KR101288455B1 - In dmb the mpeg-4 audio service protection system and its operating methods - Google Patents

Abstract

The present invention relates to an MPEG-4 audio service protection system and a method of operating the same in DMB. When applying a sub-channel CA method for protecting a DMB audio service supporting an MPEG-4 audio codec, In order to prevent corruption of the data code part for error detection and correction, the MPEG-4 audio service protection system and its operation method in DMB for performing scrambling after the corresponding preprocessing operation according to the type of DMB audio data inputted will be

Description

MBD-4 audio service protection system and its operating methods in DMV

The present invention relates to an MPEG-4 audio service protection system and a method of operating the same in DMB. When applying a sub-channel CA method for protecting a DMB audio service supporting an MPEG-4 audio codec, In order to prevent corruption of the data code part for error detection and correction, the MPEG-4 audio service protection system and its operation method in DMB for performing scrambling after the corresponding preprocessing operation according to the type of DMB audio data inputted will be.

Terrestrial DMB (Digital Multimedia Broadcasting) service is a service that can receive CD-quality high-quality radio, TV, video and text broadcasting anytime and anywhere on the go. It is based on the European Eureka-147 Digital Audio Broadcasting (DAB) system. European DAB systems have evolved into audio and data services, with the approach of digitizing existing AM / FM radio broadcasts. In Korea, MPEG-2 TS (Transport Stream) is used through DAB Stream Mode Data Channel for mobile communication and mobile multimedia services, and H.264 video coding and Bit Sliced Arithmetic Coding (BSAC) audio, which is a multimedia compression technology, is used on the upper layer. Encoding technique was applied.

Codec for audio service of DAB system was standardized in 1993 using MPEG-1 Audio Layer II, and recently standardized to include MPEG-2 Layer II codec according to DAB Standrad ETSI EN 300 401. Later, as codec technology evolved, codecs were developed to provide better quality at a lower bit rate than MPEG-1 Layer II. Investigating whether MPEG-1 Layer II is still the right choice for DAB systems. Started. The result is a DAB + system that is based on the existing DAB standard system but uses an efficient audio codec called MPEG-4 HE AAC v2.

The MPEG-2 Layer II audio codec provides 48 kHz and 24 kHz sampling rates, delivering each Audio Frame for 24 kHz or 48 kHz, which is delivered in one or two DAB logical frames. On the other hand, according to the ETSI TS 120 563 specification, which describes the MPEG-4 HE AAC v2 delivery method, the new audio codec MPEG-4 HE AAC v2 offers 48㎑, 32㎑, 24㎑ or 16㎑ sampling rates and Deliver frame for 20ms, 30ms, 40ms or 60ms. For simplicity of synchronization with an architectural model similar to MPEG-2 Layer II audio, these Audio Frames consist of five DAB logical frames to create an Audio Super Frame that delivers for 120 ms. Meanwhile, Reed-Solomon Coding and virtual interleaving are applied to the existing DAB in addition to audio error protection.

1 is a block diagram showing the structure of an Audio Super Frame. It shows the structure of Audio Super Frame described in ETSI TS 102 563 standard, which has one header, multiple AU (Access Unit) and its Cyclic Redundancy Check (CRC) pair. It consists of.

2 is a flowchart illustrating a DAB + audio service according to the prior art. As shown in FIG. 2, a scrambler that is in charge of encryption is generally present before or in the multiplexer, but according to the input / output configuration of DAB system equipment, as shown in FIG. 2, the flow of DAB + audio service The scrambler may be present at any one of the positions.

In other words, MPEG-4 audio data is encoded by HE ACC v2 Audio Coder (S110), and encoded audio data is subjected to Audio Super Framing (S120), and then Reed-Solomon Coding by Reed-Solomon Coder and Virtual Interleaver. And virtual interleaving are applied (S130) and output by the multiplexer (S140).

Meanwhile, in order to protect (encrypt) the service delivered through the DAB system, the ETSI TS 102 367 standard defines a specification for a shared scrambling method called DAB CA (Conditional Access) and a CA system. This specification defines three scrambling methods and a conditional message delivery method of Sub-channel CA, Data Group CA, and Multimedia Object Transfer (MOT) CA. In order to protect audio service delivered in Sub-channel format, Sub-channel CA method should be applied. The sub-channel CA method scrambles (or encrypts) an entire sub-channel frame. In order to deliver CA message, CA message is placed in SUBCAPrefix (Sub-channel Conditional Access Prefix) data structure and placed in front of encrypted frame.

A problem occurs when applying the sub-channel CA method defined in ETSI TS 102 367 to protect DAB + audio service supporting MPEG-4 HE AAC v2 codec. The first problem is that the parity word of 10 bytes created by applying Reed-Solomon Coding and the CRC code of the Access Unit are damaged due to the encryption. This is because even the data code part for error detection and correction is encrypted.

The second problem is the inefficiency that the receiving terminal must perform decoding to synchronize the Audio Super Frame consisting of five DAB logical frames.

The present invention devised to solve the problems of the prior art as described above, when encrypting the input audio data converted into various forms in the scrambler (scrambler), after performing decoding according to the applied form, respectively, to proceed with the encryption operation The purpose is to provide a scrambler that can.

In addition, the present invention analyzes the audio super frame of the audio data input to which the audio super framing is applied to detect the CRC code of the access unit, and then excludes the scrambling (or encryption) of the data code part for error detection and correction. In other words, there is another purpose to prevent the access unit from corrupting the CRC code.

In addition, the present invention has another object of re-correcting the CRC code and the parity word after scrambled audio data as well as preventing damage of the CRC code of the access unit.

In addition, the present invention, after scrambling the input audio data is converted into a variety of forms, according to the specified output method, the audio data in the Access Unit form, the audio data in the form of Reed-Solomon Coding or Reed-Solomon not applied Reed-Solomon Another purpose is to convert and output audio data of Audio Super Frame type to which Coding is applied.

Another object of the present invention is to scramble audio data using a control word generated in a CA system.

In addition, the present invention analyzes the DAB signal that is converted into various forms to the DMB terminal and performs a decoding operation suitable for audio data to which at least one of the received Reed-Solomon Coding or Audio Super Frame is applied, Another object is to provide audio data to a user by descrambling decoded audio data using a control word.

An object of the present invention is to provide an input data processor for receiving encoded audio data and an audio data encoded from the input data processor in order to perform decoding in a DMB server of an MPEG-4 audio service protection system in DMB. An input data converter, a scrambling processor for scrambled the audio data decoded by the input data converter, an output data converter for receiving the scrambled audio data, and converting the audio data into a predetermined audio data type and the predetermined audio data type In the DMB comprising an output data processor for transmitting the converted audio data to a multiplexer and a data processing controller for controlling the input data processor, the scrambling processor and the output data processor Achieved by an audio data scrambler for an MPEG-4 audio service protection system.

In addition, another object of the present invention in the DBM server operating method of the MPEG-4 audio service protection system in the DMB, the type of the input audio data is analyzed by the input data processing unit and transmitted to either the input data conversion unit or scrambling processing unit. A first step and a second step of decoding the audio data by the input data converter; and a third step of scrambling the decoded audio data by the scrambling processing unit and the output data of the scrambled audio data. A fourth step of transmitting to the output data converter or an output data processor, and a fifth step of converting the audio data into a predetermined audio data by the output data converter and the audio data converted into the predetermined audio data. Above output Audio data for the MPEG-4 audio service in the DMB system protection comprising a sixth step of outputting data from the processor bus is achieved by a clamp wobbling method.

Another object of the present invention is a DMB terminal of an MPEG-4 audio service protection system in a DMB, wherein the DAB signal analyzer and DAB signal analyzer are configured to extract audio data by analyzing a DAB signal transmitted from a DMB server. Receiving the extracted audio data and receiving and outputting a descrambling processing unit for descrambling the audio data decoded from the reception data conversion unit for decoding the audio data and the descrambled audio data Is achieved by an audio data descrambler for an MPEG-4 audio service protection system in a DMB which comprises an audio data output section for the same.

Another object of the present invention is to provide a method for operating a DBM terminal of an MPEG-4 audio service protection system in DMB, wherein the DAB signal analyzer extracts audio data from a DAB signal received from a DMB server and transmits the audio data to a received data converter. Step 1 and the second step of decoding the audio data in the received data converter receiving the extracted audio data, and then transmitting to the descrambling processing unit and the descrambling processing unit receiving the decoded audio data received from the CAS client And a third step of descrambling the audio data using a control word and then transmitting the decoded audio data to an audio data output unit and a fourth step of outputting the audio data to the descrambled audio data output unit. To protect MPEG-4 audio services in DMB It is achieved by the audio data disk clamp wobbling method for the system.

Therefore, in the DMB of the present invention, the MPEG-4 audio service protection system and its operation method are converted into various forms and when the inputted audio data is encrypted by a scrambler, the decoding is performed according to the applied form. There is an effect that can work.

In addition, the present invention analyzes the audio super frame of the audio data input to which the audio super framing is applied to detect the CRC code of the access unit, and then excludes the scrambling (or encryption) of the data code part for error detection and correction. In other words, there is another effect that can prevent the access unit from corrupting the CRC code.

In addition, the present invention not only prevents damage of the CRC code of the access unit, but also has another effect of preventing damage or loss of the audio data by recalibrating the CRC code and the parity word after scrambling the audio data. have.

In addition, the present invention has another effect of outputting the converted audio data by applying one or more decoding methods according to a specified output method after scrambling the input and converted audio data in various forms.

In addition, the present invention has another effect of safely protecting the audio data by scrambling the audio data using the control word generated in the CA system.

In addition, the present invention analyzes the DAB signal that is converted into various forms to the DMB terminal and performs a decoding operation suitable for audio data to which at least one of the received Reed-Solomon Coding or Audio Super Frame is applied, There is another effect of providing audio data to a user by descrambling decoded audio data using a control word.

1 is a configuration diagram showing the structure of an Audio Super Frame;
2 is a flowchart illustrating a DAB + audio service according to the prior art;
3 is a block diagram showing a DMB system for providing a DMB service according to the present invention;
4 is a block diagram showing an audio data scrambler according to the present invention;
5 is a flowchart illustrating a scrambling method of audio data according to the present invention;
6 is a block diagram illustrating an audio data descrambler in a DMB terminal according to the present invention;
7 is a flowchart illustrating a descrambling method of audio data in a DMB terminal according to the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

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

3 is a block diagram showing a DMB system for providing a DMB service according to the present invention. As shown in FIG. 3, DMB (Digital Multimedia Broadcasting) data input in real time by a broadcasting program is divided into a video signal, an audio signal, and a data broadcasting signal. The video encoder 100 is delivered, the audio signal is delivered to the audio encoder 300, and the data broadcast signal is delivered to the data encoder 500.

Each encoder (100, 300, 500) encodes each received signal, and transmits each encoded signal to a corresponding scrambler (200, 400, 600). That is, the video encoder 100 transmits the encoded video data to the video scrambler 200, the audio encoder 300 transmits the encoded audio data to the audio scrambler 400, and the data encoder 500 transmits the data scrambler. The encoded data broadcast data is transmitted to the 600.

Thereafter, each scrambler 200, 400, 600 scrambles the received video data, audio data, and data broadcast data, and transmits the scramblers 200, 400, and 600 to the multiplexer 700.

The multiplexer 700 recombines the scrambled video data, audio data, and data broadcast data and transmits them to the transmitter 800 for broadcast transmission.

4 is a block diagram illustrating an audio data scrambler according to the present invention. As illustrated in FIG. 4, the audio data scrambler receives audio data, which is converted into various forms and input, by the input data processor 405.

The input data processor 405 may analyze the received audio data and determine the converted audio data types. The input audio data can be divided into audio data in the form of an access unit, audio super frame type audio data without reed-solomon coding, and audio super frame type audio data with reed-solomon coding.

Meanwhile, the audio data input to the input data processor 405 may be input by a specific protocol (for example, an ensemble transport interface (ETI), a service transport interface (STI), or a UDP / IP scheme). The protocol is set according to the control of the data processing control unit 425 and filtered by the input data processing unit 405.

The data processing control unit 425 designates and controls the transfer data type between components for processing audio data, and thus, scrambling in the scrambling processing unit 420 and audio in the input data conversion units 410 and 415. Decoding control of Super Framing, Reed-Solomon Coding and Virtual Interleaving is performed.

The input data processor 405 determines whether the type of the input audio data corresponds to one of an Access Unit, an Audio Super Frame to which Reed-Solomon Coding is not applied, or an Audio Super Frame to which Reed-Solomon Coding is applied.

If the audio data input to the input data processor 405 is in the form of an Access Unit to which Audio Super Framing and Reed-Solomon Coding is not applied, the input data processor 405 sends the input audio data to the scrambling processor 420. send.

If the audio data input to the input data processor 405 is in the form of an Audio Super Frame to which Reed-Solomon Coding is not applied, the input data processor 405 converts the input audio data into the second input data converter 415. To send.

If the audio data input to the input data processor 405 is in the form of an audio super frame to which Reed-Solomon Coding is applied, the input data processor 405 transmits the input audio data to the first input data converter 410. do.

The first input data converter 410 receives and decodes audio data in the form of Audio Super Frame to which Reed-Solomon Coding is applied. The decoding of the first input data converter 410 performs virtual de-interleaving on the input audio data, and detects and corrects parity words generated by the Reed-Solomon Coding technique. Thereafter, the first input data converter 410 transmits the decoded audio data in the form of Audio Super Frame to the second input data converter 415.

The second input data converter 415 receives the audio data in the form of Aduio Super Frame to which the Reed-Solomon Coding transmitted from the first input data converter 410 or the input data processor 405 is not applied. The audio super frame is analyzed for the audio data, and a cyclic redundancy check (CRC) check is performed for each access unit. After the CRC check, the second input data converter 415 transmits the audio data to the scrambling processor 420 in the form of an audio super frame or an access unit.

When the second input data converter 415 transmits the audio data to the scrambling processing unit 420 after the CRC check, the output form of the scrambled audio data scrambled by the scrambling processing unit 420 is specified as an Access Unit form or scrambling. When the first audio data conversion unit 445 converts the audio data into the form of an audio super frame, the audio data transmitted to the scrambling processor 420 is converted into an access unit rather than an audio super frame. .

The control word generator 430 generates a control word, which is an encryption key for scrambling the audio data input to the scrambling processor 420.

The synchronization unit 435 receives the control word generated by the control word generation unit 430 and delivers the received control word to the conditional access service unit 440 to provide an Entitlement Control Message (ECM) and an EMM (EMM) for the control word. The CA message including the Entitlement Management Message) is received from the CA service unit 440 and the received CA message and the control word are transmitted to the scrambling processing unit 420.

The scrambling processing unit 420 performs scrambling on the input audio data using the control word received from the synchronization unit 435. The scrambling processing unit 420 uses the access unit type audio data or the audio super frame type audio data received by the input data processing unit 405 or the second input data conversion unit 415 by using a symmetric key encryption algorithm such as AES. Encrypt In this case, when protection of the Audio Super Frame header is required, the header portion of the Audio Super Framer may be encrypted as well as the access unit.

The scrambling processor 420 selects either the first output data converter 445 or the output data processor 455 to transfer the encrypted audio data under the control of the data processing controller 425.

If the output form of the scrambled audio data is in the form of an access unit, the scrambling processing unit 420 transmits the scrambled access unit type audio data to the output data processing unit 455 and through the output data processing unit 455, the multiplexer. Output to (not shown).

If the output form of the scrambled audio data is in the form of an Audio Super Frame to which Reed-Solomon Coding is not applied, the scrambling processing unit 420 may be in the form of an scrambled Access Unit or an Audio Super Frame to which Reed-Solomon Coding is not applied. The audio data is transmitted to the first output data converter 445, and the first output data converter 445 converts the audio data into an audio super frame type by applying audio super framing to the audio data of the access unit. The data processor 455 may be output to a multiplexer (not shown).

In addition, when the scrambling processing unit 420 transmits audio super frame-type audio data to which the Reed-Solomon Coding is not applied, to the first output data converter 455, the first output data converter 455 may be input. The audio super frame included in the audio super frame type audio data is reused, and the converted audio super frame type audio data can be output to a multiplexer (not shown) through the output processor 455.

If the output form of the scrambled audio data is a form in which Audio Super Framing and Reed-Solomon Coding are applied, the scrambling processing unit 420 transfers the scrambled access unit type audio data to the first output data conversion unit 455. By applying Audio Super Framing to the audio data in the Access Unit form to convert to Audio Super Frame-type audio data, the first output data converter 455 converts the converted Audio Super Frame-type audio data to the second output data Transmitting to the 450 to convert the audio data in the form of Audio Super Frame to which Reed-Solomon Coding is applied by applying Virtual Interleaving and Reed-Solomon Coding to be output to the multiplexer (not shown) through the output data processor 455. Make sure

Meanwhile, the scrambling processing unit 420 may transmit the CA message transmitted from the synchronization unit 435 together with the scrambled audio data according to the command of the data processing control unit 425.

When the scrambling processing unit 420 delivers audio data in the form of Audio Super Frame, the first output data converter 445 performs Audio Super Framing by reusing the audio super frame of the transmitted audio data, and performs audio in the form of an access unit. In case of data transmission, audio super framing is performed directly.

The second output data converter 450 performs virtual interleaving on the input audio super frame type audio data, generates a parity word by applying reed-solomon coding, and then reed-solomon The audio data of the audio super frame type to which the coding is applied is transmitted to the output data processor 455. At this time, the audio data in the form of Audio Super Frame to which Reed-Solomon Coding is applied includes the audio data in the form of Audio Super Frame and a parity word.

The output data processor 455 outputs the scrambled audio data by the scrambling processor 420 in a specific protocol (for example, ETI, STI, or UDT / IP scheme) designated by the data processing controller 425.

5 is a flowchart illustrating a method of scrambling audio data according to the present invention. As shown in FIG. 5, encoded audio data input through the input data processor is analyzed by the data processing controller in the input data processor (S205).

In the analysis of audio data, the data processing control unit analyzes audio data input to the input data processing unit using a specific protocol (for example, an ensemble transport interface (ETI), a service transport interface (STI), or a UDP / IP method) and inputs the data. The classified audio data is classified into three types, and the audio data is delivered to the sub device according to each classified type.

The three types of audio data are firstly audio data in the form of Access Unit without Audio Super Framing and Reed-Solomon Coding, and secondly audio data in the form of Audio Super Frame without Reed-Solomon Coding. It can be classified into audio data in the form of Audio Super Frame with both Audio Super Framing and Reed-Solomon Coding applied.

In operation S205, when the audio data input to the input data processor is analyzed and the type of the input audio data is an Access Unit type (S210), the input audio data is transmitted to the scrambling processor.

In addition, when the audio data input by analyzing the audio data input to the input data processor in step S205 is in the form of an audio super frame to which Reed-Solomon Coding is not applied (S215), the input audio data is converted into second input data. Send to the converter.

In operation S205, when the audio data input to the input data processor is analyzed and the input audio data is in the form of Audio Super Frmae to which Reed-Solomon Coding is applied (S220), the input audio data is transferred to the first input data converter. send.

If the audio data input from the input data processor is in the form of an access unit (S210), the input data processor transmits the input audio data to the scrambling processor (S240).

If the audio data input to the input data processor is in the form of an audio super frame to which Reed-Solomon Coding is not applied (S215), the input data processor transmits the input audio data to the second input data converter and the second input. The data converter decodes the audio data in the form of Audio Super Frame to which the input Reed-Solomon Coding is not applied (S230).

In operation S230, an audio super frame of audio data of an audio super frame type input to the second input data converter is analyzed to perform a cyclic redundancy check (CRC) check for each access unit. Thereafter, the second input data converter transmits the audio data in the form of Audio Super Frame, which has completed the CRC check, to the scrambling processor (S240).

On the other hand, when the output of the audio data in the scrambling processing unit is specified as the audio data of the Access Unit type, the second input data converter analyzes the Audio Super Frame of the input audio data and performs a CRC check for each Access Unit, then Audio It is preferable to convert the audio data of the Super Frame type into the audio data of the Access Unit type and transmit the converted audio data to the scrambling processing unit.

If the audio data input to the input data processor is in the form of an audio super frame to which Reed-Solomon Coding is applied (S220), the input data processor transmits the input audio data to the first input data converter to perform Reed-Solomon Coding. By decoding, Reed-Solomon Coding is converted to audio data in the form of Audio Super Frame in which release is performed (S225). The decoding of the audio data in the form of Reed-Solomon Coding is performed by performing a Vertual De-interleaver on the audio data input by the first input data converter, and parity words of the audio data generated by the Reed-Solomon Coding technique. Check and perform error detection and correction.

Subsequently, the audio super frame type audio data converted by decoding the reed-solomon coding form is transmitted to the second input data converter, and the audio super frame type audio data is decoded and converted into audio data of the access unit type (S230). ).

The second input data converter, which receives audio data in the form of Audio Super Frame from the first input data converter, analyzes the Audio Super Frame of the transmitted audio data and performs CRC check on each Access Unit. Thereafter, the audio data in the form of Audio Super Frame, which has completed the CRC test, is transmitted to the scrambling processing unit (S240).

On the other hand, when the output of the audio data in the scrambling processing unit is specified as the audio data of the Access Unit type, the second input data converter analyzes the Audio Super Frame of the input audio data and performs a CRC check for each Access Unit, then Audio It is preferable to convert the audio data of the Super Frame type into the audio data of the Access Unit type and transmit the converted audio data to the scrambling processing unit (S240).

The scrambling processor performs scrambling on the audio data transmitted from either the input data processor or the second input data converter (S245).

Scrambling is preferably carried out through the following process.

When the control word generator provided in the scrambler generates a control word which is an encryption key for scrambling and transmits the generated control word to the synchronizer, the synchronizer transmits the generated control word to the CA.

The CA receives a CA message including at least one of an Entitlement Control Message (ECM) or an Entitlement Management Message (EMM) using the transmitted control word, and transmits the generated CA message to the synchronizer.

The synchronization unit transmits the control word generated by the control word generator and the CA message generated by the CA service unit to the scrambling processing unit.

Thereafter, the scrambling processor performs scrambling on the input audio data using the received control word. The scrambling processing unit preferably encrypts the audio data in the form of an access unit using a symmetric key encryption algorithm such as AES (Advanced Encryption Standard), but encryption is not limited thereto. In addition, if necessary, such as protecting the Audio Super Frame header, the header of the Audio Super Framer may be encrypted as well as the access unit.

The scrambling processor performs encryption of the input audio data using the control word transmitted from the synchronization unit, and then selects either the first output data converter or the output data processor to transmit the scrambled audio data (S250).

The first output data converter or the output data processor to transmit the scrambled audio data by the scrambling processor may be selected according to the output type of the audio data.

If the output form of the scrambled audio data in the scrambling processing unit is designated as an Access Unit form (S255), the scrambling processing unit transmits the scrambled audio data to the output data processing unit.

If the output form of the scrambled audio data in the scrambling processing unit is designated as an Audio Super Frame form without Reed-Solomon Coding applied (S260), the scrambling processing unit transmits the scrambled audio data to the first output data converter. The first output data converter performs audio super framing on the transmitted audio data and converts the audio data into an audio super frame type (S270).

Audio Super Framing may be performed differently according to the type of scrambled audio data transmitted to the first output data converter as follows.

That is, the form of audio data transmitted from the scrambling processor to the first output data converter may be input in the form of a scrambled access unit according to a form specified by the data processing controller, or may be input in the form of a scrambled audio super frame.

First, when the scrambled audio data is input in the form of an access unit, the first output data converter performs audio super framing on the input audio data and converts the access unit type into audio super frame format.

Second, when the scrambled audio data is input in the form of an audio super frame, the first output data converter performs audio super framing by reusing the audio super frame included in the audio data.

The first output data converter calculates a CRC for each Access Unit included in the converted Audio Super Frame in the first or second case and overwrites the corresponding AU_CRC [n] portion of the Audio Super Frame. For example, if the AAC core sampling rate is 48 ms, the audio unit part may be changed due to the encryption of the access unit. Therefore, the header_firecode in the header of the audio super frame is recalculated to overwrite the header_firecode.

Thereafter, the first output data converter transmits the encoded audio data to the output data processor.

If the output form of the scrambled audio data in the scrambling processing unit is designated as an Audio Super Frame type to which Reed-Solomon Coding is applied (S265), the scrambling processing unit transmits the scrambled audio data to the first output data conversion unit, and the scrambled audio unit The first output data converter receiving the data performs audio super framing on the transmitted audio data and converts the audio data into audio super frame type (S270).

Thereafter, the first output data converter transmits the audio data converted into the Audio Super Frame format to the second output data converter.

The second output data converter applies Reed-Solomon Coding to the transmitted audio super frame type audio data (S280). That is, the second output data converter performs virtual interleaving on the transmitted audio super frame type audio data, generates a parity word by applying a reed-solomon coding method to the audio data to which virtual interleaving is applied, Audio data in the form of an audio super frame and a parity word are transmitted to the output data processor.

The output data processing unit may designate audio data transmitted from any one of the scrambling processing unit, the first output data conversion unit, or the second output data conversion unit by using a protocol (eg, ETI (Ensemble Transport Interface), STI (Service) Data is output in a transport interface) or a UDP / IP scheme (S285).

6 is a block diagram illustrating an audio data descrambler in a DMB terminal according to the present invention, and FIG. 7 is a flowchart illustrating a method of descrambling audio data in a DMB terminal according to the present invention. As shown in FIGS. 6 and 7, the audio data descrambler 900 analyzes DAB signals transmitted from a DMB server (not shown) and extracts audio data from the DAB signal analyzer 910 and the DAB signal analyzer. A descrambling processing unit for receiving the audio data extracted at 910 and decoding the received audio data, and a descrambling processing unit for descrambling the decoded audio data from the receiving data converters 920 and 930 ( 940, a descrambling processor 940, a CAS client 950 providing a control word used for descrambling audio data, and an audio data output unit 960 for receiving and outputting descrambled audio data. do.

The DAB signal analyzer 910 extracts audio data (sub-channel) including DAB + audio service by analyzing DAB signals received through RF (not shown), baseband (not shown), or demodulator (not shown). Thereafter, the extracted audio data is transmitted to the reception data converters 920 and 930 (S310).

The received data converters 920 and 930 are composed of a first received data converter 920 and a second received data converter 930, and the first received data converter 920 is a DAB signal analyzer 910. Virtual De-interleaving is performed by receiving audio data of the Reed-Solomon Coding type transmitted from and the error detection and correction is performed by checking a parity word made by the Reed-Solomon Coding technique (S320). Thereafter, the audio data in the form of an audio super frame is transmitted to the second reception data converter 930.

The second reception data converter 930 analyzes an audio super frame of audio data in the form of audio super frame transmitted from the first reception data converter 920 to perform a CRC check on each access unit, and a CRC check. After performing the operation, the access units included in the audio super frame are transmitted to the descrambling processing unit 940 (S330).

In this case, when audio super frame header protection or the like is applied to the audio data, the audio data transmitted to the descrambling processing unit 940 is transmitted in the form of an audio super frame rather than an access unit.

The descrambling processing unit 940 receives the control word from the CAS client 950, and descrambles the audio data transmitted from the second received data conversion unit 930 (S340). The descrambling processing unit 940 decrypts the Access Unit using a symmetric key encryption algorithm such as AES. If the Audio Super Frame header protection is applied, the descrambling processing unit 940 can decrypt not only the Access Unit but also the header portion of the Audio Super Frame.

The descrambling processing unit 940 delivers the decoded access unit type audio data to the audio data output unit 960 to provide a DAB + audio service to the user (S350).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Various changes and modifications will be possible.

100: video encoder 200: video scrambler
300: Audio Encoder 400: Audio Scrambler
405: Input data processing unit 410: First input data conversion unit
415: second input data converter 420: scrambling processor
425: data processing control unit 430: control word generation unit
435: synchronization unit 440: CA control unit
445: First output data converter 450: Second output data converter
455: output data processing unit 500: data broadcasting encoder
600: data broadcast scrambler 700: multiplexer
800: Transmitter 900: Audio Descrambler
910: DAB signal analyzer 920: first received data converter
930: second received data converter 940: descrambling processor
950: CAS client 960: audio data output unit

Claims (40)

In DMB to DMB server of MPEG-4 audio service protection system,
An input data processor configured to receive encoded audio data;
An input data converter configured to receive the encoded audio data from the input data processor and perform decoding;
A scrambling processor for scrambling the audio data decoded from the input data converter;
An output data converter for receiving the scrambled audio data and converting the scrambled audio data into a predetermined audio data format;
An output data processor for transmitting the audio data converted into the predetermined audio data form to a multiplexer; And
Data processing controller for controlling the input data processor, the scrambling processor and the output data processor
Audio data scrambler for MPEG-4 audio service protection system in the DMB comprising a.
The method of claim 1,
A control word generation unit for generating a control word which is an encryption key for scrambling the audio data in the scrambling processing unit;
A synchronization unit for transmitting the control word received from the control word generator to a CA, and receiving a CA (Conditional Access) message generated by the CA; And
Conditional reception service unit for generating the CA message using the control word received from the synchronization unit
The CA message is an audio data scrambler for the MPEG-4 audio service protection system in DMB, characterized in that any one or more of an Entitlement Control Message (ECM) or an Entitlement Management Message (EMM).
The method of claim 1,
The input data converter
A first input data converter configured to receive and decode audio data in the form of Audio Super Frame to which Reed-Solomon Coding and Virtual Interleaving are applied by the input data processor; And
A second input data converter configured to receive and decode audio data having an audio super frame form from any one of the input data processor and the first input data converter,
The output data converter
A first output data converter configured to receive audio data scrambled by the scrambling processor and apply Audio Super Framing to the audio data; And
A second output data converter for receiving audio data to which the audio super framing is applied by the first output data converter and applying reed-solomon coding and virtual interleaving
Audio data scrambler for MPEG-4 audio service protection system in the DMB, characterized in that it comprises a.
3. The method of claim 2,
The synchronization unit transmits the control word and the CA message to the scrambling processing unit, and the scrambling processing unit performs scrambling on audio data using the control word received from the synchronization. Audio data scrambler for audio service protection systems.
5. The method of claim 4,
The scrambling processing unit transmits the CA message received from the synchronization unit together with the scrambled audio data to the output data processing unit according to a command of the data processing control unit. Audio data scrambler for.
The method of claim 3, wherein
The input data processing unit receives audio data input by a protocol designated by the data processing control unit, analyzes the received audio data, and scrambling the audio data according to the format of the analyzed audio data. The audio data scrambler for the MPEG-4 audio service protection system in the DMB, characterized in that transmitted to either the input data converter or the second input data converter.
The method according to claim 6,
The input data processing unit
If the analyzed audio data is Access Unit data, the audio data is transmitted to the scrambling processing unit,
When the analyzed audio data is Audio Super Frame data to which Reed-Solomon Coding is not applied, the audio data is transmitted to the second input data processor.
The audio data scrambler for the MPEG-4 audio service protection system in the DMB, wherein the analyzed audio data is transmitted to the first input data processor when the analyzed audio data is audio data in the form of Audio Super Frame to which Reed-Solomon Coding is applied.
The method of claim 3, wherein
The scrambling processing unit transmits to either the first output data conversion unit or the output data processing unit according to the output form of the scrambled audio data scrambler for the MPEG-4 audio service protection system in the DMB.
The method of claim 8,
The scrambling processing unit
When the output form of the scrambled audio data is specified in the form of an access unit, the audio data is transmitted to the output data processor, or
When the output form of the scrambled audio data is designated as an audio super frame, the scrambled audio data is transmitted to the first output data converter to apply the audio super frame to the audio data.
When the output form of the scrambled audio data is designated as an audio super frame to which Reed-Solomon Coding is applied, after applying the audio super frame by the first output data converter, the virtual interleaving and the second output converter are applied. Audio data scrambler for MPEG-4 audio service protection system in DMB, characterized in that for transmitting the audio data to the second output converter for applying Reed-Solomon Coding.
The method of claim 7, wherein
The first input data converter performs virtual de-interleaving of the audio data received from the input data processor, inspects a parity word of the audio data to which Reed-Solomon Coding is applied, and detects and corrects an error. Audio data scrambler for MPEG-4 audio service protection system in a DMB.
The method of claim 7, wherein
The second input data converter performs a CRC check on at least one access unit by analyzing an audio super frame of the audio data received from either the input data processor or the first input data converter. Data scrambler for MPEG-4 audio service protection system in.
The method of claim 11,
After transmitting the audio data to the scrambling processing unit, the second input data converting unit transmits the audio data in any one of the Access Unit or Audio Super Frame form after the CRC check. Audio data scrambler for audio service protection systems.
The method of claim 9,
If the audio data received from the scrambling processing unit is in the form of the Audio Super Frame, the first output data converter applies Audio Super Framing by reusing the Audio Super Frame, and applies the audio data to which the Audio Super Framing is applied. The audio data scrambler for the MPEG-4 audio service protection system in the DMB, characterized in that for transmitting to the second output data converter or the output data processor.
The method of claim 9,
When the audio data received from the scrambling processing unit is the Access Unit type, the first output data converter performs Audio Super Framing on the audio data of the Access Unit type to convert the audio data into an Audio Super Frame type. Features audio data scrambler for MPEG-4 audio service protection system in DMB.
The method of claim 9,
The second output data converter performs virtual interleaving on the audio data in the form of the audio super frame received from the first output data converter, generates a parity word by performing reed solomon coding, The audio data scrambler for the MPEG-4 audio service protection system in the DMB, characterized in that for transmitting the audio data and the parity word in the form of the Audio Super Frame.
The method of claim 1,
The data processing control unit
Setting a protocol that can be input to the input data processor;
Setting a format of audio data output from the scrambling processing unit,
The audio data scrambler for the MPEG-4 audio service protection system in the DMB, characterized by setting a protocol that can be output from the output data processor.
In the DBM server operating method of MPEG-4 audio service protection system in DMB,
A first step of analyzing a type of input audio data by an input data processor and transmitting the same to an input data converter or a scrambling processor;
A second step of decoding the audio data by the input data converter;
A third step of scrambling the decoded audio data in the scrambling processing unit;
Transmitting the audio data to either an output data converter or an output data processor according to the output form of the scrambled audio data;
A fifth step of converting the audio data into a predetermined audio data format by the output data converter; And
A sixth step of outputting the audio data converted into the predetermined audio data form by the output data processor;
Audio data scrambling method for MPEG-4 audio service protection system in DMB comprising a.
The method of claim 17,
In the first step, the predetermined audio data type is
Audio data scrambling for MPEG-4 audio service protection system in DMB, characterized in that it is either an Access Unit type, an Audio Super Frame type without Reed-Solomon Coding, or an Audio Super Frame type with Reed-Solomon Coding. Bling method.
The method of claim 18,
The input data converting unit includes a first input data converting unit and a second input data converting unit. When the audio data type is the Access Unit type, the audio data type is transmitted to a scrambling processing unit, and the audio data type is Reed-. The audio data is transmitted to the second input data converter when the audio super frame is not applied to the solomon coding, and the audio data is the audio super frame when the reed-solomon coding is applied. The method of claim 1, wherein the SMB is transmitted to the first input data converter.
The method of claim 19,
The second input data converter decodes the audio super frame form of the input audio data, and transmits the decoded audio data to a scrambling processing unit. The audio data for the MPEG-4 audio service protection system in the DMB. Scramble method.
The method of claim 19,
When the first input data converter decodes the Reed-Solomon Coding and Virtual De-Interleaving types of the input audio data, and transmits the decoded audio data in the form of the Audio Super Frame to a second input data converter, The second input data converter decodes the audio super frame of the input audio data and transmits the decoded audio data in the form of the access unit to the scrambling processing unit. Audio data scrambling method.
The method of claim 17,
The third step is
A first step of receiving the decoded audio data;
Generating a control word from the control word generator and transmitting the control word to the synchronization unit;
A third step of transmitting, by the synchronization unit, the control word input from the CA control unit, and generating the CA message using the control word input, and then transmitting the CA to the synchronization unit; And
A fourth process of scrambling the audio data using the control word by the scrambling processor when the synchronization unit transmits the control word to the scrambling processor
Audio data scrambling method for MPEG-4 audio service protection system in DMB characterized in that comprises a.
23. The method of claim 22,
The CA message includes at least one of an ECM message and an EMM message, and the synchronization unit selectively transmits the CA message to the scrambling processing unit. Clamping method.
The method of claim 17,
And in the fourth step, the output data converter comprises a first output data converter and a second output data converter.
25. The method of claim 24,
When the output form of the scrambled audio data in the fourth step is an access unit type, the MPEG-4 audio service protection system is provided by the DMB, wherein the audio data of the access unit type is transmitted to the output data processor. Audio data scrambling method.
25. The method of claim 24,
In the case where the output form of the scrambled audio data in the fourth step is an audio super frame without reed-solomon coding applied, the audio data is transmitted to the first output data converter. Audio data scrambling method for audio service protection system.
The method of claim 26,
The fifth step
A first step of converting the audio data into an audio super frame type by applying audio super framing to the audio data by the first output data converter; And
And a second process of transmitting the converted audio data in the form of the audio super frame to the output data processing unit.
25. The method of claim 24,
When the output form of the scrambled audio data in the fourth step is an audio super frame with Reed-Solomon Coding applied, the audio data is transmitted to a first output data converter. Audio data scrambling method for protection systems.
29. The method of claim 28,
The fifth step
A first step of converting the audio data into an audio super frame type by applying audio super framing to the audio data by the first output data converter;
A second process of transmitting the converted audio super frame type audio data to the second output data converter;
A third step of applying the reed-solomon coding and virtual interleaving to the audio data of the audio super frame type; And
And a fourth process of transmitting the audio super frame type audio data to which the reed-solomon coding and virtual interleaving is applied to the output data processing unit. Bling method.
In DMB terminal of MPEG-4 audio service protection system in DMB,
A DAB signal analyzer for extracting audio data by analyzing a DAB signal transmitted from a DMB server;
A reception data converter configured to receive the audio data extracted by the DAB signal analyzer and to decode the audio data;
A descrambling processor for descrambling the audio data decoded from the received data converter; And
Audio data output unit for receiving and outputting the descrambled audio data
Audio data descrambler for MPEG-4 audio service protection system in the DMB comprising a.
31. The method of claim 30,
And a CAS client for providing a control word for performing descrambling of the audio data in the descrambling processing unit.
31. The method of claim 30,
The received data converter
A first received data converter configured to receive and decode audio data in the form of Audio Super Frame to which Reed-Solomon Coding is applied, from the DAB signal analyzer; And
A second received data converter configured to receive and decode audio data having an audio super frame type decoded by the first received data converter;
Audio data descrambler for the MPEG-4 audio service protection system in the DMB, characterized in that it comprises a.
33. The method of claim 32,
The first receiving data converter performs virtual de-interleaving on the audio data of the audio super frame type to which the reed-solomon coding is applied received from the DAB signal analyzer, and the parity of the audio data to which the reed-solomon coding is applied. An audio data descrambler for an MPEG-4 audio service protection system in a DMB, characterized by checking parity words to perform error detection and correction.
33. The method of claim 32,
The second receiving data converter protects the MPEG-4 audio service in the DMB by analyzing an audio super frame of the audio data received from the first receiving data converter and performing a CRC check on at least one access unit. Audio data descrambler for the system.
35. The method of claim 34,
After transmitting the audio data to the descrambling processing unit after the CRC check, the second received data converting unit transmits the audio data in any of the Access Unit or Audio Super Frame form, but in the Audio Super Frame form. The audio data descrambler for the MPEG-4 audio service protection system in DMB, wherein the protection of the Audio Super Frame header is applied to the audio data.
The method of claim 31, wherein
And the descrambling processing unit decodes the audio data received from the receiving data processing unit using the control word received from the CAS client.
The method of claim 36,
The audio data descrambler for the MPEG-4 audio service protection system in DMB, wherein the decoding of the Audio Super Frame header is also performed when the protection of the Audio Super Frame header is applied.
DBM terminal operating method of MPEG-4 audio service protection system in DMB,
A first step of extracting audio data from the DAB signal received from the DMB server by the DAB signal analyzer and transmitting the extracted audio data to the received data converter;
A second step of decoding the audio data by the received data converter receiving the extracted audio data and transmitting the decoded audio data to a descrambling processor;
A third step of descrambling the audio data using the control word received from a CAS client, and then transmitting the decoded audio data to an audio data output unit after receiving the decoded audio data; And
A fourth step of descrambling the audio data output unit receiving the audio data to output the audio data
Audio data descrambling method for the MPEG-4 audio service protection system in the DMB comprising a.
The method of claim 38,
In the second step, the receiving data converter comprises a first receiving data converter and a second receiving data converter, characterized in that the audio data descrambling method for the MPEG-4 audio service protection system in the DMB.
40. The method of claim 39,
The second step
The first received data converter performs virtual de-interleaving on the audio data in the form of Reed-Solomon Coding transmitted from the DAB signal analyzer and checks a parity word of the audio data to which Reed Solomon Coding is applied. Performing error detection and correction, and then transmitting the audio data in the form of an Audio Super Frame to the second received data converter; And
The second receiving data converter analyzes the audio super frame of the audio data in the form of audio super frame transmitted from the first receiving data converter and performs a CRC check on at least one access unit; A second process of transmitting the audio data in the form of the Audio Super Frame to the descrambling processing unit
Audio data descrambling method for the MPEG-4 audio service protection system in the DMB, characterized in that comprises a.

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