for example, the PMP 162 or the DMB player 164, to which a specific communication method is set (S510), the master device 120 performs the PMP 162 or the DMB player (through the session manager 208). 164 and establishes a session, and transmits the Internet data or packet data to the PMP 162 or DMB player 164 through the set session (S512).

Accordingly, the user can share the wireless Internet through a wireless device such as PMP 162 or DMB player 164 in local area network 160.

As described above, according to the present invention, a wireless device (PMP, PMP) is used to receive Internet data or packet data from a mobile communication network, and to provide the best Internet service quality through a short-range communication network such as Bluetooth communication, infrared communication, and Zigbee communication. A wireless Internet sharing method and system using a local area network, which can be transmitted to a DMB player, a notebook computer, or the like, can be realized.

As those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features, the embodiments described above are exemplary in all respects and are not intended to be limiting. You must understand. The scope of the invention is indicated by the following claims rather than the foregoing description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts are included in the scope of the invention. Should be.

The present invention provides a mobile communication network including CDMA, WCDMA, HSDPA, GSM, Wibro, and the like, and a short range communication network including Bluetooth and infrared (IrDA), wireless LAN, SWAP, WPAN, Zigbee, and the like. It can be applied to any technology that provides the Internet by grafting.

1 is a configuration diagram schematically showing the configuration of a wireless Internet sharing system according to an embodiment of the present invention;

2 is a configuration diagram schematically showing an internal configuration of a master device according to an embodiment of the present invention;

3 is a configuration diagram schematically showing an internal configuration of a mobile communication terminal as a wireless device according to an embodiment of the present invention;

4 is a structural diagram showing a protocol stack when a specific communication scheme according to the present invention is Bluetooth; and

5 is a flowchart illustrating a wireless Internet sharing method of a master device according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: wireless Internet sharing system 110: mobile communication terminal

120: master device 130: mobile communication network

140: Internet 150: Internet Server

152: Internet Database 160: Local Area Network

202: connection processing unit 204: communication method selector

206: authentication processing unit 208: session management unit

210: IP router 212: mobile communication interface unit

214: first packet processing unit 216: short-range communication interface unit

218: second packet processing unit 220: user interface unit

310: communication unit 320: input unit

330 display unit 340 control unit

350: storage unit 360: operation mode setting unit

402: Bluetooth module 404: HCI transport layer

406: L2CAP 408: RFCOMM

410: Multiple Piconet Manager 412: PAN Manager

414: PPP 416: TCP / IP

Claims (15)

In the wireless Internet sharing method of the master device for relaying the Internet service provided by the mobile communication network to the local area network, (a) the master device receiving internet data or packet data from the mobile communication network; (b) the master device requesting communication method information for each of at least one local area wireless device using the local area network, and receiving the communication method information from each of the at least one local area wireless device; (c) The master device selects a specific smart bearer capable of maintaining the highest quality of service (QoS) of the Internet service based on the communication method information, and provides a short range wireless device using the specific communication method. Performing authentication; And (d) connecting, by the master device, with the short range wireless device using the specific communication method and transmitting the Internet data or the packet data to the short range wireless device through the specific communication method; Wireless Internet sharing method using a local area network comprising a. The method of claim 1, In the step (c), the specific communication method selected includes a Bluetooth or infrared (IrDA), a wireless LAN, SWAP, WPAN, Zigbee (Zigbee) method, the wireless Internet sharing method using a local area network . The method of claim 1, In the step (c), the wireless Internet sharing method using the local area network, characterized in that for setting the connection structure of the data link layer (Data Link Layer) for the selected specific communication scheme. The method of claim 1, In step (c), authentication is performed by comparing a device ID of the short-range wireless device registered in advance with the device ID of the short-range wireless device to allow access only to the short-range wireless device to which the connection is allowed. Wireless Internet sharing method using a local area network, characterized in that performed. The method of claim 1, In step (d), the local wireless device, which has been authenticated, may create and connect a session instance, manage a session ID, assign an internal IP, and maintain a connection. And managing the quality of service (QoS) between sessions so that the Internet data or the packet data is transmitted to the short range wireless device. A smart bearer that can receive Internet data or packet data from a mobile communication network, request and receive communication method information to at least one local area wireless device, and maintain the best quality of service (QoS) through the local area network. A master device configured to relay the Internet data or the packet data by the selected specific communication method; And A plurality of short range wireless devices that receive and store or display the Internet data or the packet data in the specific communication scheme from the master device; Wireless Internet sharing system comprising a. The method of claim 6, The specific communication method may include a Bluetooth or infrared (IrDA), wireless LAN, SWAP, WPAN, and Zigbee method. The method of claim 6, The plurality of short range wireless devices may include a mobile communication terminal, a notebook computer, a personal multimedia player, a portable game player, a digital multimedia broadcasting player, and a navigation device. Wireless Internet sharing system comprising a device, a digital camera, a health care device. The method of claim 8, The mobile terminal operates in a mobile communication mode for receiving the Internet data or the packet data from the mobile communication network or a short range communication mode for receiving the Internet data or the packet data from the master device. Shared system. The method of claim 6, The master device requests communication method information from the plurality of short range radio devices, receives communication method information from each local area wireless device, and maintains the best quality of service (QoS) through the local area network among the communication method information. And a communication method selector (Smart Bearer Organizer) for automatically selecting the specific communication method. The method of claim 6, The master device may create a session instance for the authenticated short range wireless device, manage a session ID, assign an internal IP, and maintain a quality of service between sessions so that a connection can be maintained. And a session manager for managing QoS. A master device for receiving Internet data or packet data from a mobile communication network and providing the same to a plurality of local wireless devices connected through a local area network. A connection processor for receiving a connection request message including device information from the plurality of short range wireless devices and processing the connection request message; A smart bearer organizer for automatically selecting a specific communication method for maintaining the best quality of service (QoS) through the local area network for the plurality of short range wireless devices; An authentication agent for performing authentication by comparing a device ID with a registered device ID in order to allow access only to a local wireless device to which access is allowed; And Create a session instance for the authenticated short range wireless device, manage a session ID, assign an internal IP, and manage inter-session quality of service (QoS) so that the connection can be maintained A session manager; Master device comprising a. 13. The method of claim 12, A mobile communication interface unit performing an interface with the mobile communication network; A local area communication interface unit for performing an interface with the local area network; A first packet processing unit (Packet Stream Agent 1) for processing the Internet data or the packet data received from the mobile communication network; A second packet processing unit (Packet Stream Agent 2) for converting the Internet data or the packet data into packet data according to the specific communication scheme; When a session is created through the session manager, an IP router for branching and retransmitting a packet according to a type of session and a target device operating based on an IP of a network layer or higher; And A user interface unit configured to receive data from a user, receive a user request, store a configuration log, and display an operation state when an individual service function is performed; Master device, characterized in that it further comprises. 13. The method of claim 12, The communication method selector requests communication method information from the plurality of local area wireless devices, receives communication method information from each local area wireless device, and transmits the best quality of service (QoS) through the local area network among the communication method information. And automatically selects said particular communication scheme that can be maintained. 13. The method of claim 12, And the authentication processing unit includes a database storing device identifiers and passwords, device information, session information, and IP information for each short range wireless device.

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