KR100737087B1 - Interference preventing method in t-dmb and its system - Google Patents

Abstract

A method for preventing interference in a T(Terrestrial)-DMB and its system are provided to improve reception performance of a shadow area by preventing poor reception interference positioned between two gap fillers. A gap filler management server transmits radiowaves for power detection to a DMB terminal, and transmits a CQI(Channel Quality Information), including reception power and a terminal ID, to a gap filler corresponding to a gap filler ID of the CQI which has the reception power, the gap filler ID, and the DMB terminal ID received from the DMB terminal(S201-S209). Gap fillers control beam forming of an antenna as checking the reception power of the CQI transmitted according to a pre-set period from the gap filler management server, and increases strength of the antenna beam while increasing beam strength of the relatively weaker side(S211-S213).

Description

Interference prevention method and system in terrestrial DMB {INTERFERENCE PREVENTING METHOD IN T-DMB AND ITS SYSTEM}

1 is a block diagram of an interference prevention system in terrestrial DMB according to the present invention;

2 is a detailed flowchart of an interference prevention method in terrestrial DMB according to the present invention;

<Description of the symbols for the main parts of the drawings>

101-1 to 101-n: gap filler 103: gap filler management server

S1: DMB terminal

The present invention relates to a method and system for preventing interference in terrestrial digital multi-medea broadcasting (DMB), and more particularly, to a beam of an antenna in response to channel quality information (CQI) received through a return channel. The present invention relates to a method and a system that can control the forming of the beam (Beam) to prevent the hearing loss interference located between the two gap fillers.

As is well known, DMB refers to digital multimedia broadcasting that can go beyond simple audio services such as AM broadcasting and FM broadcasting, and can transmit not only compact disc (CD) quality audio but also text, graphics, and video. It usually refers to terrestrial DMB broadcasting, which provides free broadcasting locally, but also broadly includes satellite DMB, which uses multimedia to pay broadcasting.

The baseband in such a terrestrial DMB receiving system adopts coded Orthogonal Frequency Division Multiplexing (OFDM) to perform a decoding function. The baseband in the satellite DMB receiving system performs a decoding function using a method of distributed transmission of one broadcast program to N code division multiplexing (CDM) channels.

In the case of terrestrial DMB, signals are transmitted from several transmission stations in the metropolitan area, but soon DMB service will be expanded nationwide, and numerous gap fillers will be installed to support reception of shaded areas such as underground spaces.

However, as described above, when a signal source is provided by a plurality of gap fillers, signals are uniformly transmitted in all directions without separate power control. Therefore, a region located in the middle between two transmission towers or a gap filler is located in a plurality of sources. Interference due to the interfering with the hearing loss has a problem.

Accordingly, the present invention has been made to solve the above problems, the object of which is to control the beam forming of the antenna in response to the CQI received through the return channel from the DMB terminal in the middle of the two gap fillers The present invention provides a method and system for preventing interference in terrestrial DMB, which can prevent the interference of located astigmatism.

In the present invention for achieving the above object, the interference prevention method in the terrestrial DMB is a first process for transmitting a power detection radio wave to the DMB terminal, and the CQI including the received power and gap filler ID and the DMB terminal ID from the DMB terminal A second process of receiving a second process, a third process of transmitting a CQI including a received power and a terminal ID to a gap filler as a gap filler corresponding to the received gap filler ID, and repetition of the first to third processes The fourth process of increasing the antenna beam size of the gap filler while controlling the beamforming of the antenna while checking the reception power among the CQIs transmitted in the third process according to a preset period, increasing the beam size of the weakest one. It is characterized by including.

In addition, in the present invention for achieving the above object, the interference prevention system in the terrestrial DMB transmits a power detection radio wave to the DMB terminal, the CQI including the received power and gap filler ID and the DMB terminal ID received from the DMB terminal. The gap filler management server means for transmitting the CQI including the received power and the terminal ID to the gap filler corresponding to the gap filler ID, and the received power among the CQIs transmitted according to a predetermined period from the gap filler management server means, while checking the antenna It is characterized in that it comprises a gap filler to control the beam forming of the antenna beam size while increasing the beam size of the weakest intensity.

Hereinafter, a plurality of embodiments of the present invention may exist, and a preferred embodiment will be described in detail with reference to the accompanying drawings. Those skilled in the art will appreciate the objects, features and advantages of the present invention through this embodiment.

1 is a schematic block diagram of an interference prevention system in terrestrial DMB according to the present invention, and includes a plurality of gap fillers 101-1 to 101-n and a gap filler management server 103. do.

A plurality of gap fillers 101-1 to 101-n receive radio waves transmitted from the gap filler management server (eg, terrestrial transmission station) 103 and use orthogonal frequency division multiplexing, a kind of multicarrier modulation scheme. The signal is modulated by the OFDM method and retransmitted to the DMB terminal S1. Subsequently, the corresponding gap filler among the plurality of gap fillers 101-1 to 101-n checks the reception power among the CQIs transmitted from the gap filler management server 103 according to a preset period of the antenna (eg, smart antenna). The beamforming is controlled to retransmit the modulated signal to the DMB terminal S1 while increasing the beam size of the weakest one.

The gap filler management server 103 receives the CQI including the received power and the gap filler ID and the corresponding DMB terminal ID from the DMB terminal S1, and includes the received power and the terminal ID as the corresponding gap filler corresponding to the gap filler ID. Send the CQI.

Accordingly, by controlling the beamforming of the antenna in response to the CQI received through the return channel from the DMB terminal according to the present embodiment, the reception performance of the shadow area can be improved by preventing the interference of the visual acuity located between the two gap fillers. .

Next, an interference prevention process in the terrestrial DMB of the present embodiment having the above-described configuration will be described.

2 is a flowchart sequentially illustrating a process of preventing interference in terrestrial DMB according to an exemplary embodiment of the present invention.

First, the gap filler management server (e.g., terrestrial transmission station) 103 corresponds to one of a plurality of gap fillers 101-1 to 101-n in order to transmit power detection radio waves to the corresponding DMB terminal S1. Radio waves are sent to the gap filler 101-1 (S201).

Then, the gap filler 101-1 receives a radio wave transmitted from the gap filler management server 103 and makes a signal modulated by an orthogonal frequency division multiplexing (OFDM) method, which is a kind of a multicarrier modulation method, to the DMB terminal S1. Resend by (S203).

The DMB terminal S1 receives the signal transmitted from the gap filler 101-1 and checks the power (S205), and gaps the CQI including the identified received power and gap filler ID and the corresponding DMB terminal ID through the return channel. It transmits to the filler management server 103 (S207).

The gap filler management server 103 receives the CQI including the received power and the gap filler ID and the corresponding DMB terminal ID from the DMB terminal S1, and sends the received power and the terminal to the gap filler 101-1 corresponding to the gap filler ID. The CQI including the ID is transmitted (S209).

The gap filler 101-1 controls the beamforming of the antenna (for example, the smart antenna) while checking the reception power among the CQIs transmitted from the gap filler management server 103 according to a preset period (S211), and the strength thereof is the highest. The signal modulated by the DMB terminal S1 is retransmitted while increasing the weak beam size (S213). Here, the beam size is the intensity of the transmission output with the antenna array adjusted.

Accordingly, the present invention can improve the reception performance of the shadow area by controlling the beamforming of the antenna in response to the CQI received through the return channel from the DMB terminal, thereby preventing the blind spot interference located between two gap fillers.

As described above, the present invention is to control the beamforming of the antenna in response to the CQI received through the return channel from the DMB terminal, thereby improving the reception performance of the shadow area by preventing the audible interference between the two gap fillers It can be effective.

Claims (4)

As an interference prevention method in terrestrial DMB, A first step of transmitting a power detection radio wave to the DMB terminal; Receiving a CQI including a received power, a gap filler ID, and a DMB terminal ID from the DMB terminal; Transmitting a CQI including the received power and the terminal ID to the gap filler by a gap filler corresponding to the received gap filler ID; While repeating the first to third processes, the beamforming of the antenna is controlled while checking the reception power among the CQIs transmitted in the third process while increasing the beam size of the weakest intensity. Fourth step of increasing the antenna beam size of the gap filler Interference prevention method in terrestrial DMB comprising a. The method of claim 1, The beam size is the interference prevention method for terrestrial DMB, characterized in that the intensity of the transmission output to adjust the antenna array. As an interference prevention system in terrestrial DMB, The power detection radio wave is transmitted to a DMB terminal, and the received power and the terminal ID are included as a gap filler corresponding to the gap filler ID in the CQI including the received power and the gap filler ID and the DMB terminal ID received from the DMB terminal. Gap filler management server means for transmitting the generated CQI, The gap filler which increases the antenna beam size while controlling the beamforming of the antenna while checking the received power among the CQIs transmitted according to a predetermined period from the gap filler management server means, while increasing the beam size of the weakest one. Interference prevention system in terrestrial DMB comprising a. The method of claim 3, wherein The beam size is the interference prevention system in terrestrial DMB, characterized in that the strength of the transmission output to adjust the antenna array.

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