KR101456644B1 - Digital Repeat System, Repeater and Control Method thereof - Google Patents

Abstract

The present invention relates to a digital relay system, a repeater, and a control method thereof, the digital relay system comprising: a base station for receiving a digital signal transmitted from a terminal and transmitting the digital signal to a repeater in charge of the called terminal; And a repeater for generating a predetermined stack frame capable of multi-band expansion based on the digital signal received from the base station and transmitting the generated stack frame to the called terminal.

Accordingly, it is possible to provide a stack frame signal capable of easily providing a multi-band service according to a selection of a user (or a service provider), and to use a service such as data transmission more quickly and conveniently.

Basic frame, stack frame, stacking, functional element

Description

Digital Repeating System, Repeater and Control Method Therefor,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital relay system, a repeater, and a control method thereof. More particularly, the present invention relates to a digital relay system for easily expanding a multi-band digital signal by generating a stack frame by stacking basic frames, And a control method thereof.

In digital relay transmission, it is important to consider how efficiently the desired signal can be relayed. Particularly, it is required to expand the frame structure in the multi-band service. In the conventional frame structure considering only one-band service, when a multi-band service is implemented, a separate frame must be generated in addition to the existing frame Lt; / RTI > However, such a conventional frame structure has many disadvantages, such as a low transmission speed in transmission and an excessive consumption of communication traffic.

Accordingly, it is an object of the present invention to provide a digital relay system, a repeater, and a control method thereof that are easy to expand multi-band by generating basic frames for each service band of a signal, stacking basic frames and generating various stack frames according to band selection .

In order to achieve the above object, the present invention provides a digital repeater system comprising: a base station for receiving a digital signal transmitted from a terminal and transmitting the received digital signal to a repeater in charge of the called terminal; And a repeater for generating a predetermined stack frame capable of multi-band expansion based on the digital signal received from the base station and transmitting the generated stack frame to the called terminal.

The stack frame may be generated by stacking basic frames according to signal types included in the digital signal so as to correspond to the functional elements.

In addition, when the stack frame is transmitted, the repeater transmits at a rate proportional to the number of the basic frames stacked to generate the stack frame.

In order to achieve the above object, the present invention provides a repeater of a digital relay system, comprising: a signal receiver for receiving a digital signal transmitted from a base station from a base station; A frame generator for generating a predetermined stack frame capable of multi-band expansion based on the received digital signal; And a frame transmitting unit for transmitting the generated stack frame to a called terminal.

The frame generation unit may generate the basic frame according to a signal type included in the digital signal and generate the stack frame by stacking the generated basic frame so as to correspond to each functional element .

Here, the signal type may be a signal using a band corresponding to any one of CDMA, WCDMA, and WiBRO.

Meanwhile, the basic frames of the signals for the CDMA and the WCDMA may be generated as one, and the basic frames of the signals for the WiBRO may be generated as two.

The basic frame may be composed of functional elements including a synchronization part (Sync), a TS signal, a C & M channel, a BIP-8, an RDI, and a CID.

In addition, the synchronization part may be generated by referring to a delay between the base station and the repeater, which is measured using one of the TS signal and the C & M channel.

The delay measurement using the TS signal may be calculated by measuring a time at which the base station transmits the TS signal to the repeater and a time at which the repeater repeats transmission of the TS signal to the base station .

Meanwhile, in the delay measurement using the C & M channel, the base station transmits time information to the repeater using the C & M channel, the repeater updates the time information and retransmits the time information to the base station, And is calculated by comparing updated time information.

In addition, the frame transmission unit may transmit the stack frame at a rate proportional to the number of basic frames stacked to generate the stack frame.

In order to achieve the above object, the present invention provides a control method of a repeater, comprising: receiving a digital signal of a terminal from a base station; Generating a basic frame according to a signal type included in the digital signal based on the received digital signal; Determining whether the generated basic frame is a plurality of frames; Generating a stack frame by stacking a plurality of basic frames corresponding to each functional element when the generated basic frames are a plurality of basic frames; And transmitting the generated base frame or the stack frame to the called terminal.

The generating of the basic frame may include measuring a delay between the base station and the repeater; And scrambling the functional elements including the delay-based synchronization part, the TS signal, the C & M channel, the BIP-8, the RDI, and the CID.

In addition, the delay measuring step may include measuring a time at which the base station transmits the TS signal to the repeater; Measuring a time at which the TS signal is retransmitted from the repeater to the base station; And calculating half (1/2) of the difference between the times.

Meanwhile, the delay measuring step may include: transmitting, by the base station, time information to the repeater using the C & M channel; Updating the time information and retransmitting the time information to the base station; And calculating a difference between the time information and the time corresponding to the updated time information.

According to the present invention, it is possible to generate a stack frame in which multi-band expansion is easy by stacking basic frames for each service band of a signal.

Accordingly, it is possible to provide a stack frame signal capable of easily providing a multi-band service according to a selection of a user (or a service provider), and to use a service such as data transmission more quickly and conveniently.

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

FIG. 1 is a block diagram of a digital relay system according to an embodiment of the present invention. FIG. 2 is an explanatory diagram of a basic frame of a digital signal generated by a repeater in a digital relay system according to an embodiment of the present invention, FIG. 3 is a first explanatory diagram / second illustrative diagram of a stack frame of a digital signal generated by a repeater in a digital repeater system according to an embodiment of the present invention. FIG.

Referring to FIG. 1, a digital relay system according to an embodiment of the present invention includes a base station 100 and a repeater 300.

The base station 100 receives the digital signal transmitted from the terminal and transmits the digital signal to a repeater in charge of the called terminal.

The repeater 300 generates a predetermined stack frame based on the digital signal received from the base station 100 and transmits the generated stack frame to the called terminal. The repeater 300 includes a signal receiving unit 310, a frame generating unit 330, And a transmission unit 350.

The signal receiving unit 310 can receive (transmit) the digital signal transmitted from the terminal 100 from the base station 100.

The frame generation unit 330 can generate a predetermined stack frame capable of multi-band expansion based on the digital signal received by the signal reception unit 310.

The frame generation unit 330 generates the basic frame in accordance with the signal type included in the digital signal and stacks the generated basic frame in correspondence with each functional element, Can be generated.

Here, the signal type refers to a signal using a band corresponding to one of services of CDMA, WCDMA, and WiBro.

2, the basic frame is composed of functional elements including a synchronization part Sync, a TS signal, a C & M channel, BIP-8, RDI, and CID.

The synchronization part Sync synchronizes the signals in consideration of the delay between the base station 100 and the repeater 300 and the TS TDD Sync signal generates the synchronization part using the WiBro TDD synchronization signal. Lt; / RTI > The delay between the base station 100 and the repeater 300 will be described later in detail.

The C & M (Control & Management) channel can exchange various control information, status information, alarm information, and the like through a communication channel between the base station 100 and the relay 300, Or the time information of the repeater 300.

The Bit Interleaved Parity (BIP-8) can detect Bit-Error, and the RDI (Remote Defect Indicator) can detect a large-band alarm.

A CID (Channel ID) can perform a service classification (CDMA, WCDMA, WiBro), and 'X' denotes a reserved area.

On the other hand, the scrambling can be coded using the equation of "X ^ 7 + X ^ 6 + 1" by the line coding method.

Generating a predetermined stack frame with the above-described basic frame will be described in detail. As shown in FIG. 3, basic frames (CDMA, basic frame for WCDMA in FIG. 3) (By the frame generation unit 330) in a stacking manner (stacking) so that the corresponding functional elements are mapped to each other (as shown, the same functional elements are facing each other).

In the case of a signal for CDMA / WCDMA, a stack frame is constituted by one basic frame, and in the case of a signal for WiBro, a basic frame constituting a stack frame is shown in FIG. 4 A stack frame can be generated with two basic frames as shown in FIG. For example, in order to provide a CDMA / WCDMA integrated service, a stack frame of a two-stack frame structure (shown in FIG. 3) must be generated. In order to provide a CDMA / WCDMA / WiBro integrated service, ) Or a stack frame with two paths of two stack frame structures.

The synchronization part Sync of the first part of the basic frame can be generated by referring to the delay between the base station 100 and the repeater 300. Hereinafter, the delay measurement will be described in more detail .

The method of measuring the delay between the base station 100 and the repeater 300 can be measured using the TS signal of the basic frame or the C & M channel.

The delay measurement using the TS signal can be calculated by measuring the time at which the TS signal is transmitted from the base station 100 to the repeater 300 and the time at which the TS signal is retransmitted from the repeater to the base station. The value becomes the delay (TDD Syncfmf is the delay measurement method).

In the delay measurement using the C & M channel, the base station 100 transmits the time information to the repeater 300 using the C & M channel, the repeater 300 updates the time information and retransmits the time information to the base station 100, And the updated time information (delay measurement method using Round Trip Time).

Thereafter, the synchronization portion can be generated by referring to the delay measured by the method using the TS signal or the method using the C & M channel.

The frame transmission unit 350 can transmit the stack frame generated by the frame generation unit 330 to the called terminal (also in the case of the basic frame). Here, the transmission rate of the stack frame is proportional to the number of stacked basic frames (for example, two stack frames are transmitted at 1.5 Gbps * 2) as shown in FIGS. 3 and 4,

5 is a flowchart illustrating a control method of a repeater according to an embodiment of the present invention.

Hereinafter, with reference to FIG. 5, a description will be made of an operation procedure of a control method of a repeater according to an embodiment of the present invention.

And receives the digital signal of the terminal from the base station 100 (S110)

Based on the received digital signal, a basic frame is generated according to the signal type included in the digital signal (S120).

Here, the step S120 may include measuring a delay between the base station 100 and the repeater 300 (S120a); (S120b) of scrambling the functional elements including the synchronized portion (Sync) based on the measured delay, the TS signal, the C & M channel, the BIP-8, the RDI and the CID Step S120b is not shown). On the other hand, it has been described above that scrambling can be coded using the equation of "X ^ 7 + X ^ 6 + 1" in the line coding method.

Here, the step S120a may include measuring a time at which the TS signal is transmitted from the base station 100 to the repeater 300; Measuring a time at which the TS signal is retransmitted from the repeater (300) to the base station (100); And calculating half (1/2) of the difference between the times. In another method, the base station 100 transmits time information to the repeater 300 using the C & M channel. The repeater 300 updates the time information and retransmits the time information to the base station 100; And calculating a difference between the time information and the time corresponding to the updated time information.

It is determined whether the number of basic frames generated in step S120 is plural (S130).

When a plurality of basic frames are generated, a stack frame is generated by stacking a plurality of basic frames so as to correspond to each functional element (S140).

The generated basic frame (when only one basic frame is generated) or the stack frame is transmitted to the called terminal (S150). Here, the stack frame transmission rate is proportional to the number of stacked basic frames.

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 present invention as defined by the following claims It can be understood that

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital relay system, a repeater, and a control method thereof. More particularly, the present invention relates to a digital relay system for easily expanding a multi-band digital signal by generating a stack frame by stacking basic frames, And a control method thereof.

According to the present invention, it is possible to generate a stack frame in which multi-band expansion is easy by stacking basic frames for each service band of a signal, thereby generating a stack frame capable of easily performing multi-band service according to the selection of a user (or a service provider) It is possible to use services such as data transmission more quickly and conveniently by providing signals.

1 is a block diagram of a digital relay system according to an embodiment of the present invention.

2 is an explanatory diagram of a basic frame of a digital signal generated by a repeater in a digital repeater according to an exemplary embodiment of the present invention.

3 is a first explanatory diagram of a stack frame of a digital signal generated by a repeater in the digital relay system according to an embodiment of the present invention.

4 is a second explanatory diagram of a stack frame of a digital signal generated by a repeater in the digital relay system according to an embodiment of the present invention.

5 is a flowchart illustrating a control method of a repeater according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

100: base station 300: repeater

310: signal receiving unit 330: frame generating unit

350:

Claims (16)

delete delete delete In a repeater of a digital repeater system, A signal receiving unit for receiving, from a base station, a digital signal transmitted from a terminal; A frame generator for generating a predetermined stack frame capable of multi-band expansion based on the received digital signal; And And a frame transmitting unit for transmitting the generated stack frame to the called terminal. 5. The method of claim 4, Wherein the frame generation unit generates the basic frame according to a signal type included in the digital signal and generates the stack frame by stacking the generated basic frame so as to correspond to each functional element. 6. The method of claim 5, Wherein the signal type is a signal using a band corresponding to any one of CDMA, WCDMA, and WiBRO. The method according to claim 6, Wherein the base frames of the signals for the CDMA and the WCDMA are generated in one and the base frames of the signals for the WiBRO are generated in two. 8. The method according to any one of claims 5 to 7, Wherein the basic frame is composed of functional elements including a synchronization part (Sync), a TS signal, a C & M channel, BIP-8, RDI, and CID. 9. The method of claim 8, Wherein the synchronization part is generated by referring to a delay between the base station and the repeater measured using any one of the TS signal and the C & M channel. 10. The method of claim 9, Wherein the delay measurement using the TS signal is calculated by measuring a time at which the base station transmits the TS signal to the repeater and a time at which the repeater repeats transmission of the TS signal to the base station. 10. The method of claim 9, In the delay measurement using the C & M channel, the BS transmits time information to the RS using the C & M channel, the RS updates the time information and retransmits the time information to the BS, Wherein the time information is calculated by comparing time information. 6. The method of claim 5, Wherein the frame transmission unit transmits the stack frame at a speed proportional to the number of basic frames stacked to generate the stack frame. A method of controlling a repeater, Receiving a digital signal of a terminal from a base station; Generating a basic frame according to a signal type included in the digital signal based on the received digital signal; Determining whether the generated basic frame is a plurality of frames; Generating a stack frame by stacking a plurality of basic frames corresponding to each functional element when the generated basic frames are a plurality of basic frames; And And transmitting one of the generated basic frame and the generated stack frame to the called terminal. 14. The method of claim 13, The basic frame generation step includes: Measuring a delay between the base station and the repeater; And And scrambling the functional elements including the delay-based synchronization part, the TS signal, the C & M channel, the BIP-8, the RDI, and the CID. 15. The method of claim 14, Wherein the delay measurement step comprises: Measuring a time at which the base station transmits the TS signal to the repeater; Measuring a time at which the TS signal is retransmitted from the repeater to the base station; And And calculating half (1/2) of the difference of the times. 15. The method of claim 14, Wherein the delay measurement step comprises: The base station transmitting time information to the repeater using the C & M channel; Updating the time information and retransmitting the time information to the base station; And And calculating a difference between the time information and the time information corresponding to the updated time information.

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