KR101537048B1 - Repeating method and system by using UTP line - Google Patents

Abstract

      BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a signal processing method of a communication system and an apparatus using the signal processing method. More particularly, the present invention relates to a signal processing method for a high- To a digital signal, and then the digital signal processing unit maps the Ethernet line to the Ethernet line in a time division manner and transmits the digital signal. Thus, the Internet signal and the mobile communication signal can be simultaneously transmitted using the conventional UTP line without adding a separate line To a relay method and apparatus using a UTP line.

      In recent years, large-scale large-scale buildings or high-rise buildings have been increasing, and shaded areas of mobile communication services have occurred in such large buildings. The type of shaded area in such a large building is divided into two cases: a case where a part of a building having a large area such as an underground space is not serviced, and a case where a part of an upper part of a high- In order to solve this problem, a repeater or a line must be installed in a large-sized building having a large or high area.

      SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the conventional art, and it is an object of the present invention to convert a high frequency signal received from a base station or a communication system into a digital signal by a wired or wireless connection, A relay method using a UTP line that can simultaneously transmit an Internet signal and a mobile communication signal by connecting a plurality of remote units by a UTP line that is a low-cost communication line without adding a separate line by mapping and transmitting Thereby providing a relay apparatus.

Ethernet, mobile communication, UTP, in-building, relay

Description

[0001] The present invention relates to a repeating method and apparatus using UTP line,

      BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a signal processing method of a communication system and an apparatus using the signal processing method. More particularly, the present invention relates to a signal processing method for a high- To a digital signal, and then the digital signal processing unit maps the Ethernet line to the Ethernet line in a time division manner and transmits the digital signal. Thus, the Internet signal and the mobile communication signal can be simultaneously transmitted using the conventional UTP line without adding a separate line To a relay method and apparatus using a UTP line.

      In recent years, large-scale large-scale buildings or high-rise buildings have been increasing, and shaded areas of mobile communication services have occurred in such large buildings. The type of shaded area in such a large building is divided into two cases: a case where a part of a building having a large area such as an underground space is not serviced, and a case where a part of an upper part of a high- In order to solve such a problem, if a large area having a large area or a high height is present in a shaded area, a separate repeater or a line must be installed.

      1A shows a signal transmission / reception state of a relay apparatus in a base station environment provided with a relay apparatus, in which a shaded region occurs in an existing service area (indicated by a dotted line) of the base station 1 (BTS1) Is retransmitted. 2. Description of the Related Art [0002] In general, a cell-based mobile communication system is operated in a manner that a plurality of base stations covering a predetermined area are installed adjacent to each other to reuse allocated channel frequencies. 1, a base station 2 (BTS2) and a base station 3 (BTS3) having respective service areas are adjacent to the base station 1, and although not shown, a plurality of such base stations are arranged to establish a communication network .

      1, when the signal of the base station 1 is retransmitted to the shadow area using the relay apparatus 100, the signal fB1 of the base station 1 to be retransmitted is basically received in the reception antenna 101 of the relay apparatus, In the actual propagation environment, the signals fB2, fB3, ... of other base stations are transmitted to the transmission antenna 102 together with the signals fB2, fB3, ... of the base stations 102, The received signal fBIR is fed back.

      As described above, in the relay apparatus according to the related art, a plurality of unnecessary signals, which are not intended to be transmitted from other base stations or terminals, are mixed or signals transmitted to the transmission antennas are fed back in addition to the signals of the base stations to retransmit through the reception antennas. There is a problem that the communication quality becomes very poor due to the interference signal. That is, as shown in FIG. 1, in addition to the signal to be retransmitted (indicated by a solid line), a plurality of unnecessary signals (indicated by a dotted line) are mixed.

      FIG. 1B is a diagram showing a shaded area occurring in a high-rise part of a high-rise building. As shown, the existing service areas of the base station 1 (BTS1) or the base station 2 (BTS2) are formed as indicated by a red dotted line, but when high-rise buildings are built in the service area, Area.

      FIG. 2 is a diagram illustrating an on-premise wireless relay system equipped with a relay apparatus according to the related art. 2, only one relay device is used independently in a shade area to be served, or a plurality of small shade areas exist such as the large building 200 adjacent to the shade area A plurality of auxiliary relays 203, 203-1, 203-2 and 203-3 are added to one main relay apparatus 201 and used.

      However, the above-described method increases costs because the main relay apparatus and the auxiliary relay apparatus are connected using the coaxial line 207 and the signal distributing means 206. In addition, since the signal transmitted from the main relay apparatus to the auxiliary relay apparatus is a high-frequency signal or an analog signal converted into an intermediate frequency, not only the transmission loss increases but also the number of auxiliary relay apparatuses that can be added is limited. There is a problem that the quality of a call is deteriorated because unnecessary signals such as those are not removed. Furthermore, there is another problem that when the large building is a high-rise building with a large floor area, it is impossible for the auxiliary relay to serve the entire floor.

      SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the conventional art, and it is an object of the present invention to convert a high frequency signal received from a base station or a communication system into a digital signal by a wired or wireless connection, A relay method using a UTP line that can simultaneously transmit an Internet signal and a mobile communication signal by connecting a plurality of remote units by a UTP line that is a low-cost communication line without adding a separate line by mapping and transmitting And to provide a relay apparatus.

      To this end, the present invention converts a high frequency signal received from a base station or a communication system by a wired or wireless connection into a digital signal in order to service a mobile communication shadow area occurring in a large building, A main unit 301 for transmitting a synthesized signal mapped in a time division manner and having an output terminal connected to a hub or a remote unit and a main unit 301 connected to the main unit for transmitting the synthesized signal, (303, 303 - 1, 303 - 2, and 303 - 3) connected to the main unit or the hub and separates the Ethernet signal and the digital signal from the synthesized signal and outputs the digital signal as a high frequency signal At least one remote unit (304, 304-1, 304-2) for converting and outputting; And a transmission line 306 connecting the main unit and the hub, the main unit and the remote unit, and the hub and the remote units.

      As described above, according to the present invention, a high-frequency signal received from a base station or a communication system by wired or wireless connection is converted into a digital signal, and then the digital signal is mapped to an Ethernet line in a time division manner, It is possible not only to transmit an internet signal and a mobile communication signal at the same time by connecting a plurality of remote units by a UTP line which is a low-cost communication line without enlarging the capacity, but also to facilitate network operation of a business considering the propagation environment in a shaded area, There is an effect that can be widely applied to the system.

      As described above, according to the present invention, a high-frequency signal received from a base station or a communication system by wired or wireless connection is converted into a digital signal in order to service a mobile communication shadow area generated in a large building, A main unit (301) for transmitting a composite signal mapped in a time division manner to a data frame and having an output end connected to a hub or a remote unit, and a main unit connected to the main unit for transmitting the composite signal, At least one hub (303, 303-1, 303-2, 303-3) to which the unit is connected, and a main unit or hub, which is connected to the main unit or the hub and separates the Ethernet signal and the digital signal from the composite signal, At least one remote unit (304, 304-1, 304-2) for converting the signal into a signal and outputting the signal; And a transmission line 306 connecting the main unit and the hub, the main unit and the remote unit, and the hub and the remote units.

      The above-mentioned objects, features and advantages will become more apparent from the following detailed description in conjunction with the accompanying drawings. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

      3 is a view showing a repeater using a UTP line according to the present invention. As shown in the figure, a relay apparatus according to the present invention converts a high frequency signal received from a base station or a communication system into a digital signal by a link antenna 302 or a wired connection, and then, by a digital signal processor, And a remote unit connected to the output unit, and at least one hub (303, 303-n) connected to the main unit and having a remote unit connected to the output unit, At least one remote unit 304 connected to the main unit or hub for separating an Ethernet signal and a digital signal from the synthesized signal and converting the digital signal into a high frequency signal, 304-1, and 304-2, and the main unit, the hub, the main unit, the remote unit, the hub, The remote units are configured to be connected by a UTP cable, which is a low-cost transmission line 306.

      4 is a connection diagram of a relay apparatus using a UTP line according to the present invention. As described above, up to eight hubs or remote units are connected to the main unit 301 by the transmission line 306 4), and a maximum of eight remote units are connected to the hubs 303, 303-1, and 303-2 (see symbol B in FIG. 4). The hubs 303, 303-1 and 303-2 are provided with connectors for relaying two bands (see symbol C in FIG. 4), and the remote units 304 and 304- The remote units 304, 304-1, and 304-2 are provided with connectors for relaying the two bands, and the remote units 304, 304-1, and 304-2 are powered from the main unit or the hub, A power supply connector is further provided (see symbol D in Fig. 4). In particular, the present invention uses an unshielded twisted pair (UTP) cable connected to an RJ45 type connector as a transmission line.

      FIG. 5 is a block diagram illustrating a relaying method using a UTP line according to the present invention, and uses an EoT (Ethernet over TDM) method to combine a high-frequency signal and an Internet signal. The EoT allocates an Ethernet signal (100BASE-TX) to a certain band of a TDM signal (1 Gbit / s) having a constant frame format and transmits the same.

      In FIG. 5, the repeater signal (850 Mbps) passes through the repeater-TDM Mapper / Demapper, and the Ethernet signal (100 Mbps) passes through the EoT Mapper / Demapper to a predetermined band of the TDM signal. Respectively. The TDM Framer / Deframer then sends these mapped repeater signals and Ethernet signals through the Gigabit Ethernet transceiver over the UTP line.

      On the other hand, on the receiving side, the repeater signal and the Ethernet signal are separated from each other and received by the opposite operation. In other words, at the time of transmission, the repeater-TDM Mapper maps the repeater signal and the EoT Mapper maps the Ethernet signal to the predetermined band of the predetermined TDM signal and transmits the signal by the Ethernet transceiver. On the contrary, when receiving the mapping signal received from the Ethernet transceiver, The repeater-TDM Demapper extracts the repeater signal, and the EoT Demapper extracts the Ethernet signal from the TDM signal, respectively.

      According to the repeating method using the UTP line according to the present invention, in the EoT block diagram of FIG. 5, the total system speed is 1 Gbps, the repeater data transmission capacity and the Ethernet data transmission capacity are 850 Mbps and 100 Mbps, The overhead transmission capacity for data identification is 50 Mbps.

      FIG. 6 is a diagram showing an Ethernet data frame structure of a relay method using a UTP line according to the present invention. FIG. 6 (a) shows a frame structure. As shown in the figure, the TDM frame structure may be a scheme (a 1 Gbit / s transmission frame) in which an arbitrary signal is formed in accordance with the GFP type, and mapping of the Ethernet signal is performed by allocating the packet signal to the designated timeslot As a process of multiplexing, a method of mapping the Ethernet signal to the TDM Timeslot using the GFP method can be used.

      In the present invention, the GFP scheme is used for mapping an Ethernet signal as shown in FIG. 6 (b). GFP (Generic Framing Procedure) is a protocol for mapping packet data used in Ethernet over SDH / PDH. Unlike HDLC-based protocol, GFP does not use any specific characteristics for frame delineation. Mapping method.

      7 is a view showing a data frame of a composite signal of a relaying method using a UTP line according to the present invention. As shown in the figure, the repeater data is 850 Mbps and the Ethernet data is 100 Mbps. The structure of the data frame of the composite signal according to the present invention is as follows. The overhead rate is 25 / (475 + 25) = 25B, and the payload is 19B × 25 = 475B. Therefore, the overhead rate is 25 / (475 + 25) 0.05 or 50 Mbps. Also, in the entire frame, Ethernet data is used between repeater data.

      8 is a diagram showing a functional configuration of a relay apparatus using a UTP line according to the present invention. As shown, the EoT data path is divided into 100 Mbit / s capacity and the repeater data path is divided into 850 Mbit / s capacity. Further, 50 Mbit / s capacity is allocated to the repeater data path as an overhead for identification, Lt; / RTI > Also, in the embodiment of the present invention, the speed of the repeater data is set to 850 Mbps, but the present invention is not limited thereto, and the repeater data capacity is variable according to the change of the overhead data capacity.

      It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Will be apparent to those of ordinary skill in the art.

1A is a diagram showing a signal transmission / reception state of a relay apparatus in a base station environment provided with a relay apparatus;

1B is a view showing a shaded area occurring in a high-rise part of a high-rise building;

2 is a diagram illustrating a wireless relay system in a premise equipped with a relay apparatus according to the related art.

3 is a view showing a relay apparatus using a UTP line according to the present invention;

4 is a connection diagram of a relay apparatus using a UTP line according to the present invention;

5 is a block diagram showing a relaying method using a UTP line according to the present invention.

6 illustrates an Ethernet data frame structure of a relay method using a UTP line according to the present invention.

7 is a diagram showing a data frame of a composite signal of a relay method using a UTP line according to the present invention;

8 is a view showing a functional configuration of a relay apparatus using a UTP line according to the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

100. Relay device 101. Receive antenna

102. Transmission antenna 200, 300. Large building

201. Main repeater 202. First antenna

203, 203-1, 203-2, 203-3. The first to n < th >

204. Second antenna 205. Terminal

206. Signal distribution means 207. Coaxial line

301. Main unit 302. Link antenna

303, 303-1, 303-2, 303-3. The first to n < th >

304, 304-1, 304-2. The first to n-th remote units

304. Terminal 306. Transmission line

Claims (3)

delete A relay apparatus for processing and retransmitting a signal received by a wired or wireless connection, Converts a high frequency signal received from a base station or a communication system into a digital signal by a wired or wireless connection and then transmits a composite signal mapped in a time division manner to a data frame of the Ethernet by a digital signal processing unit, One main unit connected to the main unit  At least one hub connected to the main unit to transmit the synthesized signal and to which a remote unit is connected, At least one remote unit connected to the main unit or the hub for separating the Ethernet signal and the digital signal from the composite signal and converting the digital signal into a high frequency signal and outputting the converted high frequency signal; And And a transmission line connecting the main unit and the hub, the main unit and the remote unit, and the hub and the remote unit. 3. The method of claim 2, Wherein the transmission line connecting the main unit and the hub, the main unit and the remote unit, and the hub and the remote unit are UTP cables.

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