KR100886678B1 - Wireless internet access system - Google Patents

Abstract

The present invention relates to a wireless Internet access system incorporating a wireless Internet service, WiBro, and a new wireless Internet service. The present invention relates to a wireless gateway that is installed at a remote location and performs a wireless LAN connection with a terminal, and performs a wireless internet connection with a wireless gateway. And by providing an Internet wireless station for providing Internet access to the wireless gateway at the request of the wireless gateway, performing connection through a wireless LAN with a terminal, and accessing an internet network through a portable internet. In addition to providing a terminal to the terminal, since the final connection to the Internet is wireless, the installation of the device is easier than wired, there is an effect that can provide integrated wireless Internet access of the wireless LAN and the portable Internet.

WiBro, Wireless Internet, Wireless Access

Description

Wireless Internet Connection System {Wireless Internet Connection System}

1 is a block diagram illustrating a connection configuration of a wireless Internet access system according to the present invention;

2 is a block diagram for explaining the configuration of a wireless Internet access system according to the present invention;

3 is a block diagram for explaining a configuration of a first communication device according to the present invention;

4 is a block diagram illustrating a configuration of a second communication device according to the present invention.

<< Brief description of the main parts of the drawing >>

10: Terminal 20: Internet

100: Internet wireless station 200: Wireless gateway

210: main control unit 220: first communication device

230: second communication device

The present invention relates to a wireless Internet access system integrating a wireless Internet service WiBro and a wireless LAN.

Wireless LANs are roughly classified into US-based IEEE 802.11 standards, European-based Hiperlan standards, and Japan's MMAC-PC standards. Among them, the 802.11 committee of the IEEE (the Institute of Electrical and Electronics Engineers) first established the WLAN standard.

Since then, two standards such as IEEE 802.11a of 5GHz band and IEEE802.11b, which realizes 11Mbps in 2.4GHz band, have been standardized, and 802.11g, which is compatible with IEEE802.11b, has emerged.

The WLAN to which the communication standard is applied provides a WLAN service to a terminal through a device called an access point.

 However, since the conventional wireless LAN access system requires a separate wired / wireless infrastructure for connecting an access point to perform a wireless LAN connection and the Internet network, there is a cumbersome installation and operation required according to the separate wired / wireless infrastructure.

Accordingly, an object of the present invention is to provide a wireless internet access system using a portable internet network and a gateway applied to the wireless internet access system without the need for a separate wired or wireless infrastructure.

The wireless Internet access system according to the present invention for achieving the above object is a wireless gateway that is installed at a remote location and performs a wireless LAN connection with a wireless Internet terminal, and performs a wireless Internet connection with the wireless gateway and the request of the wireless gateway And an internet radio station for providing internet access to the wireless gateway.

The wireless gateway is characterized in that it comprises a main control unit for controlling the overall operation includes a first communication device for performing a portable Internet connection with the Internet wireless station and a second communication device for performing a wireless LAN connection with the terminal.

The first communication device includes an antenna for transmitting and receiving a radio signal to and from the Internet radio station. A duplexer for separating a transmission signal and a reception signal with a time difference between two signals having the same frequency through the antenna and receiving a reception signal separated from the duplexer. Receiving unit for receiving and outputting to the modem unit The transmission unit for transmitting the signal modulated by the modem unit to the duplexer as a transmission signal and a protocol processing unit for processing a protocol for establishing a portable Internet connection with the wireless station do.

The second communication apparatus includes a deflector for separating an antenna for transmitting and receiving an RF signal for wireless communication with a terminal and for separating a transmission signal and a reception signal with a time difference in each frequency band. Wireless transmitting and receiving unit for transmitting and receiving RF signal through the wireless communication protocol receiving unit for processing the RF signal transmitted and received by the wireless transmission and reception unit according to a predetermined wireless communication standard and a wireless LAN protocol processing unit for processing a protocol for wireless LAN access through the modem unit It includes a more specific feature to include.

In addition, the gateway of the wireless Internet access system according to the present invention for achieving the above object, the first communication device for performing a portable Internet connection with the Internet wireless station and a second communication device for performing a wireless LAN connection with the wireless Internet terminal and the And a main controller configured to control overall operations of the first communication device and the second communication device so that the terminal wirelessly connected to the second communication device can connect to the Internet radio station through the first communication device. do.

The first communication device includes an antenna for transmitting and receiving a radio signal to and from the Internet radio station. A duplexer for separating a transmission signal and a reception signal with a time difference between two signals having the same frequency through the antenna and receiving a reception signal separated from the duplexer. Receiving unit for receiving and outputting to the modem unit More specifically characterized in that it comprises a transmitting unit for transmitting a signal modulated by the modem unit to the duplexer as a transmission signal and a protocol processing unit for processing a protocol for establishing a portable Internet connection with the wireless station do

The second communication apparatus includes a deflector for separating an antenna for transmitting and receiving an RF signal for wireless communication with a terminal and for separating a transmission signal and a reception signal with a time difference in each frequency band. Wireless transmitting and receiving unit for transmitting and receiving RF signal through the wireless communication protocol receiving unit for processing the RF signal transmitted and received by the wireless transmission and reception unit according to a predetermined wireless communication standard and a wireless LAN protocol processing unit for processing a protocol for wireless LAN access through the modem unit To include more specific features

The second communication apparatus may include a plurality of antennas, a deplexer, a wireless transmitter / receiver, a modem unit, and a protocol processor to perform dual-band wireless LAN communication using different frequency bands. The deplexer receives all the signals of the different frequency bands of the dual band and transmits the signals to the corresponding radio transceivers by dividing the signals of the different frequency bands, respectively, and the signals of the different frequency bands transmitted from each radio transceiver. It is also preferable to send. The second communication device may further include a plurality of bridge switches for receiving signals for the same frequency band separated by the plurality of deplexers and transmitting the signals to the radio transceiver.

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

1 is a block diagram illustrating a connection configuration of a wireless Internet access system according to an exemplary embodiment of the present invention.

Referring to FIG. 1, the wireless Internet access system according to the present embodiment is a system for controlling the connection between the wireless Internet terminal 10 and the Internet 20 according to an Internet access request from the terminal 10. The wireless Internet access system according to the present invention is connected to the Internet wireless station 100 connected to the Internet 20 and the terminal 10 through a wireless LAN protocol, and a protocol different from the wireless LAN protocol, for example, 2.3GHz And a wireless gateway 200 for connecting to the Internet wireless station 100 through a portable Internet connection. Here, the terminal 10 may be any terminal capable of wireless Internet including a wireless LAN wireless LAN module such as a mobile communication terminal having a wireless LAN function, a PDA, a notebook computer, and a PC.

On the other hand, the wireless gateway 200 according to an embodiment of the present invention applied to the wireless Internet access system is as follows.

2 is a block diagram illustrating a configuration of a wireless gateway 200 applied to a wireless LAN access system according to the present invention.

2, the wireless gateway 200 of the wireless Internet access system according to the present invention is largely divided into a first communication device 220 for performing a 2.3 GHz portable Internet connection, and a terminal 10 and a wireless LAN connection. It includes a second communication device 230 to perform, and the main control unit 210 for controlling the network connection of the first communication device 220 and the second communication device 230.

The first communication device 220 according to the present invention performs a wireless connection with the Internet radio station 100, for example, performs a mobile Internet connection of the 2.3GHz band, a terminal that is a client requesting the actual Internet access ( 10) receives the connection request via the second communication device 230, and connects it to the Internet 20 through the Internet wireless station 100.

The second communication device 230 is a client (eg, all terminals including a wireless LAN module such as a mobile communication terminal having a wireless LAN function, a PDA, a notebook computer, a PC, etc.) 10 which is a client requesting Internet access, and wireless. LAN communication, for example, wireless LAN communication using the IEEE 802.11a / b / g protocol.

3 is a block diagram illustrating a configuration of a first communication device according to the present invention. The first communication device 220 according to the present invention is a device for performing a portable Internet connection with the Internet wireless station 100. The first communication device 220 performs a connection with the Internet wireless station 100 through a 2.3 GHz portable Internet protocol.

3, the first communication device 220 according to the present invention is an antenna for transmitting and receiving a radio signal with the Internet radio station 100, and separating the signal for transmission and the signal for reception from the signal transmitted and received through the antenna The duplexer 226, a receiving unit 225 for receiving a separate receiving signal from the duplexer 226 and outputting the received signal to the modem unit 223, and a signal modulated by the modem unit 223 as the transmission signal. A transmitter 224 for transmitting to the duplexer 226, a protocol processor 221 for processing a protocol for establishing a portable Internet connection with the Internet radio station 100, and a memory 222 for buffering signals. .

The protocol processor 221 includes a MAC for accessing a 2.3 GHz portable Internet, and the memory 222 is implemented as a RAM or a flash memory to implement an operating firmware or a temporary data buffer function.

4 is a block diagram illustrating a configuration of a second communication device according to the present invention. The second communication device 230 according to the present invention performs wireless LAN communication, for example, wireless LAN communication using the IEEE 802.11a / b / g protocol with the wireless Internet terminal 10 carried by the client. In this case, the second communication device 230 performs a dual band WLAN connection using the WLAN protocol IEEE 802.11b / g / a simultaneously or respectively, and has the following configuration.

Referring to FIG. 4, the second communication device 230 according to the present invention separates an antenna for transmitting and receiving an RF signal and a different frequency band for wireless communication with the terminal 10, and transmits a signal for transmission in each frequency band. A deplexer 231 for separating a signal for receiving, a radio transmitter / receiver 233 for transmitting and receiving an RF signal through the deplexer 231, and a radio signal transmitted / received by the radio transmitter / receiver 233 to a predetermined radio signal. A modem unit 234 for performing processing according to a communication standard, and a protocol processing unit 235 for processing a protocol for wireless LAN connection through the modem unit 234. At this time, the protocol processing unit 235 includes a wireless MAC.

The modem unit 234 may include an amplifier circuit, an oscillation circuit, a transmission / reception switching circuit, a mixing circuit, an RF / IF (Radio Frequency / Intermediate Frequency) conversion circuit, an IF / BB (Intermediate Frequency / Base Band) conversion circuit, a baseband processing circuit. And the like, and the protocol processor 235 controls wireless data input / output according to a specific wireless MAC protocol such as IEEE 802.11b / g / a, which is a wireless LAN standard.

The second communication device 230 having the dual band configuration according to the present invention described above can control the wireless LAN connection through a multi-frequency band, for example, the frequency band of the 2.4 GHz band according to the IEEE 802.11b / g standard And, it is possible to perform a wireless LAN connection with the terminal 10 through the frequency band of the 5.8 GHz band according to the IEEE 802.11a standard, as shown in Figure 4 a plurality of antennas, deplexers, It includes a wireless transmitter and receiver, a modem unit, and a protocol processing unit.

In the above configuration, the second communication device 230 distinguishes signals of different frequency bands, that is, the 2.4 GHz and 5.8 GHz bands, by one antenna through the deplexer 231, and the plurality of antennas and the deplexers 231a and 231b) transmit and receive signals in the 2.4 GHz and 5.8 GHz bands.

The deplexers 231a and 231b separate frequency bands through a predetermined filter (for example, a low pass filter) and transmit them to the components of each mode. In the present embodiment, a plurality of deflectors are provided through the bridge switch 232. Receive two signals from lexers 231a and 231b.

In the above-described embodiment, the second communication device 230 has been described as a configuration for a dual band WLAN connection, but a configuration diagram for a single band WLAN connection using any one of the IEEE 802.11b / g / a WLAN protocols. The possibilities are natural.

The second communication device 230 having the above-described configuration receives a signal transmitted from the terminal 10 through an antenna, and each of the deflectors 231a and 231b has a frequency band of 2.4 GHz band according to the 802.11b / g standard. And a frequency band of 5.8 GHz band according to the IEEE 802.11a standard. Accordingly, each of the deflectors 231a and 231b separates the frequency bands and transmits the signals of the separated frequency bands to the corresponding bridge switch 232. Each bridge switch 232a and 232b transmits a signal from the deplexer to the corresponding radio transceiver 233a and 233b, respectively.

The signal transmitted to each radio transceiver 233a and 233b is demodulated through the modems 234a and 234b and then transmitted to the protocol processor 235a and 235b. The protocol processor 235a and 235b performs signal processing for each protocol and transmits the signal to the main controller 210.

The main controller 210 transmits a signal transmitted from the second communication device 230 to the first communication device 220, and the first communication device 220 uses the portable Internet protocol to transmit the Internet wireless station 100. To send. Accordingly, the terminal 10 is connected to the Internet 20 via the Internet radio station 100.

The present invention described above, those skilled in the art will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, the embodiments described above are to be understood as illustrative and not restrictive in all aspects. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described in detail above, the wireless Internet access system and the gateway according to the present invention do not need a separate wired or wireless infrastructure for connecting an access point and the Internet network by using a portable Internet service network to connect a user terminal to the Internet. It is simple and efficient to install and operate.

Claims (9)

delete delete delete A wireless gateway installed at a remote location to perform wireless LAN connection with a wireless Internet terminal; And An Internet wireless station for performing a portable Internet connection with the wireless gateway and providing Internet access to the wireless gateway at the request of the wireless gateway; Including, The wireless gateway, A first communication device for performing a portable Internet connection with the Internet radio station; A second communication device configured to perform a WLAN connection with the terminal and perform dual band WLAN communication using different frequency bands; And A main control unit controlling overall operations of the first communication device and the second communication device to enable the terminal wirelessly connected to the second communication device to be connected to the Internet radio station through the first communication device; Including; The second communication device, An antenna for transmitting and receiving an RF signal for wireless communication with the terminal; A diplexer that separates different frequency bands and separates a transmission signal and a reception signal with a time difference in each frequency band; A radio transmitter and receiver for transmitting and receiving an RF signal through the deplexer; A modem unit for processing the RF signal transmitted and received by the wireless transmission and reception unit according to a predetermined wireless communication standard; And a WLAN protocol processor for processing a protocol for wireless LAN access through the modem unit. Including, but including a plurality of the antenna, a deplexer, a wireless transmitter and receiver, a modem unit, a protocol processing unit to perform dual-band wireless LAN communication using different frequency bands, the plurality of antennas and deflectors Receives all signals of different frequency bands of dual bands and transmits signals to the corresponding radio transceivers by dividing the signals of the different frequency bands respectively, and the signals transmitted to the radio transceivers are demodulated through the corresponding modem and then the corresponding protocols. And a protocol processing unit transmitting signal of different frequency bands by performing signal processing for each protocol. delete delete A first communication device for establishing a portable Internet connection with an Internet wireless station; A second communication device configured to perform wireless LAN connection with a wireless Internet terminal, and to perform dual band wireless LAN communication using different frequency bands; And A main control unit controlling overall operations of the first communication device and the second communication device to enable the terminal wirelessly connected to the second communication device to be connected to the Internet radio station through the first communication device; Including; The second communication device, the antenna for transmitting and receiving RF signals for wireless communication with the terminal; A diplexer that separates different frequency bands and separates a transmission signal and a reception signal with a time difference in each frequency band; A radio transmitter and receiver for transmitting and receiving an RF signal through the deplexer; A modem unit for processing the RF signal transmitted and received by the wireless transmission and reception unit according to a predetermined wireless communication standard; And a WLAN protocol processor for processing a protocol for wireless LAN access through the modem unit. Including, but including a plurality of the antenna, a deplexer, a wireless transmitter and receiver, a modem unit, a protocol processing unit to perform dual-band wireless LAN communication using different frequency bands, the plurality of antennas and deflectors Receives all signals of different frequency bands of dual bands and transmits signals to the corresponding radio transceivers by dividing the signals of the different frequency bands respectively, and the signals transmitted to the radio transceivers are demodulated through the corresponding modems and then the corresponding protocols. The wireless gateway of the wireless Internet access system is transmitted to a processing unit, and each protocol processing unit transmits signals of different frequency bands by performing signal processing for each protocol. delete The method of claim 7, wherein The second communication device, A plurality of bridge switches for receiving signals for the same frequency band divided by the multiplexers and transferring the signals to the wireless transceiver; Wireless gateway of the wireless Internet access system further comprises.

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