KR100653037B1 - System for transmiting information using pilot channel of satellite dmb and method thereof - Google Patents

Abstract

In the present invention, a system for transmitting additional information using a pilot channel of satellite DMB and a method of transmitting additional information using the same are disclosed. According to the present invention, in an operation system for satellite DMB broadcasting, satellite DMMB broadcasting for receiving and transmitting additional information such as content information and disaster / disaster warning and performing broadcasting and compression of corresponding broadcasting information to be transmitted to satellites. center; A gap filler (Gapfiller) for converting and transmitting broadcasting information provided from satellites to TDM signals of Ku-Band into CDM signals; And a satellite terminal for receiving the broadcasting information through the CDM signal of the S-Band from the gap filler or receiving the broadcasting information using the S-Band of the satellite to output the multi-channel multimedia and the additional information through the demodulation of the CDM signal. Is done. Accordingly, the present invention transmits predetermined additional information corresponding to the predefined control data from the satellite DMB broadcasting center through a pilot channel of the control data, and the satellite terminal receives the additional information received by making a table map of the predefined control data. By decrypting and displaying, it is possible to send and receive additional information without modifying the existing DMB system, thereby providing an effect of reducing the investment cost for disaster prevention system development.

Satellite, DMB, DMB, satellite broadcasting, additional information, control data, pilot channel, disaster

Description

System and method for additional information transmission using pilot channel of satellite DMB {SYSTEM FOR TRANSMITING INFORMATION USING PILOT CHANNEL OF SATELLITE DMB AND METHOD THEREOF}

1 is a view for explaining a pilot channel (Pilot Channel) of the satellite DMB.

2 is a block diagram showing a system for transmitting additional information according to the present invention.

3 is a table for explaining additional information according to the present invention.

4 is a configuration diagram for explaining the main functions of the satellite terminal according to the present invention.

5 is a flowchart for explaining the main operation of the present invention.

<Explanation of symbols for main drawings>

201: satellite DMB broadcasting center 203: satellite

205: gap filler 207: satellite terminal

401: RF transceiver 403: CD unit (CDM / FEC)

405CAS 407 AV Decoder

409 control unit 411 memory

The present invention relates to data transmission of satellite DMB, and more particularly, emergency signal processing such as disaster / disaster and weather information by using a pilot channel of satellite DMB to which the System E scheme is applied. The present invention relates to a system and method for transmitting additional information using a pilot channel of a satellite DMB.

In general, digital broadcasting such as digital media center (DMC), data broadcasting, and DMB are high quality multimedia broadcasting. The DMB is classified into terrestrial DMB and satellite DMB according to transmission means such as terrestrial and satellite. The terrestrial DMB has an assigned frequency of VHF TV channel No. 12 (204-210 MHz), and the European Eureka-147 scheme is used. It divides one channel (6MHz) into three frequency blocks (multiplex), and the effective data rate (bit rate) is 1.5 ~ 1.7Mbps per DMB frequency block, but it is a boundary to prevent interference Considering the frequency (guard band) and the code rate of the error correction code, the usable data rate is about 1.2Mbps.

In addition, multipath interference effect, noise and interference effect, power efficiency, frequency usage efficiency, service quality, mobile reception quality, service diversity, resolution of hearing loss area, channel error correction function, specific subscriber screening, common use of transmission equipment, smart Terrestrial DMB can provide differentiated services with superior quality than conventional analog FM broadcasting.

Satellite DMB, on the other hand, is achieved through the 2.630-2.655 GHz band, which is a much higher band than terrestrial DMB. Satellite DMB transmits various multimedia contents to satellite through satellite frequency (Ku band, 12 ~ 13Hz) in terrestrial broadcasting center, and then satellite transmits it through S-band (2.630 ～ 2.655 할당) allocated for DMB. It is provided to a mobile phone on the ground or a personal digital assistant (PDA) type terminal. In addition, if it is not possible to receive satellite signals directly, the satellite transmits a signal from the satellite to the terrestrial repeater called 'Gap Filler' through the downlink frequency of the Ku band, and then the service is provided through the S band from the gap filler to the subscriber's terminal. do. In order to realize such a service, the satellite DMB uses a signal transmission method according to the Japanese system SYSTME E. During signal transmission, two channels consisting of control data and payload data are allocated and used.

In addition, the control data includes a pilot channel, and the pilot channel is a channel to which bit interleaving is not applied. Since the control data is transmitted at a relatively high power level than other channels, the reception data has a low reception error. As shown in FIG. 1, the pilot channel has a data structure of a pilot channel, and is composed of 1 byte of Identifier, 77 bytes of payload data, 2 bytes of CRC, and 16 bytes of Check Bytes of RS Code. . In this case, the payload data is assigned to a Stard CDM channel number of 1 byte, 10 groups of 7 bytes of CDM channel control data are formed, and 6 bytes of Reserved. The reserved 6 bytes are reserved, which allows the terminal to easily decode. However, although such a 6-byte preliminary code can be utilized for a large number of types of data, it is not used and causes a problem that it causes resource waste of a DMB communication network system.

The present invention has been made to solve the above problems, and an object of the present invention is to transmit additional information for disaster prevention as a broadcast signal of a satellite DMB broadcasting center, and a plurality of types of additional information from a satellite terminal. Receive the additional information by using the pilot channel (Pilot Channel) to send the local information to the local area or to transmit the additional information using the pilot channel of satellite DMMB that can perform emergency signal processing such as disaster / disaster and weather information A system and method are provided.

The additional information transmission system using the satellite DMB pilot channel according to the first aspect of the present invention for achieving the above object, in the operation system for satellite DMB (DMB) broadcasting, the addition of content information and disaster / disaster warning, etc. A satellite DMB broadcasting center configured to receive information and transmit the information to a satellite by compressing and multiplexing corresponding broadcast information; A gap filler (Gapfiller) for converting and transmitting the broadcast information provided from the satellite to a TDM signal of Ku-Band into a CDM signal; And receiving broadcast information through an S-Band CDM signal from the gap filler, or receiving broadcast information using an S-Band of the satellite to perform multi-channel multimedia and output of the additional information through demodulation of the CDM signal. Characterized in that consisting of a satellite terminal.

According to a preferred embodiment of the present invention, the additional information is characterized by using a pilot channel (Pilot Channel) of the control data transmitted from the satellite DMB broadcasting center.

In addition, the additional information is a predefined control data, characterized in that it includes the ID of the gap filler, window size information for controlling the operation of the terminal, presence or absence of CAS application information, emergency information, weather information and traffic information.

The pilot channel is preliminary information of 5 bytes, and is characterized by comprising header information, which is a code for identifying a corresponding purpose, and information information for providing actual contents.

In addition, the satellite terminal includes an RF transceiver for receiving and demodulating the CD signal of the S-Band provided from the gap filler or satellite; A CD unit (CDM / FEC) for performing signal detection, despreading, and error correction on a CDM signal demodulated from the RF transceiver; A casing for determining a user's viewing authority for the content information flowing into the CD unit; An AV decoder (AV DECODER) for demultiplexing the signal and decompressing a video / audio signal for the content information and displaying a decoding result of the additional information in response to the viewing authority information of the CAS; A control unit configured to perform input / output control of the broadcast information input to the CD unit, receive additional information of the broadcast signal, decode it based on predefined control information, and transmit a decoding result to the AV decoder; And a memory for providing an algorithm for operating the system in conjunction with the control unit, holding decryption information for the predefined additional information, and storing display graphic information for the decryption information.                         

On the other hand, the additional information transmission method using the pilot channel of the satellite DMB according to the second aspect of the present invention for achieving the above object, in the method for transmitting the additional information using the operating system for satellite DMB (DMB) broadcasting After the predetermined additional information is transmitted from the satellite DMB broadcasting center using control data of the satellite broadcast signal, and the control data is decoded from the satellite terminal having the predetermined additional information, the satellite The message corresponding to the decryption result is displayed on the display window of the terminal.

According to a preferred embodiment of the present invention, the control data used for transmitting the additional information is characterized in that the pilot channel (Pilot Channel) provided as a spare channel.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. 2 is a block diagram showing a system for transmitting additional information of a satellite DMB according to the present invention.

As shown, the satellite DMB broadcasting center 201 and the satellite 203 for receiving the additional information, such as content information and disaster / disaster alert to compress and multiplex the corresponding broadcast information to be transmitted to the satellite 203 A gap filler (Gapfiller) 205 for converting and transmitting the broadcast information provided from the Ku-Band TDM signal into a CDM signal, and receiving broadcast information through the CDM signal of the S-Band from the gap filler 205; And a satellite terminal 207 for receiving the broadcast information using the S-Band of the satellite 203 and performing output of the multi-channel multimedia and the additional information through demodulation of the CDM signal.

The additional information transmitted from the satellite DMB broadcasting center 201 is control data previously defined using a pilot channel of control data, and includes an ID of a gap filler, window size information for controlling terminal operation, and presence or absence of information on applying CAS. , Emergency information, weather information and traffic information. The pilot channel is preliminary information of 5 bytes and may be defined as header and information. In addition, the header is a code for identifying the corresponding purpose, and the information will be additional information for providing the actual content. Such additional information may be about two letters in Korean using a simple Hangul completion code in an emergency.

In addition, the satellite terminal 207 may be used as a mobile phone terminal, a vehicle terminal, a PDA terminal, and a satellite DMB dedicated terminal capable of receiving a 2.630 to 2.655 GHz signal, which is an S-Band of a satellite DMB. .

The satellite DMB additional information transmission system is configured to compress and multiplex additional information having a plurality of types of content information and predetermined control data in a satellite DMMB broadcasting center 201 in a predetermined format to Ku-Band of the TDM signal. That is, after modulating to 13.824-13.849 GHz, the signal is transmitted to the satellite 203. Here, the additional information is provided through a pilot channel of control data based on a transmission protocol of DMB broadcasting, and does not have a separate communication protocol or a separate transmission equipment.

In addition, the additional information is defined control data, including ID information of the gap filler 205 for local information transmission, emergency, weather, traffic information is possible, such control information for additional broadcasting in FIG. To illustrate. As shown, the information is divided into 1 byte of header information and 5 bytes of information information, and each information information includes a predefined operation description. Therefore, the additional information is mounted as a pilot signal of 6 bytes in total and transmitted to the satellite 203. The satellite 203 is frequency-converted from 12.214 to 12.239 GHz of Ku-Band for receiving and transmitting content information and additional information to the gap filler 205, and also the corresponding content information and additional information to the satellite terminal 207. Performs frequency conversion from 2.630 to 2.655 GHz of S-Band for direct transmission.

Therefore, the gap filler 205 converts the TDM signal of the Ku-Band 12.214 ~ 12.239GHz frequency provided by the satellite 203 into a CDM signal and retransmits the content information and the additional information to the shadow area. Thereafter, the satellite terminal 207 receives the content information and the additional information from the gap filler 205 through the S-Band or directly from the satellite 203 to display the multi-channel multimedia. The satellite terminal 207 outputs a broadcast signal including the demodulation of the CDM signal and content information and additional information. The output of the additional information through the satellite terminal 207 is to decode the predetermined control data, by holding the table map information of the control data in the internal memory of the satellite terminal 207.

4 is a configuration diagram for explaining the main functions of the satellite terminal.

As shown, the RF transceiver 401 for receiving and demodulating the S-band CDM signal provided from the gap filler 205 or satellite 203, and the CDM demodulated from the RF transceiver 401 CDM / FEC 303 for signal detection, despreading and error correction for signals, CAS 405 for judging user viewing authority, demultiplexing broadcast signals and decompressing video / audio signals A control unit for performing input / output control of broadcast information, receiving additional information of the broadcast signal, decoding the received information based on predefined control information, and displaying a result of the decoding; 409) and in conjunction with the control unit 409 to provide an algorithm for system operation, to hold the decryption information for the predefined additional information, the display graphic information for the decryption information And a memory 411 for storing (including letters or symbols for displaying additional information).

The CDM / FEC 403 includes a Viterbi, RS Decoder for error correction, and consists of an ADC, a DAC, a roll-off filter, a de-spreader, a Rake-Combiner, a deinterleaver, and a FEC. In addition, the CAS 405 is composed of De-scrambler, Conditional Access Information Decoder, and the AV decoder is composed of Demux, MPEG-4 Decoder, and MPEG-2 AAC + SBR Decoder.

The operation of the satellite terminal 207 configured as described above will be described in detail with reference to the accompanying drawings. 5 is a flowchart illustrating a receiving process of additional information by the satellite terminal 207 according to the present invention.

As shown, in step S501, the satellite terminal 207 receives and demodulates control data and payload data flowing through the channel of the satellite DMB through the RF transceiver 401. . The control data and payload data include content information and additional information. The control data and payload data are provided to the CAS 405 after CDM signal detection and error correction according to a predetermined procedure through the CDM / FEC 403. . The CAS 405 determines whether the user has the right to view through the Conditional Access Information Decoder. When the content is given the right to view, the CAS 405 provides the corresponding content information to the decoder 407. The AV decoder 407 provides corresponding contents to a display panel and a voice output module such as a mobile phone, a vehicle, a PDA, and a satellite DMB dedicated terminal.

Meanwhile, in step S503, the controller 409 receives control data and payload data demodulated through the RF transceiver 401 and extracts control data based on a protocol definition for each input data. Thereafter, the controller 409 enters step S505 and receives control data flowing into the CDM / FEC 403 to extract a pilot channel. This is done through an RS encoder, a byte interleaver, and a convolutional encoder. In addition, since the pilot channel has a pilot symbol for performing synchronization with the terminal, the satellite terminal 207 can receive and receive a pilot symbol. In addition, it recognizes reception of a pilot channel. In this case, the pilot channel does not apply bit interleaving, and the reception channel is less received because it transmits at a higher output than other channels.

As illustrated in FIG. 1, the pilot channel structure is composed of 1 byte of Identifier, 77 bytes of payload data, 2 bytes of CRC, and 16 bytes of Check Bytes of RS Code. In this case, the payload data is assigned to a Stard CDM channel number of 1 byte, 10 groups of 7 bytes of CDM channel control data are formed, and 6 bytes of Reserved. The control unit 409 extracts the payload data included in the pilot channel in step S507, which extracts 77 bytes of information except for Identifier information of the pilot channel, CRC of 16 bytes, and Check Bytes of RS code of 16 bytes. will be. In addition, the control unit 409 receives a 1-byte starting CDM channel number constituting payload data, 10 NCDM channel control data consisting of 7 bytes, and reserved data consisting of 6 bytes in step S509. Extract The reserved data is a portion in which the additional information transmitted from the satellite DMB broadcasting center 201 is recorded, and the controller 409 receives 6 bytes of information constituting the reserved data.

In step S511, the controller 409 patches the decryption information for the pre-stored additional information into the memory 411 to decrypt the reserved data. The decryption information is predefined information. The decryption information is stored by mapping a predefined analysis information for each header information shown in FIG. 3. Accordingly, the controller 409 decodes the additional information currently input based on the table map information stored in the memory 411. Thereafter, when the decoding process is completed, the process proceeds to step S513, and the controller 409 converts data for displaying corresponding additional information such as emergency information, weather information, traffic information, etc. on the display panel of the satellite terminal 207. Do this. The data conversion is based on a display standard set for each satellite terminal and is converted into a display standard of graphic information including character and symbol information. Accordingly, the user carries the satellite terminal 207 and is provided with emergency information related to the disaster and the living information related to the weather and traffic conditions provided from the satellite DMB broadcasting center 201.

Meanwhile, since the satellite terminal 207 needs to decode the pilot channel every time, the additional information provided in the present invention may affect the battery life of the terminal, so that the satellite terminal 207 has a pilot channel at predetermined intervals to reduce battery consumption. To search. For example, it may be desirable for the satellite terminal 207 to search the pilot channel every two seconds through a system operation algorithm.

What has been described above is only an embodiment of the additional information transmission system and method using a pilot channel of the satellite DMB according to the present invention, the present invention is not limited to the above embodiment, as claimed in the following claims Without departing from the gist of the present invention, anyone of ordinary skill in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

As described above, the present invention transmits predetermined additional information corresponding to the predefined control data from the satellite DMB broadcasting center through a pilot channel of the control data, and the satellite terminal maps the predefined control data to a table map. By decoding and displaying the received additional information, it is possible to send and receive additional information without modification of the existing DMB system, thereby providing an effect of reducing the investment cost for disaster prevention system development.

In addition, the satellite terminal used in the present invention is to decode the pilot channel by a predetermined period, thereby providing an effect that can minimize the battery life of the terminal despite the operation of a separate additional service.

Claims (15)

delete delete In the operating system for satellite DMB (DMB) broadcasting, Satellite for transmitting to satellite by compressing and multiplexing corresponding broadcasting information by receiving additional information including contents information or disaster / disaster alert through pilot channel of control data transmitted from the satellite DMB broadcasting center DMB broadcasting center; A gap filler (Gapfiller) for converting and transmitting the broadcast information provided from the satellite to a TDM signal of Ku-Band into a CDM signal; And A satellite for receiving the broadcast information through the CDM signal of the S-Band from the gap filler or the broadcast information using the S-Band of the satellite to perform multi-channel multimedia and output of the additional information through demodulation of the CDM signal. It consists of a terminal, The additional information is a predefined control data, the satellite DMB comprising at least one of the ID of the gap filler, window size information for controlling the operation of the terminal, presence or absence of CAS application information, emergency information, weather information and traffic information Additional information transmission system using the pilot channel. The method of claim 3, wherein the pilot channel is preliminary information of 5 bytes, and comprises a header (header) information which is a code for distinguishing the corresponding purpose and information information for providing the actual content. Additional information transmission system using a pilot channel of satellite DMB. The additional information transmission system using the pilot channel of the satellite DMMB, characterized in that the information information is implemented by two Hangul characters using Hangul complete code. The terminal of claim 3, wherein the satellite terminal is any one of a mobile phone terminal, a vehicle terminal, a PDA terminal, and a satellite DMB terminal capable of receiving a 2.630 to 2.655 GHz signal, which is an S-Band of a satellite DMB. Side information transmission system using a pilot channel of the satellite DMB. [4] The satellite terminal of claim 3, wherein the satellite terminal comprises: an RF transceiver for receiving and demodulating a CD signal of an S-Band provided from the gap filler or satellite; A CD unit (CDM / FEC) for performing signal detection, despreading, and error correction on a CDM signal demodulated from the RF transceiver; A casing for determining a user's viewing authority for the content information flowing into the CD unit; An AV decoder (AV DECODER) for demultiplexing the signal and decompressing a video / audio signal for the content information and displaying a decoding result of the additional information in response to the viewing authority information of the CAS; A control unit configured to perform input / output control of the broadcast information input to the CD unit, receive additional information of the broadcast signal, decode it based on predefined control information, and transmit a decoding result to the AV decoder; And And a memory configured to provide an algorithm for operating the system in conjunction with the control unit, to hold decryption information for the predefined additional information, and to store graphic information for display on the decryption information. Additional information transmission system using the pilot channel. 8. The additional information transmission system using a pilot channel of satellite DMB according to claim 7, wherein the graphic information comprises letters or symbols for displaying the additional information. delete delete In the method for transmitting additional information using the operating system for satellite DMB (DMB) broadcasting, After the predetermined additional information is transmitted from the satellite DMB broadcasting center using control data of the satellite broadcasting signal, the control data is decoded from the satellite terminal having the predetermined additional information, and then the satellite terminal is decoded. Displays the message corresponding to the decryption result. The additional information is a predefined control data, the satellite DMB comprising at least one of the ID of the gap filler, window size information for controlling the operation of the terminal, presence or absence of CAS application information, emergency information, weather information and traffic information The additional information providing method of the additional information transmission system using the pilot channel. The method of claim 10, wherein the pilot channel is 5 bytes (byte) preliminary information, characterized in that the header (header) information that is a code for identifying the purpose and information (information) information for providing the actual content, characterized in that An additional information providing method of an additional information transmission system using a pilot channel of satellite DMB. The method of claim 12, wherein the information information is implemented using two Hangul characters using a Hangul complete code. In the operating system for satellite DMB (DMB) broadcasting, A satellite DMB broadcasting center configured to receive additional information including content information or a disaster / disaster alert and perform compression and multiplexing of corresponding broadcast information to be transmitted to a satellite; A gap filler (Gapfiller) for converting and transmitting the broadcast information provided from the satellite to a TDM signal of Ku-Band into a CDM signal; And A satellite for receiving the broadcast information through the CDM signal of the S-Band from the gap filler or the broadcast information using the S-Band of the satellite to perform multi-channel multimedia and output of the additional information through demodulation of the CDM signal. It consists of a terminal, The additional information is a predefined control data, the satellite DMB comprising at least one of the ID of the gap filler, window size information for controlling the operation of the terminal, presence or absence of CAS application information, emergency information, weather information and traffic information Additional information transmission system using the pilot channel. In the method for transmitting additional information using the operating system for satellite DMB (DMB) broadcasting, Pre-defined additional information using control data of the satellite broadcast signal from the satellite DMB broadcasting center is transmitted through a pilot channel, and the control data from the satellite terminal having the predetermined additional information. After decryption, a message corresponding to the decryption result is displayed on the display window of the satellite terminal, The additional information is a predefined control data, the satellite DMB comprising at least one of the ID of the gap filler, window size information for controlling the operation of the terminal, presence or absence of CAS application information, emergency information, weather information and traffic information The additional information providing method of the additional information transmission system using the pilot channel.

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