WO2012133194A1 - 受信装置、受信方法、プログラム、および受信システム - Google Patents
受信装置、受信方法、プログラム、および受信システム Download PDFInfo
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- WO2012133194A1 WO2012133194A1 PCT/JP2012/057529 JP2012057529W WO2012133194A1 WO 2012133194 A1 WO2012133194 A1 WO 2012133194A1 JP 2012057529 W JP2012057529 W JP 2012057529W WO 2012133194 A1 WO2012133194 A1 WO 2012133194A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L27/00—Modulated-carrier systems
- H04L27/26—Systems using multi-frequency codes
- H04L27/2601—Multicarrier modulation systems
- H04L27/2647—Arrangements specific to the receiver only
- H04L27/2649—Demodulators
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/41—Structure of client; Structure of client peripherals
- H04N21/426—Internal components of the client ; Characteristics thereof
- H04N21/42607—Internal components of the client ; Characteristics thereof for processing the incoming bitstream
- H04N21/4263—Internal components of the client ; Characteristics thereof for processing the incoming bitstream involving specific tuning arrangements, e.g. two tuners
Definitions
- the present technology particularly relates to a receiving apparatus, a receiving method, a program, and a receiving system that can start data decoding quickly.
- DVB-C2 As a European second generation cable digital broadcasting standard (Non-patent Document 1).
- a frame called a C2 frame is defined, and data is transmitted in units of C2 frames.
- FIG. 1 is a diagram showing a frame structure of a C2 frame.
- the horizontal direction in FIG. 1 represents time.
- One C2 frame consists of 1 to 8 Preamble Symbols that are OFDM (Orthogonal Frequency Division Multiplexing) symbols and a predetermined number of Data symbols. Preamble Symbol is placed at the beginning of the C2 frame, followed by Data Symbol.
- OFDM Orthogonal Frequency Division Multiplexing
- Preamble Symbol is a symbol used for transmission of transmission control information called L1 signaling part 2 data (L1 information).
- Data Symbol is a symbol used for transmission of TS (Transport Stream) or the like of program data. Data Symbol is divided for each Data Slice.
- the reception process in the receiver is performed so as to receive a signal in the Tuning Window having a fixed bandwidth of 3408 carriers.
- the center position (center frequency) of the Tuning window suitable for receiving the signal of the desired Data Slice is specified by the transmission side using the L1 information.
- demodulation processing including orthogonal demodulation and equalization processing of the received OFDM signal is performed, and decoding processing such as LDPC decoding and BCH decoding is performed on the signal obtained by the demodulation processing.
- decoding processing such as LDPC decoding and BCH decoding is performed on the signal obtained by the demodulation processing.
- the data transmitted by Data Symbol is decoded. For example, after OFDM demodulation, deinterleaving is performed on data transmitted by Data Symbol, but the deinterleaving pattern varies depending on the information included in the L1 information.
- main line data data transmitted by Data Symbol
- DVB-C2 standard document [Digital Video Broadcasting (DVB); Frame structure, channel, coding, and modulation, for-a, second generation, digital, transmission, system, for-cable, systems (DVB-C2)], DVB-Document, A138 DVB-C2 Implementation Guidelines [Digital Broadcast (DVB); Implementation Guidelines for a second generation digital digital transmission transmission system (DVB-C2)] ETSI TS 102 991 v1.1.2
- FIG. 2 is a diagram illustrating an example of a sequence until decoding of main line data is started.
- the horizontal direction in FIG. 2 represents time.
- demodulation is performed in order from the first preamble symbol, and when demodulation of the last preamble symbol is completed, decoding of the L1 information acquired by demodulation is started. From the start of decoding of the L1 information to the end of decoding, the demodulator that performs the demodulation process outputs the main line data acquired by demodulating Data Symbol to the decoder that performs the decoding process.
- L1 information is required for decoding main line data transmitted by Data Symbol.
- the main line data output from the demodulator between the start of decoding of the L1 information and the end of decoding cannot be decoded by the decoder.
- the L1 information is not fixed and may be changed, according to the above method, decoding using the new L1 information can be performed using the main line transmitted by the Data Symbol of the next C2 frame. Because it is data, it cannot seamlessly follow changes in L1 information. If the L1 information before the change has already been acquired from the specified C2 frame and the L1 information has been changed in the current C2 frame, the decoding of the main line data transmitted by the Data Symbol of the current C2 frame will be changed. This is done based on previous L1 information.
- the present technology has been made in view of such a situation, and makes it possible to quickly start decoding of data.
- a receiving apparatus includes a demodulation unit that demodulates a modulation signal used for transmission of data transmission control information and the data to be transmitted, and the transmission control information acquired by demodulation by the demodulation unit.
- a first decoding unit that performs decoding, a storage unit that stores the data acquired by demodulation by the demodulation unit, and the transmission control information decoded by the first decoding unit, the storage unit And a second decoding unit for decoding the stored data.
- the receiving device may be a single IC chip, a component including an IC chip, or a device including a component including an IC chip.
- the storage unit may be a volatile storage unit or a non-volatile storage unit.
- the modulation signal may include a signal used for transmitting the transmission control information and a signal used for transmitting the data in the order of transmission.
- the data acquired while the transmission control information is being decoded can be stored in the storage unit.
- the second decoding unit can start decoding of the data when the transmission control information is decoded by the first decoding unit.
- the modulation signal may be a DVB-C2 OFDM signal
- the transmission control information may be L1 information transmitted by a Preamble / Symbol
- the data may be data transmitted by a Data / Symbol. .
- a modulation signal used for transmission of data transmission control information and the data to be transmitted is demodulated, and the transmission control information acquired by demodulation is decoded.
- the data acquired by demodulation is stored, and the stored data is decoded based on the decoded transmission control information.
- data decoding can be started quickly.
- FIG. 4 is a diagram illustrating an example of a decoding sequence in the reception device according to an embodiment of the present technology.
- the horizontal direction in FIG. 4 represents time.
- One C2 frame includes 1 to 8 preamble symbols and a predetermined number of data symbols in the order of transmission.
- writing of the main line data acquired by demodulating the first Data ⁇ ⁇ Symbol following the Preamble Symbol is started.
- the writing of the main line data to the buffer is continued until the writing of the main line data acquired by demodulating the last Data Symbol of the C2 frame is completed.
- the buffer provided in the receiving apparatus is a FIFO (First In In First Out) type memory.
- the main line data output from the demodulator as a demodulation result is waited by the buffer until the decoding of the L1 information is completed, and is sequentially decoded when the decoding of the L1 information is completed. It will be.
- the receiving device can seamlessly follow changes in L1 information.
- L1 information is changed in the current C2 frame as shown in FIG. It is assumed that the L1 information before the change has already been acquired from the C2 frame before the current C2 frame, and the decoding of the main line data of the immediately preceding C2 frame has been performed based on the L1 information before the change.
- the L1 information transmitted by the Preamble Symbol of a certain C2 frame is applied from the main line data transmitted by the Data Symbol of the same C2 frame.
- the main line data to which the changed L1 information is applied is the main line data transmitted by Data Symbol of the C2 frame in FIG.
- the bandwidth of the desired Data Slice is the width W1 in the L1 information before 1C2 frame (before the change), whereas it is the width W2 in the L1 information of the current C2 frame. ing.
- the receiving device uses the changed L1 information and is transmitted by the Data Symbol of the current C2 frame stored in the buffer. Decoding can be performed from the main line data.
- the changed L1 information can be applied from the main line data transmitted by Data Symbol of this C2 frame, and it becomes possible to follow the change of L1 information seamlessly.
- the changed L1 information can be applied to the current C2 frame from which the changed L1 information was acquired. This is from the main line data of the next C2 frame. In this case, it is impossible to seamlessly follow the change of the L1 information.
- FIG. 6 is a block diagram illustrating a configuration example of a receiving device according to an embodiment of the present technology.
- FIG. 6 is a device capable of receiving a DVB-C2 OFDM signal. Decoding of the data described with reference to FIG.
- the receiving apparatus 1 includes an OFDM demodulator 11, an L1 decoder 12, a buffer 13, and a main line decoder 14.
- the OFDM demodulator 11 performs frequency conversion on the RF signal in the Tuning Window received by an RF tuner (not shown), and the IF signal obtained by the frequency conversion is input as a received signal.
- the OFDM demodulator 11 performs orthogonal demodulation on the input received signal (OFDM signal). Further, the OFDM demodulator 11 performs an FFT operation on a time-domain baseband signal representing each symbol such as Preamble Symbol and Data Symbol obtained by performing orthogonal demodulation. The OFDM demodulator 11 equalizes the baseband signal in the frequency domain obtained by the FFT operation, and outputs the equalized signal. In the OFDM demodulator 11, orthogonal demodulation, FFT calculation, equalization, and the like of the received signal are performed as demodulation processing.
- the L1 information obtained by the demodulation processing for Preamble Symbol is supplied from the OFDM demodulation unit 11 to the L1 decoding unit 12, and the main line data obtained by the demodulation processing for Data Symbol is sent from the OFDM demodulation unit 11 to the buffer 13. To be supplied.
- the L1 decoder 12 starts decoding the L1 information. Decoding of L1 information is performed based on BCH code and LDPC code. When the decoding of the L1 information is completed, the L1 decoding unit 12 outputs information related to Data Slice included in the L1 information together with the decoding completion flag to the main line decoding unit 14.
- FIG. 7 is a diagram showing parameters of L1 information. The main parameters will be described.
- START_FREQUENCY on the 3rd line represents the frequency that is the starting position of C2 System. The starting position is represented by an absolute frequency starting from 0Hz.
- C2_BANDWIDTH in the fourth row represents the bandwidth of C2 System.
- C2_FRAME_LENGTH on the sixth line represents the number of Data Symbols included in C2 Frame.
- NUM_DSLICE on the 8th row represents the number of Data Slices included in C2 Frame. Each parameter from the 10th line to the 45th line is described for each Data Slice. *
- DSLICE_ID on the 11th line indicates the ID of Data Slice in C2 System.
- DSLICE_TUNE_POS on the 12th line represents a position (center frequency) that is a tuning point for receiving Data Slice with reference to the frequency represented by START_FREQUENCY.
- DSLICE_OFFSET_LEFT on the 13th line represents the leftmost frequency of Data Slice with reference to the tuning point.
- DSLICE_OFFSET_RIGHT on line 14 represents the rightmost frequency of Data ⁇ Slice with reference to the tuning point.
- DSLICE_TI_DEPTH on the 15th line represents the time interleave depth.
- the buffer 13 stores the main line data supplied from the OFDM demodulator 11. Reading of the main line data stored in the buffer 13 is started when the decoding of the L1 information is completed.
- the buffer 13 may be a volatile memory such as a RAM, or may be a non-volatile memory such as a flash memory.
- the main line decoding unit 14 When the decoding of the L1 information is completed and the decoding completion flag is supplied from the L1 decoding unit 12, the main line decoding unit 14 starts reading the main line data stored in the buffer 13. The main line decoding unit 14 decodes the main line data read from the buffer 13 based on the parameters of the L1 information supplied from the L1 decoding unit 12, and outputs the main line data as a decoding result to a subsequent processing unit such as an MPEG decoder. . Decoding of the main line data by the main line decoding unit 14 is also performed based on the BCH code and the LDPC code.
- FIG. 8 is a block diagram illustrating a configuration example of the main line decoding unit 14.
- the main line decoding unit 14 includes a Data Slice extraction unit 21, a frequency deinterleaver 22, a time deinterleaver 23, and an error correction unit 24.
- the Data Slice extraction unit 21 extracts a desired Data ⁇ ⁇ Slice signal based on the parameters of the L1 information supplied from the L1 decoding unit 12.
- FIG. 9 is a diagram illustrating an example of extraction of Data Slice by the Data Slice extraction unit 21.
- the horizontal direction in FIG. 9 represents the frequency.
- the band indicated by the diagonal line of the grid is the band of the desired Data Slice
- the left end position Kds, min of the desired Data Slice band is expressed by the following equation (1)
- the right end position Kds, max is It is represented by the following formula (2).
- Kds, min (DSLICE_TUNE_POS + DSLICE_OFFSET_LEFT) * Dx + START_FREQUENCY (1)
- Kds, max (DSLICE_TUNE_POS + DSLICE_OFFSET_RIGHT) * Dx + START_FREQUENCY-1 ...
- DSLICE_TUNE_POS, DSLICE_OFFSET_LEFT, DSLICE_OFFSET_RIGHT, and START_FREQUENCY used to extract Data Slice are parameters of the L1 information supplied from the L1 decoding unit 12.
- the Data Slice extraction unit 21 outputs the extracted Data Slice data to the frequency deinterleaver 22.
- the frequency deinterleaver 22 deinterleaves the data ⁇ ⁇ Slice data supplied from the Data Slice extraction unit 21 in the frequency direction, and outputs the data obtained by performing the frequency direction deinterleave to the time deinterleaver 23. To do.
- the time deinterleaver 23 deinterleaves the data Slice data supplied from the frequency deinterleaver 22 in the time direction.
- a deinterleaving pattern in the time direction is specified by DSLICE_TI_DEPTH supplied from the L1 decoding unit 12.
- the time deinterleaver 23 outputs data obtained by deinterleaving in the time direction to the error correction unit 24.
- the error correction unit 24 performs error correction on the Data Slice data supplied from the time deinterleaver 23 and outputs data after error correction.
- the main line decoding unit 14 decodes the main line data using various parameters included in the L1 information.
- the processing in FIG. 10 is started when the receiving apparatus 1 is activated and the start of DVB-C2 signal reception is instructed.
- the processing of each step is appropriately performed in parallel with or before and after the processing of other steps.
- step S1 the OFDM demodulator 11 starts demodulating the received signal.
- the OFDM demodulator 11 outputs the L1 information obtained by the demodulation processing for Preamble Symbol to the L1 decoder 12.
- step S2 the L1 decoding unit 12 starts decoding the L1 information when data obtained by demodulation processing for the last Preamble Symbol is supplied.
- step S3 the OFDM demodulator 11 performs demodulation processing on the Data Symbol input after the last Preamble Symbol, and starts writing main line data to the buffer 13. The writing of the main line data to the buffer 13 is continued until the writing of the data obtained by the demodulation processing for the last Data Symbol is completed.
- step S4 the L1 decoding unit 12 determines whether or not the decoding of the L1 information has ended, and waits until it is determined that the decoding has ended.
- the L1 decoding unit 12 outputs a decoding completion flag and the parameters of the L1 information to the main line decoding unit 14.
- step S5 when the decoding completion flag and the L1 information parameter are supplied from the L1 decoding unit 12, the main line decoding unit 14 starts reading the main line data stored in the buffer 13 and decoding the read main line data. . Thereafter, reading of the main line data and decoding of the read main line data are continued.
- the receiving device 1 can start decoding main line data quickly. Further, even when the L1 information is changed, the receiving device 1 can seamlessly follow the change.
- the main line data is read from the buffer 13 in response to the decoding completion flag being output from the L1 decoding unit 12, but the main data read timing is the L1 decoded by the L1 decoding unit 12. Any other timing may be used as long as the main data can be decoded using the information.
- the main line data may be read from the buffer 13 after a predetermined time has elapsed since the decoding completion flag is supplied from the L1 decoding unit 12, and the main line data may be decoded.
- FIG. 11 is a block diagram illustrating a configuration example of a receiving system to which the receiving device 1 is applied.
- the 11 includes a tuner 111, a demodulation unit 112, a signal processing unit 113, and an output unit 114.
- the tuner 111 receives a signal transmitted via a transmission path such as terrestrial digital broadcasting, satellite digital broadcasting, CATV network, or the Internet, and outputs the signal to the demodulation unit 112.
- a transmission path such as terrestrial digital broadcasting, satellite digital broadcasting, CATV network, or the Internet
- the demodulator 112 performs transmission path decoding processing including demodulation processing and error correction processing on the signal supplied from the tuner 111, and outputs data obtained by the transmission path decoding processing to the signal processing section 113.
- the configuration of FIG. 6 is included in the demodulation unit 112.
- the signal processing unit 113 appropriately performs signal processing such as expansion processing and descrambling processing on the data obtained by the transmission path decoding processing, and acquires data to be transmitted.
- the decompression processing by the signal processing unit 113 is performed when data to be transmitted such as an image or sound is compressed on the transmission side using a predetermined method such as MPEG.
- the descrambling process is performed when data to be transmitted is scrambled on the transmission side.
- the signal processing unit 113 outputs the transmission target data obtained by appropriately performing signal processing to the output unit 114.
- the output unit 114 displays an image based on the data supplied from the signal processing unit 113
- the output unit 114 performs processing such as D / A conversion on the data supplied from the signal processing unit 113.
- the output unit 114 outputs an image signal obtained by performing processing such as D / A conversion to a display provided in the reception system 101 or a display external to the reception system 101 to display an image.
- the output unit 114 outputs the data supplied from the signal processing unit 113 to an internal recording medium of the receiving system 101 or an external recording medium when recording the data supplied from the signal processing unit 113 on a recording medium.
- the recording medium includes a hard disk, a flash memory, an optical disk, and the like.
- the external recording medium is not limited to an external recording medium of the receiving system 101 but may be a recording medium connected via a network.
- the receiving system 101 having the above-described configuration may be configured by hardware such as an IC (Integrated Circuit) chip or a board configured by arranging a plurality of IC chips. You may make it comprise a component and the independent apparatus containing the component.
- IC Integrated Circuit
- Tuner 111, demodulator 112, signal processor 113, and output unit 114 can each be configured as a single independent hardware or software module. Further, a combination of two or more of the tuner 111, the demodulation unit 112, the signal processing unit 113, and the output unit 114 may be configured as one independent hardware or software module. For example, the tuner 111 and the demodulation unit 112 may be configured by one piece of hardware, and the signal processing unit 113 and the output unit 114 may be configured by one piece of hardware.
- the receiving system 101 can be applied to, for example, a TV that receives a television broadcast as a digital broadcast, a radio receiver that receives a radio broadcast, a recorder device that records the television broadcast, and the like.
- FIG. 12 is a block diagram showing an example of the hardware configuration of a computer that executes the above-described series of processing by a program.
- a CPU Central Processing Unit
- ROM Read Only Memory
- RAM Random Access Memory
- An input / output interface 155 is further connected to the bus 154.
- the input / output interface 155 is connected to an input unit 156 composed of a keyboard, a mouse, etc., and an output unit 157 composed of a display, a speaker, and the like.
- the input / output interface 155 is connected to a storage unit 158 made up of a hard disk, a non-volatile memory, etc., a communication unit 159 made up of a network interface, etc., and a drive 160 that drives the removable media 161.
- the CPU 151 loads the program stored in the storage unit 158 to the RAM 153 via the input / output interface 155 and the bus 154 and executes it, thereby executing the above-described series of processing. Is done.
- the program executed by the CPU 151 is recorded on the removable medium 161 or provided via a wired or wireless transmission medium such as a local area network, the Internet, or digital broadcasting, and is installed in the storage unit 158.
- the program executed by the computer may be a program that is processed in time series in the order described in this specification, or in parallel or at a necessary timing such as when a call is made. It may be a program for processing.
- Embodiments of the present technology are not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present technology.
- a demodulator that demodulates a modulation signal used for transmission of data transmission control information and the data to be transmitted;
- a first decoding unit for decoding the transmission control information acquired by demodulation by the demodulation unit;
- a storage unit for storing the data acquired by demodulation by the demodulation unit;
- a receiving apparatus comprising: a second decoding unit configured to decode the data stored in the storage unit based on the transmission control information decoded by the first decoding unit.
- the modulation signal includes, in order of transmission, a signal used for transmission of the transmission control information and a signal used for transmission of the data;
- the receiving device wherein the storage unit stores the data acquired while the transmission control information is being decoded.
- the modulation signal is a DVB-C2 OFDM signal
- the transmission control information is L1 information transmitted by Preamble Symbol
- the receiving device according to any one of (1) to (3), wherein the data is data transmitted by Data Symbol.
- a receiving unit for receiving a modulated signal transmitted via a transmission line; A demodulator that performs demodulation processing of the modulated signal received by the receiver; A signal processor that performs signal processing on the data demodulated by the demodulator and obtains data to be transmitted; An output unit that outputs the data to be transmitted acquired by the signal processing unit, and The demodulator A signal demodulator that demodulates the modulation signal used for transmission of transmission control information of the data to be transmitted and the data to be transmitted; A first decoding unit that decodes the transmission control information acquired by demodulation by the signal demodulation unit; A storage unit for storing the data acquired by demodulation by the signal demodulation unit; A reception system comprising: a second decoding unit that decodes the data stored in the storage unit based on the transmission control information decoded by the first decoding unit.
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Abstract
Description
欧州第2世代ケーブルデジタル放送規格としてDVB-C2がある(非特許文献1)。DVB-C2では、C2フレームと呼ばれるフレームが定義され、データはC2フレーム単位で送信される。
図2は、本線データの復号を開始するまでのシーケンスの例を示す図である。図2の横方向は時間を表す。
1.復号シーケンス
2.受信装置の構成と動作
3.変形例
図4は、本技術の一実施形態に係る受信装置における復号シーケンスの例を示す図である。図4の横方向は時間を表す。
[受信装置の構成例]
図6は、本技術の一実施形態に係る受信装置の構成例を示すブロック図である。
Kds,max = (DSLICE_TUNE_POS + DSLICE_OFFSET_RIGHT)*Dx + START_FREQUENCY - 1 ・・・ (2)
ここで、図10のフローチャートを参照して、以上のような構成を有する受信装置1の動作について説明する。
図11は、受信装置1を適用した受信システムの構成例を示すブロック図である。
上述した一連の処理は、ハードウェアにより実行することもできるし、ソフトウェアにより実行することもできる。一連の処理をソフトウェアにより実行する場合には、そのソフトウェアを構成するプログラムが、専用のハードウェアに組み込まれているコンピュータ、または汎用のパーソナルコンピュータなどに、プログラム記録媒体からインストールされる。
本技術は、以下のような構成をとることもできる。
データの伝送制御情報と伝送対象の前記データとの伝送に用いられる変調信号を復調する復調部と、
前記復調部による復調によって取得された前記伝送制御情報の復号を行う第1の復号部と、
前記復調部による復調によって取得された前記データを記憶する記憶部と、
前記第1の復号部により復号された前記伝送制御情報に基づいて、前記記憶部に記憶された前記データの復号を行う第2の復号部と
を備える受信装置。
前記変調信号は、伝送順に、前記伝送制御情報の伝送に用いられる信号と前記データの伝送に用いられる信号とを含み、
前記記憶部は、前記伝送制御情報の復号が行われている間に取得された前記データを記憶する
前記(1)に記載の受信装置。
前記第2の復号部は、前記第1の復号部による前記伝送制御情報の復号が終了したとき、前記データの復号を開始する
前記(1)または(2)に記載の受信装置。
前記変調信号は、DVB-C2のOFDM信号であり、
前記伝送制御情報は、Preamble Symbolにより伝送されるL1情報であり、
前記データは、Data Symbolにより伝送されるデータである
前記(1)乃至(3)のいずれかに記載の受信装置。
データの伝送制御情報と伝送対象の前記データとの伝送に用いられる変調信号を復調し、
復調によって取得された前記伝送制御情報の復号を行い、
復調によって取得された前記データを記憶し、
復号した前記伝送制御情報に基づいて、記憶した前記データの復号を行う
ステップを含む受信方法。
データの伝送制御情報と伝送対象の前記データとの伝送に用いられる変調信号を復調し、
復調によって取得された前記伝送制御情報の復号を行い、
復調によって取得された前記データを記憶し、
復号した前記伝送制御情報に基づいて、記憶した前記データの復号を行う
ステップを含む処理をコンピュータに実行させるプログラム。
伝送路を介して送信されてきた変調信号を受信する受信部と、
前記受信部により受信された前記変調信号の復調処理を行う復調部と、
前記復調部により復調されたデータに信号処理を施し、伝送対象のデータを取得する信号処理部と、
前記信号処理部により取得された伝送対象の前記データを出力する出力部と
を備え、
前記復調部は、
伝送対象の前記データの伝送制御情報と伝送対象の前記データとの伝送に用いられる前記変調信号を復調する信号復調部と、
前記信号復調部による復調によって取得された前記伝送制御情報の復号を行う第1の復号部と、
前記信号復調部による復調によって取得された前記データを記憶する記憶部と、
前記第1の復号部により復号された前記伝送制御情報に基づいて、前記記憶部に記憶された前記データの復号を行う第2の復号部と
を備える
受信システム。
Claims (7)
- データの伝送制御情報と伝送対象の前記データとの伝送に用いられる変調信号を復調する復調部と、
前記復調部による復調によって取得された前記伝送制御情報の復号を行う第1の復号部と、
前記復調部による復調によって取得された前記データを記憶する記憶部と、
前記第1の復号部により復号された前記伝送制御情報に基づいて、前記記憶部に記憶された前記データの復号を行う第2の復号部と
を備える受信装置。 - 前記変調信号は、伝送順に、前記伝送制御情報の伝送に用いられる信号と前記データの伝送に用いられる信号とを含み、
前記記憶部は、前記伝送制御情報の復号が行われている間に取得された前記データを記憶する
請求項1に記載の受信装置。 - 前記第2の復号部は、前記第1の復号部による前記伝送制御情報の復号が終了したとき、前記データの復号を開始する
請求項1に記載の受信装置。 - 前記変調信号は、DVB-C2のOFDM信号であり、
前記伝送制御情報は、Preamble Symbolにより伝送されるL1情報であり、
前記データは、Data Symbolにより伝送されるデータである
請求項1に記載の受信装置。 - データの伝送制御情報と伝送対象の前記データとの伝送に用いられる変調信号を復調し、
復調によって取得された前記伝送制御情報の復号を行い、
復調によって取得された前記データを記憶し、
復号した前記伝送制御情報に基づいて、記憶した前記データの復号を行う
ステップを含む受信方法。 - データの伝送制御情報と伝送対象の前記データとの伝送に用いられる変調信号を復調し、
復調によって取得された前記伝送制御情報の復号を行い、
復調によって取得された前記データを記憶し、
復号した前記伝送制御情報に基づいて、記憶した前記データの復号を行う
ステップを含む処理をコンピュータに実行させるプログラム。 - 伝送路を介して送信されてきた変調信号を受信する受信部と、
前記受信部により受信された前記変調信号の復調処理を行う復調部と、
前記復調部により復調されたデータに信号処理を施し、伝送対象のデータを取得する信号処理部と、
前記信号処理部により取得された伝送対象の前記データを出力する出力部と
を備え、
前記復調部は、
伝送対象の前記データの伝送制御情報と伝送対象の前記データとの伝送に用いられる前記変調信号を復調する信号復調部と、
前記信号復調部による復調によって取得された前記伝送制御情報の復号を行う第1の復号部と、
前記信号復調部による復調によって取得された前記データを記憶する記憶部と、
前記第1の復号部により復号された前記伝送制御情報に基づいて、前記記憶部に記憶された前記データの復号を行う第2の復号部と
を備える
受信システム。
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EP12765485.3A EP2693670A4 (en) | 2011-03-31 | 2012-03-23 | RECEIVING DEVICE, RECEIVING METHOD, PROGRAM AND RECEPTION SYSTEM |
BR112013024394-5A BR112013024394A2 (pt) | 2011-03-31 | 2012-03-23 | aparelho, método e sistema de recepção, e, programa |
RU2013143169/07A RU2601430C2 (ru) | 2011-03-31 | 2012-03-23 | Приемное устройство, способ приема, программа и приемная система |
US14/006,799 US20140016728A1 (en) | 2011-03-31 | 2012-03-23 | Reception apparatus, reception method, program, and reception system |
CN201280014525XA CN103444107A (zh) | 2011-03-31 | 2012-03-23 | 接收设备、接收方法、程序和接收*** |
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BRPI0922876A2 (pt) * | 2008-12-10 | 2018-05-29 | Thomson Licensing | metodo e aparelho para a transmissão e recepção de cabeçalhos de quadros de correção fec com modulação de cabeçalho variável |
WO2010079868A1 (en) * | 2009-01-09 | 2010-07-15 | Lg Electronics Inc. | Apparatus for transmitting and receiving a signal and method of transmitting and receiving a signal |
TWI493973B (zh) * | 2009-05-08 | 2015-07-21 | Mstar Semiconductor Inc | 數位電視訊號解調裝置及其方法 |
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EP2693670A1 (en) | 2014-02-05 |
RU2601430C2 (ru) | 2016-11-10 |
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CN103444107A (zh) | 2013-12-11 |
US20140016728A1 (en) | 2014-01-16 |
RU2013143169A (ru) | 2015-03-27 |
BR112013024394A2 (pt) | 2020-11-10 |
JP2012216889A (ja) | 2012-11-08 |
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