KR100788209B1 - Decoding method by using transmitter identification information in t-dmb and its system - Google Patents

Abstract

A decoding method and system using TII in T-DMB are provided to check and decode the sync channel of a transmitter closest to a current location by using the current location information of a DMB terminal and location information by transmitter, thereby solving a problem that a receiving rate is deteriorated. A decoding method and system using TII(Transmitter Identification Information) in T-DMB(Terrestrial-Digital Multimedia Broadcasting) comprises the following steps of: receiving a current time, a latitude, and a longitude from a satellite and calculating current location information(S201,S203); extracting TII location information included in a sync channel by each transmitter in location information by transmitter obtained through the TII(S207); checking a location of a transmitter closest to the current location information by using the calculated current location information and the extracted TII location information by transmitter(S211); selecting a sync channel with the TII location information corresponding to the checked transmitter(S213); and checking the location of the transmitter closest to the current location information by using the latitude and the longitude included in the TII location information by transmitter, a detailed latitude, a detailed longitude, and the location information of a current DMB terminal, and decoding and outputting an MSC(Main Service Channel) corresponding to TII location information for the checked transmitter(S215,S217).

Description

DECODING METHOD BY USING TRANSMITTER IDENTIFICATION INFORMATION IN T-DMB AND ITS SYSTEM}

1 is a block diagram of a decoding system using TII in terrestrial DMB according to the present invention;

2 is a detailed flowchart of a decoding method using TII in terrestrial DMB according to the present invention;

3 illustrates a structure of a DAB transmission frame according to the present invention;

4 is a diagram illustrating TII position information for each transmitter for identifying a transmitter closest to current position information according to the present invention.

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

101: GPS module 103: RF module

105: baseband module 107: microcomputer

109: decoding section 111: output section

S1: Satellite

The present invention relates to a decoding method and system using TII (Transmitter Identification Information) in Terrestrial Digital Multi-medea Broadcasting (DMB), and more particularly to the current position information and TII of the DMB terminal. The present invention relates to a method and a system capable of identifying and decoding a synchronization channel of a transmitter closest to a current position by using positional information of each transmitter.

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 shadow areas such as underground spaces.

However, as described above, when there are a plurality of signal sources, the orthogonality of the OFDM signal is degraded due to the multipath effect, and thus the quality of the decoded signal cannot be secured.

Accordingly, the present invention has been made to solve the above problems, the purpose of which is to identify the synchronization channel of the transmitter closest to the current position by using the current position information of the DMB terminal and the position information for each transmitter obtained by the TII. The present invention provides a decoding method and system using TII in a terrestrial DMB capable of decoding.

In the present invention for achieving the above object, the decoding method using the TII in the terrestrial DMB is to receive the current time, latitude and longitude from the satellite to calculate the current position information, and the position information in each transmitter obtained from the TII Extracting the TII position information included in the synchronization channel for each transmitter, checking the position of the transmitter closest to the current position information by using the calculated current position information and the extracted TII position information for the transmitter, and Selecting a synchronization channel having TII position information corresponding to the transmitter, latitude and longitude included in the TII position information of each transmitter, which is closest to the selected current position information, and detailed latitude and detail longitude, After determining the location using the location information, the MSC (Ma) corresponding to the TII location information corresponding to the identified transmitter in Service Channel) decoding and outputting.

In addition, according to the present invention for achieving the above object, a decoding system using TII in a terrestrial DMB is a GPS module for receiving a current time, latitude, and longitude from a satellite to calculate current location information, and location information for each transmitter through TII. A baseband module for extracting TII position information included in a synchronization channel of each transmitter from the obtained transmitter position information, a position-based module, a calculated current position information, and a current position using the extracted TII position information for each transmitter. Microcomputer means for identifying the location of the transmitter closest to the information and selecting a synchronization channel having TII location information corresponding to the identified transmitter, and the latitude included in the TII location information of each transmitter for the transmitter closest to the selected current location information. And longitude, detailed latitude and longitude, and current location information using the location information of the current DMB terminal. And a decoding means for decoding the MSC corresponding to the TII position information corresponding to the identified transmitter after identifying the closest position, and an output unit for outputting the decoded MSC.

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 block diagram of a decoding system using TII in a terrestrial DMB according to the present invention, and includes a Global Positioning System (GPS) module 101, a Radio Frequency (RF) module 103, and a baseband. (Baseband) module 105, microcomputer 107, decoding unit 109, and output unit 111 is included.

The GPS module 101 receives the current time, latitude, and longitude from the satellite S1 in real time, checks the current location information, and provides it to the microcomputer 107.

The RF module 103 obtains the location information for each transmitter through the TII and provides the baseband module 105 with the location information.

The baseband module 105 extracts the TII position information included in the synchronization channel for each transmitter from the position information for each transmitter provided from the RF module 103 and provides it to the microcomputer 107.

The microcomputer 107 sequentially compares current position information provided from the GPS module 101 with TII position information for each transmitter provided from the baseband module 105 to identify a transmitter closest to the current position information, and the confirmed transmitter. The synchronization channel S301 having the TII position information S3011 (shown in FIG. 3) in the DAB transmission frame structure corresponding to the selected channel is selected and provided to the decoding unit 109. Here, the transmitter confirmation closest to the current position information is the latitude (S401) and longitude (S403) and the detailed latitude (S405) and the detailed longitude (S407) included in the TII position information for each transmitter shown in FIG. Location information of the terminal may be used to determine the location of the nearest transmitter.

The decoding unit 109 may include a fast information group (FIC) S303 and an MSC (corresponding to a synchronization channel S301 having a TII position information S3011 corresponding to a transmitter closest to the current position information provided from the microcomputer 107). The main service channel (S305) is decoded in accordance with an OFDM symbol at regular intervals and provided to the output unit 111.

The output unit 111 outputs the MSC decoded by the decoding unit 109 so that the user can view it.

Accordingly, the decoding system using TII in the terrestrial DMB according to the present embodiment identifies and decodes a synchronization channel of the transmitter closest to the current position by using the current position information of the DMB terminal and the position information of each transmitter obtained by the TII. In the case where a plurality of signal sources exist as in the past, the orthogonality of the OFDM signal is degraded due to the multipath effect, so that the quality of the decoded signal cannot be secured, thereby reducing the reception rate.

Next, a decoding process using TII in the terrestrial DMB of the present embodiment having the above-described configuration will be described.

2 is a flowchart sequentially illustrating a decoding process using TII in terrestrial DMB according to a preferred embodiment of the present invention.

First, the GPS module 101 in the DMB terminal receives the current time, latitude, and longitude from the satellite S1 in real time (S201), and calculates current location information using the received current time, latitude, and longitude (S203). To the microcomputer 107.

In addition, the RF module 103 in the DMB terminal obtains position information for each transmitter through the TII and provides the baseband module 105 to the baseband module 105 (S205). Then, the baseband module 105 extracts the TII position information included in the synchronization channel for each transmitter from the position information for each transmitter provided from the RF module 103 (S207) and provides it to the microcomputer 107.

The microcomputer 107 sequentially compares the current position information calculated by the GPS module 101 with the TII position information of each transmitter extracted by the baseband module 105 (S209).

As a result of the determination (S209), the latitude (S401), longitude (S403), detailed latitude (S405), and detailed longitude (S407) included in the TII location information of each transmitter shown in FIG. 4 as the transmitter closest to the current location information. And, using the location information of the current DMB terminal to determine the location of the nearest transmitter (S211).

Thereafter, the microcomputer 107 selects a synchronization channel S301 having TII position information S3011 (shown in FIG. 3) in the DAB transmission frame structure corresponding to the identified transmitter (S213), and decodes the decoding unit 109. To provide.

The decoding unit 109 constants the FIC S303 and the MSC S305 corresponding to the synchronization channel S301 having the TII position information S3011 corresponding to the transmitter closest to the current position information provided from the microcomputer 107. Decoded according to the OFDM symbols (Symbol) at intervals (S215) and provided to the output unit 111.

The output unit 111 outputs the MSC decoded by the decoding unit 109 so that the user can view it (S217).

Accordingly, the present invention provides a decoding system using TII in terrestrial DMB by identifying and decoding a synchronization channel of a transmitter closest to a current position using current position information of the DMB terminal and position information for each transmitter obtained by the TII. As described above, when a plurality of signal sources exist, the orthogonality of the OFDM signal is degraded due to the multipath effect, so that the quality of the decoded signal cannot be secured, thereby reducing the reception rate.

As described above, in the present invention, a decoding system using TII in terrestrial DMB uses a current position information of a DMB terminal and position information of each transmitter obtained by TII to identify a synchronization channel of a transmitter closest to a current position. By decoding, when there are a plurality of signal sources as in the prior art, due to the multipath effect, the orthogonality of the OFDM signal is broken, and thus the quality of the decoded signal cannot be secured, thereby reducing the reception rate. .

Claims (4)

A decoding method using transmitter identification information (TII) in terrestrial digital multi-medea broadcasting (DMB), Receiving the current time, latitude, and longitude from the satellite to calculate current location information; Extracting TII position information included in a synchronization channel of each transmitter from transmitter position information obtained through the TII; Identifying a location of a transmitter closest to the current location information by using the calculated current location information and the extracted TII location information of the transmitter; Selecting a synchronization channel having TII location information corresponding to the identified transmitter; The transmitter closest to the selected current location information is identified using the latitude and longitude, the detailed latitude and detailed longitude included in the TII location information of each transmitter, and the location information of the current DMB terminal, and then corresponds to the identified transmitter. Decoding and outputting the main service channel (MSC) corresponding to the TII location information Decoding method using TII in terrestrial DMB comprising a. delete A decoding system using TII in terrestrial DMB, GPS module for receiving the current time, latitude and longitude from the satellite to calculate the current location information, An RF module for obtaining location information for each transmitter through the TII; A baseband module for extracting TII position information included in a sync channel for each transmitter from the obtained transmitter position information; Identifying the position of the transmitter closest to the current position information by using the calculated current position information and the extracted TII position information of the transmitter, and selecting a synchronization channel having TII position information corresponding to the identified transmitter; Microcomputer means, After determining the transmitter closest to the selected current location information by using the latitude and longitude, the detailed latitude and the detailed longitude included in the TII location information of each transmitter, and the location information of the current DMB terminal, Decoding means for decoding an MSC corresponding to TII location information corresponding to the identified transmitter; An output unit for outputting the decoded MSC Decoding system using TII in terrestrial DMB comprising a. delete

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