KR20030065234A - Transmission line of W-LAN - Google Patents

Abstract

The present invention allows wireless LAN signals to be transmitted without establishing a separate transmission line for a wireless LAN network where a conventional optical repeater line is installed. Regarding the transmission device of

In the present invention, the optical repeater donor and the optical repeater remote is a transmission device of the optical repeater is formed by connecting the optical path to the transmission medium, wherein the donor side communication port of the optical repeater is multiplexed with the IP backbone to the optical path A first optical signal multiplexing device configured to transmit / receive a wireless LAN signal together with an optical signal of the optical repeater donor, and a multiplexing connection to an optical path at a remote communication port of the optical repeater A second optical signal multiplexing device configured to transmit / receive a wireless LAN signal to each line together with the optical signal of the optical repeater remote, and the first optical signal multiplexing device and the second optical signal multiplexing device The invention is characterized in that it is made to transmit a wireless LAN signal.

Description

Wireless LAN Network Transmission Device {Transmission line of W-LAN}

The present invention relates to a transmission apparatus of a fixed wireless LAN (W-LAN) network capable of high-speed data transmission, and more particularly, using an existing optical repeater line in an area where a new wireless LAN network needs to be established. The present invention relates to a wireless LAN network transmission apparatus capable of transmitting a LAN signal.

Recently, unlike the existing communication service using a wired network, wireless communication, a next-generation communication service that enables two-way communication anytime, anywhere without restriction of time and place using a portable terminal or a mobile terminal device (laptop PC, mobile phone, PDA, etc.) As a type of transmission medium that enables rapid data communication, a wireless LAN that converts transmission data between personal computers and servers of each organization into radio signals or optical signals and transmits and receives them wirelessly is developed. As a result, the wireless LAN has various advantages such as network connection between buildings, areas requiring mobility of terminals, and areas where cable wiring is difficult.

However, in order to establish the wireless LAN network, an access point capable of wirelessly transmitting and receiving with a mobile terminal device is constructed by connecting a wire. In FIG. 1, a wireless LAN having an access point connected to the Internet network is provided. One example of a network is shown.

For example, a W-LAN dedicated mobile terminal device 10 such as a notebook computer, a mobile phone or a PDA is connected to the Internet network 15 through an access point, in which a hub 12 and a router 13 are located. The W-LAN terminal, i.e., the mobile terminal 10, routes the path to be connected. In this case, the wired LAN 14 may be connected to the hub 12. As such, the mobile terminal device 10 is wirelessly connected between the mobile terminal device 10 and the connection point 11 in order to be connected to the Internet network 15, but the connection point 11 is connected to the Internet through a dedicated transmission line 16. It will be connected to the network.

In general, it is possible to provide a service range of 4,600-23,000 m2 (1,400-7,000 pyeong) in general, and as the area becomes wider, more connection points are needed, and more construction of transmission lines connecting the connection points and connection points is required. There is a cost.

Thus, the W-CDMA network, which is a mobile communication network, is connected to the terminal device wirelessly, so there is no problem in constructing the network.However, since the wireless LAN network is configured by wires to the access point (AP), which is the subscriber and access point, the efficiency of the WLAN configuration is improved. It will have a big impact on the cost of construction. In particular, when a connection point is installed in each room of a specific building or even in an area where a difficult installation of a track such as an underpass is installed, a burden on the construction cost of a transmission line is felt.

Meanwhile, an example of a transmission method of a full duplex structure capable of bidirectional communication as an example of a conventional optical repeater optical path is shown in FIG. 2.

As shown in FIG. 2, the optical repeater is largely composed of a donor 20 portion corresponding to a base station part and a remote portion 22 (REMOTE) portion corresponding to a repeater part, and the donor 20 and the remote 30. The transmission medium for connecting the optical path 40 is constructed. In order to transmit data using the optical path 40 in such an optical repeater, additional devices such as a device for converting an electrical signal into an optical signal are required. The transmission data 21 to be transmitted from the optical repeater donor 20 to the remote 30 passes through the laser diode 22 for all-optical conversion. As a result, for example, in the 1100 to 1500 MHz band, Is converted into an optical signal having a wavelength. The optical coupler 23 is a multiplexing device for supporting full duplex transmission, which is a signal to be transmitted from the donor 20. The optical signal having the wavelength and the optical signal having the {lambda} _ {3} wavelength received from the remote 30 side are simultaneously processed. The signal arrives at the optical coupler 33 of the remote 30 via the optical path. Via optical coupler (33) When the signal is separated from the other signal through the optical filter 34 to completely remove the interference signal of the other wavelength. Thereafter, the photo detector 35 converts an optical signal into an electrical signal, thereby finally acquiring the received data 36. The transmission data 31 on the remote 30 side is also described in the laser diode 32 as described above. The light signal is converted into an optical signal having a wavelength and then transmitted to the donor 20 to generate received data 26 through the optical coupler 24 and the optical filter 24 and the photo detector 25.

The present invention has been invented in view of the above-described circumstances, and in order to build a wireless LAN service network by using an optical fiber beam for a built-in optical repeater, wavelength division multiplexing between an existing optical repeater signal and a wireless LAN signal (WDM: It is an object of the present invention to provide a transmission apparatus of a wireless LAN network which can reduce the cost of establishing a transmission line by enabling transmission through a Wavelength Division Multiplex) technology.

In an embodiment of the present invention, the WDM method is described as an example of a multiplexing technique for transmitting an optical repeater signal and a wireless LAN signal. However, the present invention is not limited thereto, and an optical multiplexing technique such as time division multiplexing (TDM) and frequency division multiplexing (FDM) is used. It is obvious to those skilled in the art that the present invention is also applicable.

1 is a network configuration diagram of a conventional W-LAN,

2 is a configuration diagram of a conventional optical repeater optical path,

3 is a block diagram of the present invention.

* Description of the symbols for the main parts of the drawings *

10-mobile terminal device, 20-optical repeater donor,

30-repeater remote, 40-light beam,

50-first optical signal multiplexer, 51, 64-laser diode,

52,61-Optocouplers, 53,62-Optical Filters,

54,63-photo detector, 60-second optical signal multiplexer,

70-IP backbone, 80-Access Point.

The present invention for realizing the above object is a conventional optical repeater donor and the optical repeater remote is a transmission apparatus of the optical repeater is connected to the optical path by a transmission medium, the IP backbone from the donor side communication port of the optical repeater to the optical path And a first optical signal multiplexing device configured to transmit / receive a wireless LAN signal together with an optical signal of the optical repeater donor on each line and a multiplexing connection to an optical path at a remote communication port of the optical repeater. And a second optical signal multiplexing device which is multiplexed and connected to transmit / receive a wireless LAN signal to each line together with the optical signal of the optical repeater remote, wherein the first optical signal multiplexing device and the second optical signal multiplexing device It is structured to be able to transmit a wireless LAN signal for a normal optical path.

The first and second optical signal multiplexing apparatus may further include a laser diode for converting a wireless LAN signal of an IP backbone or an access point into an optical signal, an optical coupler for full duplex transmission processing of the optical signal to an optical path, and optical signals received from the optical path. An optical filter for removing a noise signal from a signal and a photo detector for removing the noise signal and transmitting the signal to an IP backbone or an access point, respectively.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of the present invention.

Here, the optical path 40 is used as a transmission medium between the conventional optical repeater donor 20 and the optical repeater remote 30, and does not connect a separate optical path to establish a wireless LAN network. ), So that you can efficiently perform wireless LAN service.

To this end, at one end of the optical path 40, that is, the communication port side of the donor 20, the first optical signal multiplexing device 50, in which the IP backbone 70 is multiplexed together with the donor 20, is provided. On the other end of the optical path 40, that is, the communication port side of the remote 20, the second optical signal multiplexing device 60 is provided with a connection point 80 multiplexed with the remote 20.

The first optical signal multiplexer 50 converts the wireless LAN signal received from the IP backbone 70 into an optical signal and multiplexes the optical signal of the donor 20 previously transmitted to the optical path 40. In addition to transmitting to the second optical signal multiplexer 60 through the operation, and separates the optical signal transmitted from the second optical signal multiplexer 60 to transmit to the donor 20 or the IP backbone 70 It works. Similarly, the second optical signal multiplexer 60 multiplexes the signal transmitted from the connection point 80 and the optical signal of the remote 30 to the optical path 40 and transmits the optical signal to the first optical signal multiplexer ( The optical signal transmitted from 50 is separated and transmitted to the remote 30 or the access point 80 so as to be transmitted to the subscriber terminal.

In more detail, the W-LAN data originating from the IP backbone 70 passes through the laser diode 51. Is converted into an optical signal having a frequency. Photoconverted The signal is the data of the optical repeater 20 The signal and optical coupler 52 are optically multiplexed. Optical repeater data Signal and W-LAN Data After the multiplexing of the signal is completed, the optical signal arrives at the optical coupler 61 of the second optical signal multiplexer 60 through the optical path 40. Optical coupler 61 is optical repeater data Signal and W-LAN Data Separating signal, separate W-LAN data The signal is converted into an electrical signal through the optical filter 62 and the photo detector 63, and then wirelessly transmitted to the W-LAN dedicated mobile terminal 10 through the connection point 80. Similarly, the wireless LAN signal transmitted from the W-LAN dedicated mobile terminal device 10 is transmitted from the laser diode 64. Optical signal converted to an optical signal having a frequency and output from the optical repeater remote 30 And multiplexed at the optical coupler 61 and sent to the optical path 40, which is separated by the optical coupler 52 of the donor 50 and then the optical signal. Is transmitted to the donor 20, but the optical signal After the optical filter 53 and the photo detector 54 is converted into an electrical signal is transmitted to the IP backbone 70.

As described above, the present invention provides an optical signal multiplexing device at both ends of an existing optical fiber line together with an existing optical signal even when a transmission network in which the conventional optical path is constructed does not construct a separate transmission line for transmitting a wireless LAN signal. By multiplexing and transmitting the wireless LAN signal, there is an advantage of saving the construction cost of the wireless LAN network.

Claims (2)

In the optical repeater transmission device in which the conventional optical repeater donor and the optical repeater remote is connected to the optical path by the transmission medium, the optical signal of the optical repeater donor is multiplexed with the IP backbone at the donor side communication port of the optical repeater And a first optical signal multiplexing device configured to transmit and receive a wireless LAN signal to each line, and an optical signal of the optical repeater remote being multiplexed with an access point connected to an optical path at a remote communication port of the optical repeater. And a second optical signal multiplexing device configured to transmit and receive a wireless LAN signal to each line, so that the first optical signal multiplexing device and the second optical signal multiplexing device can transmit the wireless LAN signal for a normal optical path. Wireless LAN network transmission device, characterized in that made to be. The apparatus of claim 1, wherein the first and second optical signal multiplexing apparatuses include a laser diode for converting a wireless LAN signal of an IP backbone or an access point into an optical signal, an optical coupler for full duplex transmission processing of the optical signal to an optical path, and the optical path. And an optical filter for removing a noise signal from an optical signal received by a photo detector, and a photo detector for removing the noise signal and transmitting the noise signal to an IP backbone or an access point, respectively.