KR20080025805A - A system and method for servicing a mobile communication - Google Patents

Abstract

A system and a method for providing a mobile communication relay service are provided to provide a mobile communication service to a mobile terminal located in a large-scale event area, and a shadow area through a Yagi antenna and a mobile base station. A connection unit(110) is connected with base stations(100/1,100/2) by an RF link and transmits signals to and from the base stations(100/1,100/2) via the RF link. An interworking unit(120) converts radio signals transmitted from the base stations(100/1,100/2) via the connection unit(110) into microwave frequencies and outputs the same, and receives microwave frequency signals from the exterior, converts them into radio signals of a service frequency band, and outputs the same to corresponding base stations via the connection unit(110). A mobile base station(130) includes a sector antenna(135) for transmitting and receiving radio signals of the service frequency band by interworking with a mobile terminal(140), is connected with the interworking unit(120) by a microwave link, receives the signals of the microwave frequency band outputted from the interworking unit(120), converts them into radio signals of the service frequency band, and transmits them via the sector antenna(135).

Description

Mobile communication relay service system and method {A SYSTEM AND METHOD FOR SERVICING A MOBILE COMMUNICATION}

1 is a block diagram illustrating a mobile communication relay service system according to an exemplary embodiment of the present invention.

2 is a block diagram showing the interior of the interlocking means of FIG.

3 is a block diagram illustrating an interior of a mobile base station of FIG. 1.

<Description of the code | symbol about the principal part of drawing>

100/1, 100/2: A, B base station coverage

110: connection means

120: interlocking means 130: mobile base station

135: sector antenna 140: mobile terminal

The present invention relates to a mobile communication service, and more particularly, to a mobile communication relay service system and method for continuing an event area and a shadow area using a mobile base station.

In general, in the mobile communication system, a mobile relay system is installed to enable a smooth wireless communication service in a shaded area such as a mountainous area or a suburban area to expand the coverage area of a base station.

In particular, the mobile relay system is installed when various events such as emergency disaster area, festival, World Cup, etc. provides a smooth wireless communication service.

In general, such a mobile relay system provides a wireless communication service using optical communication, RF, or microwave method, but the optical communication method has a difficult problem in construction using a wired method, and the microwave method has a visible distance. There is a disadvantage that cannot be secured.

In addition, the mobile relay system using the RF method has a disadvantage of low power due to output limitation because it is impossible to sufficiently secure the isolation between antennas, that is, the donor antenna and the coverage antenna.

Summary of the Invention An object of the present invention is to solve such a problem of the prior art, and the connection means and base stations connected to the at least two base station coverage by the RF link and the interlocking means and the mobile base station connected to the connection means by the microwave link By connecting, it is to provide a mobile communication relay service system and method that can extend the service coverage.

In order to achieve the above object, the present invention is connected to at least two base stations connected to the RF link, the connection means for transmitting and receiving signals with the base station via the RF link, and the base station through the connection means Interlocking means for converting and outputting radio signals transmitted from the microwaves to microwave frequencies, receiving microwave frequency signals from the outside, converting the radio signals into radio signals from the outside, and outputting the radio signals to the base station through the connection means; And a sector antenna for transmitting and receiving wireless signals in a service frequency band in cooperation with a terminal, and connected to the interworking means and a microwave link, and receiving signals from the microwave frequency band output from the interlocking means, respectively, as radio signals in the service frequency band. After conversion It includes a mobile station for transmitting via the antenna sector group.

In another aspect, the present invention, a method for providing a mobile communication relay service using a mobile base station by transmitting and receiving a signal with at least two or more base stations, using a connection means corresponding to the at least two base stations and connected to the RF link Receiving the radio signals from the base stations, converting the radio signals received from the base stations into signals of a microwave band, and providing the converted signals to the mobile base station; And converting the signal of the service frequency band into each base station and providing the mobile terminal through a sector antenna.

In addition, the present invention is a method for providing a mobile communication relay service using a mobile base station for transmitting and receiving a signal with at least two or more base stations, using a sector antenna provided in the mobile base station from the at least one mobile terminal Receiving, converting the received radio signal into a frequency of microwave bands, and receiving the converted signal by using an interworking means connected to the mobile base station by a microwave link and converting the converted signal into a signal of a service frequency band And transmitting a signal of the converted service frequency band through a connection means connected to the base stations by an RF link.

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

1 is a block diagram illustrating a mobile communication relay service system according to a preferred embodiment of the present invention.

Referring to FIG. 1, the mobile communication relay service system includes edge areas of base station A coverage 100/1, base station B coverage 100/2, and base station A and B coverage 100/1 and 100/2. A connection means 110 installed at the base station and connected to the base station by an RF link, an interlocking means 120 as a donor module connected to the connecting means 110, and a sector antenna 135 for communicating with a plurality of mobile terminals 140. And a mobile base station 130 connected to the interlocking means 120 and the microwave link.

The connecting means 110 is installed at the visible distance of the mobile base station 130 and is installed in the edge region of the A and B base station coverage (100 / 1.100 / 2), thereby providing the A and B base station coverage (100 / 1.100 / 2). Is connected to the base stations in the RF link.

The connecting means 110 receives the radio signals of the service frequency band transmitted from the base stations via the RF link and provides them to the interlocking means 120, and the radio signals of the service frequency band from the donor module 120 from the interlocking means 120. Receive and transmit to the base station.

An example of the connection means 110 applied to the present invention may be a yaw antenna having a high directivity, and the yaw antenna may be installed to have a directivity with respect to a base station of a specific region, and may perform communication with a base station of a specific region. By being installed to have a directivity for the base stations installed in a plurality of areas, it is possible to perform communication with the base stations installed in a plurality of areas. That is, by installing one Yagi antenna to have directivity in the A and B base station coverages 100/1 and 100/2, the base stations in the A and B base station coverages 100/1 and 100/2 and the radio frequency band Signals may be received and provided to the interworking means 120, received from the interlocking means 120 as a radio signal in a service frequency band, and transmitted to the corresponding base stations.

The interlocking means 120 is connected to the mobile base station 130 by a microwave link and up-converts radio signals of the service frequency band provided from the connecting means 110 to an intermediate frequency, for example, microwave versus frequency, to the mobile base station 130. The mobile station 130 receives the up-converted signal at the microwave versus frequency from the mobile base station 130 and down-converts the service frequency to the base station through the connection means 110.

This interlocking means 120, as shown in Figure 2, through the connecting means 110, the duplexer 200 for performing bidirectional communication with the base stations in the A, B base station coverage (100/1, 100/2) ), Up-converter 202 for up-converting the radio signal of the service frequency band input through the duplexer 200 to the microwave frequency, and transmitting the up-converted signal by the up-converter 202 to the mobile base station 130. Transceiving unit 204 for receiving the up-converted signal from the mobile base station 130, that is, the up-converted signal according to the microwave frequency, and down-converting the up-converted signal received at the transmitting / receiving unit 204 to the signal of the service frequency band Down converter 206.

Here, the signal of the service frequency band output from the down converter 206 will be transmitted to the base station through the duplexer 200 and the connection means 110.

The mobile base station 130 is connected to the interlocking means 120 by a microwave link, and receives the up-converted signal at the microwave frequency through the microwave link and down-converts the signal to a service frequency, for example, an 800 MHz signal. The down-converted signal is transmitted to the corresponding mobile terminal 140 through the antenna 135, and the radio frequency signal output from the mobile terminal 140 is received through the sector antenna 135, and then the microwave frequency signal is received. It transfers to the interlocking means 120 by up-converting.

The mobile base station 130 is installed in a region requiring large capacity processing, that is, an area where an event such as the World Cup occurs, a shaded area due to the terrain among the service areas of the base stations, to provide services between the base stations and the mobile terminal 140. will be.

Meanwhile, as illustrated in FIG. 3, the mobile base station 130 includes a transceiver 300 for transmitting and receiving a signal of a microwave frequency band and up-converted signals received through the transceiver 300 as a service frequency. Down converter 302 for down-converting, signal splitting unit 304 for dividing down-converted signals for each base station, and respective signals separated in signal splitting unit 304 through the sector antenna 135 for the corresponding mobile terminal 140. A duplexer 306 for transmitting a radio frequency signal from the mobile terminal 140 and an up converter 308 for up-converting the service frequency signal received through the duplexer 306.

The signal up-converted by the up converter 308 is provided to the interlocking means 120 through the transceiver 300, and is down-converted to a service frequency signal by the down converter 206 of the interlocking means 120, thereby connecting. It will be transmitted to the base station via 110.

A process of operating the mobile relay system having the above configuration will be described below.

First, an example of transmitting (forwarding) a radio signal transmitted from base stations in base stations A and B coverage 100/1 and 100/2 to arbitrary mobile terminals is as follows.

That is, when the base stations in the base station coverages 100/1 and 100/2 transmit service frequency signals for transmission to arbitrary mobile terminals), the connection means 110 receives the service frequency signals from each base station. Receives and transmits to the interlocking means (120).

Each service frequency signal is received by the duplexer 200 in the interlocking means 120, upconverted to the microwave frequency by the up-converter 202, and then transmitted to the mobile base station 130 through the transceiver 204. Is sent.

Each signal upconverted to the microwave frequency is received by the transceiver 300 of the mobile base station 130 and downconverted into a service frequency signal by the down converter 302, respectively.

Subsequently, the mobile base station 130 separates down-converted signals for each base station by using the signal separation unit 304 and transmits them to the mobile terminals through the sector antenna 135 in different directions through the duplexer 306. .

Next, a description will be given of a process of the mobile terminal 140 transmits (reverses) a signal to a base station within the base station coverage 100/1.

First, when the mobile terminal 140 transmits a service frequency signal to the A base station coverage 100/1, the duplexer 306 of the mobile base station 130 is transmitted from the mobile terminal 140 through the sector antenna 135 Receive service frequency signals.

The up converter 308 receives the service frequency signal from the duplexer 304 and then up-converts it to the microwave frequency and provides it to the transceiver 300.

The transceiver 300 transmits the up-converted signal from the up converter 308 to the interlocking means 120 by using the microwave link.

Through this process, the signal up-converted to the microwave frequency is received by the transceiver 204 of the interlocking means 120 and then down-converted to the service frequency signal by the down converter 206, and the down-converted signal is The duplexer 200 and the connecting means 110 will be transmitted to the base station in the base station coverage (100/1).

In an exemplary embodiment of the present invention, one connection means 110 may be used to cover two base station coverage areas, but in another embodiment, two or more connection means having directivity in two directions or more may be used. The base station may receive a radio signal from each base station within the coverage area or transmit a radio signal to the base stations.

According to the present invention, the connecting means 110 and base stations connected to the at least two base station coverage by the RF link and the interlocking means 120 and the mobile base station 130 connected to the connecting means 110 to the microwave link. By connecting, not only can the service coverage be expanded by using one connection means 110, but also the mobility can be improved.

In addition, according to the present invention, by using the antenna to cause the connecting means 110, it is possible to maximize the capacity while overcoming the difficulty of construction, visibility, isolation of the conventional problem.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the present invention can extend the service coverage by connecting the connection means and base stations having directivity to the at least two base station coverage by the RF link, and the interworking means connected to the connection means and the mobile base station by the microwave link. In addition to improving mobility.

In addition, the present invention provides a mobile communication service to a mobile terminal located in a large event area, shadow area, etc. using a Yagi antenna and a mobile base station as one connection means, thereby improving the difficulty, visibility, and isolation of the conventional problem. Not only can it be overcome, but capacity can be maximized, and the cost savings can be expected because there is little cost of deployment and deployment.

Claims (6)

A connection means corresponding to at least two base stations and connected to an RF link, for transmitting and receiving a signal to and from the base stations through the RF link; The radio signals transmitted from the base stations through the connection means are converted into microwave frequencies and output, and the microwave frequency signals are received from the outside and converted into radio signals in the service frequency band, respectively, to the corresponding base station through the connection means. Interlocking means for outputting, And a sector antenna for transmitting and receiving a radio signal of a service frequency band in cooperation with a mobile terminal, and connected to the microwave link with the interlocking means, and receiving signals from the microwave frequency band output from the interlocking means. A mobile base station converts each of them and transmits them through the sector antenna Mobile communication relay service system comprising a. The method of claim 1, And the connection means is a yagi antenna having directivity. The method of claim 1, The interlocking means, A duplexer configured to bidirectionally communicate with the base stations through the connection means; An up converter for upconverting wireless signals input from the duplexer at microwave frequencies, respectively; A transceiver for transmitting and receiving a signal from the mobile base station and a microwave frequency band; A down converter converting the signal of the microwave frequency path received through the transceiver into a wireless signal of a service frequency band Mobile communication relay service system comprising a. The method of claim 1, The mobile base station, A transmission and reception unit connected to the interlocking means and the microwave link to transmit and receive signals from the interlocking means and the microwave frequency band; A down converter for down-converting the signals converted to the microwave frequency input through the transceiver unit into signals of a service frequency band, respectively; A signal separator for separating the radio signals output from the down converter for each base station; A duplexer which transmits a radio signal separated by the base station by the signal separation unit to an external mobile terminal using a sector antenna in a different direction, and receives a radio signal transmitted from an external mobile terminal; An up-converter for up-converting the radio signal received through the duplexer into a microwave band frequency signal Mobile communication relay service system comprising a. A method of providing a mobile communication service using a mobile base station by transmitting and receiving a signal with at least two base stations, Receiving wireless signals from the base stations using connection means corresponding to the at least two base stations and connected by an RF link; Converting the wireless signals received from the base stations into signals of a microwave band and providing the same to the mobile base station; Converting the converted signals into signals of a service frequency band by the mobile base station, respectively; Separating signals of the service frequency band for each base station and providing the signals to a mobile terminal through a sector antenna; Mobile communication relay service method comprising a. A method of providing a mobile communication service using a mobile base station for transmitting and receiving signals with at least two base stations, Receiving a wireless signal from at least one mobile terminal using a sector antenna provided in the mobile base station; Converting the received wireless signal into a frequency in the microwave band; Receiving the converted signal by using an interlocking means connected to the mobile base station through a microwave link and converting the converted signal into a signal of a service frequency band; Transmitting a signal of the converted service frequency band through a connection means connected to the base stations by an RF link Mobile communication relay service method comprising a.

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