KR20130080569A - Apparatus and method for data transmission use the spreading signal in digital broadcasting system - Google Patents

Abstract

PURPOSE: Device and method transmitting supplementary data using spread spectrum are provided to add data to a broadcasting signal for distress broadcasting and additional service without additional channel allocation using spread spectrum. CONSTITUTION: A service data generation unit (110) generates each transmission header of service packets and generates service data including the transmission header and service packet. A transmission data generation unit (120) performs channel coding and spread spectrum of the service data. The transmission data generation unit generates transmission data by inserting a predetermined synchronization code into the spread spectrum data. A modulation unit (131) modulates the transmission data. A signal synthesis unit (133) synthesizes the modulated transmission data to a broadcasting signal. [Reference numerals] (111) Metadata generation unit; (112) Service packet generation unit; (113) Transfer header generation unit; (114) Multiplex unit; (121) First channel coding unit; (122) Interleaving unit; (123) First band spread unit; (124) Second channel coding unit; (125) Second band spread unit; (126) Synchronized spread cod insertion unit; (127) Frame generation unit; (131) Modulation unit; (132) Power control unit; (133) Signal synthesis unit; (140) T-DMB transfer unit; (AA) Message

Description

Apparatus and method for data transmission use the spreading signal in Digital broadcasting system}

The present invention relates to an apparatus for transmitting and receiving for adding data for disaster broadcasting and additional services using a spreading code scheme to an existing T-DMB band.

Terrestrial-digital multimedia broadcasting ("T-DMB") is a broadcasting system that adds multimedia broadcasting service including video service to Eureka 147 based digital audio broadcasting (DAB) system in Europe. By using the method for transmitting the DMB broadcast signal to the mobile receiver. The T-DMB uses a bandwidth of 1.5 MHz, has a channel rate of about 1 Mbps, and performs mobile multimedia broadcasting with CIF (Common Interleaved Frame) quality.

The automatic recognition T-DMB disaster broadcasting service is to transmit disaster / additional data to the existing T-DMB transmission signal using a spreading code method. In the implementation of such a system, a frame structure for a transmitted message is not proposed.

An embodiment of the present invention provides an apparatus and method for transmitting additional data using spread spectrum in a digital broadcasting system.

An embodiment of the present invention provides a frame structure for transmitting additional data using spread spectrum in a digital broadcasting system.

In the broadcast system according to an embodiment of the present invention, the transmitting apparatus for transmitting additional data generates metadata for the message upon receiving the message, and the service message composed of the metadata and the message is a unit of payload of a service packet. A service data generator for generating a service header by generating a packet header by generating a packet header, generating a transport header of each of the service packets, and generating service data including the transport header and the service packet; A transmission data generation unit for channel coding, spreading the spectrum, and inserting a predetermined synchronization calculation code to generate transmission data, a modulation unit for modulating the transmission data, and a signal synthesis unit for synthesizing the modulated transmission data in addition to the broadcast signal do.

In this case, the service data generation unit, the metadata generation unit for generating the metadata for the message when receiving the message, the service message is divided into the payload unit of the service packet and the packet corresponding to the payload A service packet generator for generating a header by generating a header, a transport header generator for generating the transport header of each of the service packets, and receiving and multiplexing the service packets and the transport headers; It may include a multiplexer for outputting the service data including the service packet.

In this case, the transmission data generation unit, a first channel coding unit for channel coding a service packet in the service data, an interleaving unit for interleaving channel coded service packets, and a first band spreader for spreading the interleaved service packets And a second channel coding unit for channel coding the transmission header in the service data, a second band spreader for spreading the channel coded transmission header, a synchronization spreading code inserting unit for inserting a predetermined synchronization spreading code, and It may include a frame generation unit for generating the transmission data including a synchronization spread code, a spread spectrum transmission header and a spread spectrum service packet.

In this case, the second spreader may be fixed to a predetermined spreading factor (SF), and the first spreader may have a variable SF.

In this case, the metadata may include a service label indicating a name of a service, a service label length indicating a length of the service label, and a data length indicating a total length of the message.

In this case, the packet header may include service identification information for identifying a service required for parsing the same service packet, a service version used for managing a change of a service, a transport packet number indicating the order of the corresponding packet, and the number of the same service packets. It may include a service type indicating the type of services, such as the number of transport packets, disaster messages, text, audio, rich text, and error correction code.

In this case, the transmission header may include information on whether or not the disaster message is included, information on whether or not the disaster is included, protection level information indicating the level of channel coding, and SF information indicating SF used when spreading a service packet among preset SF types. Service number information indicating the number of services included in the service packet, service update information indicating whether there is a change in the service included in the service packet, and an error correction code.

In the broadcast system according to an embodiment of the present invention, a reception apparatus for receiving additional data includes a synchronization unit for extracting a synchronization spreading code from a received signal, and a band spread extended data if the synchronization spreading code is extracted from the synchronization unit. Despreading with the set spreading factor (SF) to obtain a transmission header, the receiving unit confirms the protection level information of the service packet and the SF information used for spreading in the transmission header, and the service packet using the confirmed SF information. Despreading unit for despreading, a demodulation unit for demodulating despreaded service packet, a deinterleaving unit for deinterleaving the demodulated service packet, and deinterleaved service packet by channel decoding by using the protection level information A channel decoding unit for obtaining a packet header and payload, and analyzing the packet header to service messages included in the payload. Decoding unit for decoding comprises a demultiplexer, and the demultiplexed service-specific messages classified.

In this case, the receiver may compensate for the channel through channel estimation before despreading the spread spectrum additional data to a predetermined spreading factor (SF).

In a transmission method for transmitting additional data in a broadcasting system according to an embodiment of the present invention, when a message is received, metadata for the message is generated, and a service message composed of the metadata and the message is a unit of payload of a service packet. Generating a packet header by generating a packet header, generating a transport header of each of the service packets, and generating service data including the transport header and the service packet, and channel coding the service data. Spreading and inserting a preset synchronization code to generate transmission data; modulating the transmission data; and synthesizing the modulated transmission data in addition to the broadcast signal.

In a reception method for receiving additional data in a broadcast system according to an embodiment of the present invention, extracting a synchronous spreading code from a received signal, and if the synchronous spreading code is extracted, pre-spreading the SF (spreading additional data) Despreading to obtain a transmission header, confirming protection level information of the service packet and SF information used for spreading the spectrum in the transmission header, and despreading the service packet using the confirmed SF information And demodulating the despread service packet, deinterleaving the demodulated service packet, and channel decoding the deinterleaved service packet using the protection level information to obtain a packet header and payload. And demultiplexing messages included in a payload by a service by analyzing the packet header. And a step of decoding the service-specific messages.

The present invention proposes a frame structure for transmitting additional data using spread spectrum in a digital broadcasting system, thereby adding and transmitting data for disaster broadcasting and supplementary services to the broadcast signal using spread spectrum without additional channel allocation. Can simultaneously receive additional data together with the broadcast signal.

1 is a block diagram illustrating a configuration of a transmitter for transmitting additional data using spread spectrum in a digital broadcasting system according to an embodiment of the present invention;
2 is a diagram illustrating the structure of a message frame for transmitting additional data according to an embodiment of the present invention;
3 is a block diagram illustrating a configuration of a receiver for receiving spread data spread in a digital broadcasting system according to an embodiment of the present invention;
4 is a flowchart illustrating a process of transmitting additional data using spread spectrum in a transmitting apparatus of a digital broadcasting system according to an embodiment of the present invention;
5 is a flowchart illustrating a process of receiving spread spectrum additional data in a receiving apparatus of a digital broadcasting system according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a configuration of a transmitter for transmitting additional data using spread spectrum in a digital broadcasting system according to an embodiment of the present invention.

Referring to FIG. 1, the transmission apparatus may include a service data generator 110, a transmission data generator 120, a transmission signal generator 130, and a T-DMB transmitter 140.

In this case, the service data generation unit 110 generates the metadata for the message upon receiving the message, divides the service message composed of the metadata and the message into payload units of the service packet and generates a packet header to generate the service packets. In addition, a transport header of each service packet is generated to generate service data including the transport header and the service packet.

The service data generator 110 may include a metadata generator 111, a service packet generator 112, a transmission header generator 113, and a multiplexer 114.

When the metadata generator 111 receives the message, the metadata generator 111 generates metadata about the message. In this case, the metadata may include a service label indicating the name of the service, a service label length indicating the length of the service label, and a data length indicating the total length of the message, as shown in Table 1 below.

Field name Field size (bit) Field meaning Service label length 8 Length of service label Data length 8 The length of the actual data in the last packet Service Label Service label length x 8 Service Name

The service packet generator 112 divides a service message into payload units of a service packet, generates a packet header corresponding to the payload, and generates service packets.

In this case, the packet header includes service identification information for identifying a service required for parsing the same service packet, a service version used for managing a change of service, and a transport packet number indicating the order of the corresponding packet, as shown in Table 2 below. It can be configured to include the number of transport packets indicating the number of the same service packets, a service type indicating a type of service such as a disaster message, text, audio, rich text, and an error correction code.

Field name Field size (bit) Field meaning Service ID 5 Information to identify the same service needed to parse the same service packet Service version 3 Manage change in services
Can be used similarly to TPEG
-0 means cancel the service
-8 (maximum value) means the service expires Transport packet number 12 Information indicating the order of the packet Number of packets sent 12 Maximum transfer file size (assuming frame 50B)
2 ^ 12 * (50B-11B) = 156 KB Type of service 3 0: Disaster Message
1: text
2: audio
3: HTML (Rich Text) CRC 16 Error Correction Code RFU 5 Reserved for future use

The transmission header generator 113 generates a transmission header of each service packet. In this case, the transmission header is used to spread the service packet among information such as information on whether or not the disaster message is included, protection level information indicating channel coding level, protection level information indicating channel coding level, and a predetermined SF type. SF information indicating the SF, service number information indicating the number of services included in the service packet, service update information indicating whether there is a change in the service included in the service packet, and an error correction code.

Field name Field size (bit) Field meaning Disaster 2 Whether there is a disaster message in the current transmission frame Protection Level 3 Type of transport channel coding Payload SF Length 2 4 types (SF: Spreading Factor) Service count 3 Up to 8 services available Service renewal One Change this value when there is a change in service
Payload starts parsing when this value changes CRC 16 Error Correction Code RFU 5 Reserved for future use

The multiplexer 114 receives and multiplexes the service packets and the transmission headers and outputs the service data including the transmission header and the service packet to the transmission data generation unit 120.

The transmission data generator 120 channel-codes and spreads the service data, and inserts a preset synchronization code to generate the transmission data.

The transmission data generating unit 120 includes a first channel coding unit 121, an interleaving unit 122, a first band spreading unit 123, a second channel coding unit 124, a second band spreading unit 125, A sync spread code inserter 126 and a frame generator 127 may be included.

The first channel coding unit 121 channels the service packet from the service data.

The interleaving unit 122 interleaves the channel coded service packets.

The first spreader 123 spreads the interleaved service packets. In this case, the first spreader 123 may variably apply a spreading factor (SF) used when spreading the interleaved service packets.

The second channel coding unit 124 channel codes the transmission header in the service data.

The second band spreader 125 spreads the channel-coded transmission header using a predetermined spreading factor (SF).

The sync spread code inserting unit 126 outputs a preset sync spread code to be inserted into the frame.

The frame generation unit 127 generates transmission data including a synchronization spread code, a spread spectrum header and a spread spectrum service packet.

The transmission signal generator 130 may generate a transmission signal combined with a broadcast signal, and may include a modulator 131, a power controller 132, and a signal synthesizer 133.

The modulator 131 modulates the transmission data.

The power control unit 132 adjusts the signal size of the modulated transmission data.

The signal synthesizer 133 synthesizes the modulated transmission data in addition to the broadcast signal generated by the T-DMB transmitter 140.

The T-DMB transmitter 140 broadcasts the signal synthesized by the signal synthesizer 133.

2 illustrates a structure of a message frame for transmitting additional data according to an embodiment of the present invention.

Referring to FIG. 2, when a message is received, metadata is added to the message, and a service message composed of the message and the metadata is composed of payloads of the service packet. Thereafter, it can be confirmed that the transmission header and the synchronization spreading code are inserted into each of the service packets to form a frame.

3 is a diagram illustrating a configuration of a receiver for receiving spread data spread in a digital broadcasting system according to an embodiment of the present invention.

Referring to FIG. 3, the receiver may include a T-DMB receiver 310 and an additional data receiver 320.

The additional data receiver 320 includes a synchronizer 321, a receiver 322, a despreader 323, a demodulator 324, a deinterleaver 325, a channel decoder 326, and a demultiplexer 327. And a decoder 328.

The synchronizer 321 extracts a sync spread code from the received signal.

When the receiver 322 extracts the synchronization spreading code from the synchronizer 321, the spreader despreads the spread spectrum data to a predetermined spreading factor (SF) to obtain a transmission header, and the protection header information of the service packet is transmitted from the transmission header. And SF information used for spread spectrum.

The despreader 323 despreads the service packet using the identified SF information.

Demodulator 324 demodulates the despread service packet.

The deinterleaving unit 325 deinterleaves the demodulated service packet.

The channel decoding unit 326 channel-decodes the deinterleaved service packet using the protection level information to obtain a packet header and a payload.

The demultiplexer 327 analyzes the packet header to classify the messages included in the payload by services.

The decoder 328 decodes the demultiplexed message for each service.

Hereinafter, a method of adding and transmitting data for disaster broadcasting and additional services to a broadcast signal using spread spectrum without additional channel allocation according to the present invention configured as described above will be described with reference to the accompanying drawings.

4 is a flowchart illustrating a process of transmitting additional data using spread spectrum in a transmission apparatus of a digital broadcasting system according to an embodiment of the present invention.

Referring to FIG. 4, in operation 410, the transmitting apparatus generates metadata about a message.

In operation 412, the transmitter divides the service message into payload units of the service packet, generates a packet header corresponding to the payload, and generates service packets.

In operation 414, the transmitting apparatus generates a transmission header of each service packet.

In operation 416, the transmitting apparatus receives and multiplexes the service packets and the transmission headers and generates service data including the transmission header and the service packet.

In operation 418, the transmitting apparatus channel codes, interleaves, and spreads the service packets on the service data. In this case, a spreading factor (SF) used when spreading interleaved service packets may be varied.

In operation 420, the transmitting apparatus channel codes the transmission header from the service data and spreads the bandwidth using a predetermined spreading factor (SF).

In operation 422, the transmitter inserts a predetermined synchronization spreading code to generate transmission data including a synchronization spreading code, a spread spectrum header, and a spread spectrum service packet.

In operation 424, the transmitter modulates the transmission data.

In operation 426, the transmitter adds the modulated transmission data to the broadcast signal, synthesizes the broadcast signal, and broadcasts the synthesized signal.

5 is a flowchart illustrating a process of receiving spread spectrum additional data in a receiving apparatus of a digital broadcasting system according to an embodiment of the present invention.

Referring to FIG. 5, in operation 510, the receiving apparatus extracts a sync spread code from the received signal.

In operation 512, when the synchronization spreading code is extracted, the reception apparatus estimates a channel using the synchronization spreading code and compensates the channel using the estimated channel.

In operation 514, the receiving apparatus despreads the spread data, which is spread in the spread spectrum, to a predetermined spreading factor (SF) to obtain a transmission header.

In operation 516, the receiving apparatus checks protection level information of the service packet and SF information used for spreading the spectrum in the transmission header.

The receiving apparatus despreads the service packet using the SF information identified in step 518.

In operation 520, the receiving device demodulates the despread service packet.

In operation 522, the receiving apparatus deinterleaves the demodulated service packet.

In operation 524, the receiving device performs channel decoding on the deinterleaved service packet using the protection level information to obtain a packet header and a payload.

In operation 525, the receiving apparatus analyzes the packet header and demultiplexes messages included in the payload for each service.

In operation 528, the receiving device decodes the demultiplexed message for each service.

The methods according to embodiments of the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

Claims (17)

Upon receipt of the message, metadata for the message is generated, the service message composed of the metadata and the message is divided into payload units of a service packet, a packet header is generated to generate service packets, and each of the service packets is generated. A service data generator configured to generate a transport header of the service data to generate service data including the transport header and the service packet;
A transmission data generation unit for channel coding and spreading the service data and inserting a predetermined synchronization calculation code to generate transmission data;
A modulator for modulating the transmission data; And
And a signal synthesizing unit for synthesizing the modulated transmission data in addition to the broadcast signal.
A transmitter for transmitting additional data in a broadcasting system.
The method of claim 1,
The service data generation unit,
A metadata generator for generating the metadata for the message upon receiving the message;
A service packet generator for dividing the service message into payload units of a service packet and generating the service packets by generating the packet header corresponding to the payload;
A transmission header generator configured to generate the transmission header of each of the service packets; And
And a multiplexer configured to receive and multiplex the service packets and the transport headers and output the service data including the transport header and the service packet.
A transmitter for transmitting additional data in a broadcasting system.
The method of claim 1,
The transmission data generation unit,
A first channel coding unit for channel coding a service packet in the service data;
An interleaving unit for interleaving channel coded service packets;
A first spreader for spreading the interleaved service packets;
A second channel coding unit for channel coding a transmission header in the service data;
A second spreader for spreading the channel-coded transmission header;
A synchronization spreading code inserting unit for inserting a predetermined synchronization spreading code; And
And a frame generation unit for generating the transmission data including the synchronization spreading code, the spread spectrum transmission header, and the spread spectrum service packet.
A transmitter for transmitting additional data in a broadcasting system.
The method of claim 3,
The second spread spectrum unit,
Preset Spreading Factor (SF) is fixed,
The first spread spectrum unit,
Characterized in that the SF can be varied
A transmitter for transmitting additional data in a broadcasting system.
The method of claim 1,
The metadata,
A service label indicating the name of the service,
A service label length indicating a length of the service label,
A data length representing the total length of the message,
A transmitter for transmitting additional data in a broadcasting system.
The method of claim 1,
The packet header,
Service identification that identifies the service needed to parse the same service packet,
Service version used to manage changes to the service,
Transport packet number indicating the order of the packet,
The number of transport packets indicating the number of the same service packets,
Service type indicating the type of service, such as disaster message, text, audio, rich text,
Error correction code
A transmitter for transmitting additional data in a broadcasting system.
The method of claim 1,
The transfer header,
Information indicating whether or not a disaster message is included
Protection level information indicating the level of channel coding,
SF information indicating an SF used when spreading a service packet among preset types of SF,
Service number information indicating a number of services included in the service packet,
Service update information indicating whether there is a change in a service included in the service packet,
Error correction code
A transmitter for transmitting additional data in a broadcasting system.
A synchronization unit for extracting a synchronization spreading code from the received signal;
When the synchronization spreader extracts the synchronization spreading code, the spread spectrum is despread with a predetermined spreading factor (SF) to obtain a transmission header, and the transmission header is used for protection level information and bandwidth spread of the service packet. Receiving unit for checking the SF information;
A despreader which despreads the service packet using the identified SF information;
A demodulator for demodulating the despread service packet;
A deinterleaving unit for deinterleaving the demodulated service packet;
A channel decoding unit for channel decoding a deinterleaved service packet using the protection level information to obtain a packet header and a payload;
A demultiplexer which analyzes the packet header and classifies messages included in a payload for each service; And
Decoding unit for decoding the demultiplexed message for each service
Receiving apparatus for receiving additional data in the broadcast system.
9. The method of claim 8,
The receiver may further comprise:
Channel compensation is performed through channel estimation before despreading the spread spectrum additional data to a predetermined spreading factor (SF).
Receiving apparatus for receiving additional data in the broadcast system.
9. The method of claim 8,
The transfer header,
Information indicating whether or not a disaster message is included
Protection level information indicating the level of channel coding,
SF information indicating an SF used when spreading a service packet among preset types of SF,
Service number information indicating a number of services included in the service packet,
Service update information indicating whether there is a change in a service included in the service packet,
Error correction code
Receiving apparatus for receiving additional data in the broadcast system.
9. The method of claim 8,
The packet header,
Service identification that identifies the service needed to parse the same service packet,
Service version used to manage changes to the service,
Transport packet number indicating the order of the packet,
The number of transport packets indicating the number of the same service packets,
Service type indicating the type of service, such as disaster message, text, audio, rich text,
Error correction code
Receiving apparatus for receiving additional data in the broadcast system.
Upon receipt of the message, metadata for the message is generated, the service message composed of the metadata and the message is divided into payload units of a service packet, a packet header is generated to generate service packets, and each of the service packets is generated. Generating a transmission header of the service data to generate service data including the transmission header and the service packet;
Channel coding and spreading the service data and inserting a predetermined synchronization code to generate transmission data;
Modulating the transmission data; And
Synthesizing the modulated transmission data in addition to the broadcast signal;
A transmission method for transmitting additional data in a broadcasting system.
The method of claim 12,
Generating the service data,
Generating the metadata for the message upon receiving the message;
Generating the service packets by dividing the service message into payload units of a service packet and generating the packet header corresponding to the payload;
Generating the transport header of each of the service packets; And
Receiving and multiplexing the service packets and the transport headers and outputting the service data including the transport header and the service packet.
A transmission method for transmitting additional data in a broadcasting system.
The method of claim 12,
Generating the transmission data,
Channel coding a service packet in the service data;
Interleaving channel coded service packets;
Spreading the interleaved service packets;
Channel coding a transmission header in the service data;
Spreading the channel coded transmission header;
Inserting a preset synchronization spreading code; And
Generating the transmission data including the synchronization spread code, the spread spectrum header and the spread spectrum service packet;
A transmission method for transmitting additional data in a broadcasting system.
15. The method of claim 14,
Spreading the channel-coded transmission header,
Spread spectrum using a predetermined spreading factor (SF),
Spreading the interleaved service packets,
Spread spectrum using SF which can be variable
A transmission method for transmitting additional data in a broadcasting system.
Extracting a synchronization spreading code from the received signal;
When the synchronization spreading code is extracted, despreading the spread spectrum additional data using a predetermined spreading factor (SF) to obtain a transmission header;
Confirming protection level information of a service packet and SF information used for spread spectrum in the transmission header;
Despreading the service packet using the identified SF information;
Demodulating the despread service packet;
Deinterleaving the demodulated service packet;
Channel decoding the deinterleaved service packet using the protection level information to obtain a packet header and a payload;
Analyzing the packet header to demultiplex messages included in a payload for each service; And
Decrypting the demultiplexed service-specific message;
Receiving method for receiving additional data in a broadcasting system.
17. The method of claim 16,
Before acquiring the transmission header,
Estimating a channel using the synchronization spreading code and compensating for the channel using the estimated channel.
Receiving method for receiving additional data in a broadcasting system.

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