KR20100062839A - Receiving apparatus for digital multimedia broadcasting - Google Patents

Abstract

PURPOSE: A digital multi-media broadcasting receiver is provided, which can reduce the delay time of data processing by altering the data processing method according to the mode of the signal inputted into the divided layers. CONSTITUTION: A base layer receiving processor(120) decodes the base layer stream among the signal of the RF tuners(160). An reinforcing layer receiving processor(130) decodes the enhancement layer stream among the signals of the RF tuners. A base layer mode detector(140) controls the data processing method of the base layer receive processor by the mode value detection of the base layer stream among signals of the base layer receive processor. An reinforcing layer mode detector(150) controls the data processing method of the enhancement layer receive processor by the mode value detection of the enhancement layer stream among the signals of the enhancement layer receive processor.

Description

Digital multimedia broadcasting receiver {RECEIVING APPARATUS FOR DIGITAL MULTIMEDIA BROADCASTING}

The present invention relates to a digital multimedia broadcasting (DMB) receiver, and more particularly, to a digital multimedia broadcasting receiver for receiving a base layer stream and an enhanced layer stream signal.

The present invention is derived from a study conducted as a part of the IT growth engine technology development project of the Ministry of Knowledge Economy and the Ministry of Information and Communication Research and Development. ]

The radio broadcasts currently in use were originally developed for fixed reception in analog form, so that the reception of sound while walking or driving a vehicle requires a high output and a wide frequency band. In order to solve these problems, standardization and commercialization of digital audio broadcasting is underway worldwide.In Europe, which adopts Eureka-147 as the digital audio broadcasting standard, DAB (Digital Audio Broadcasting) in Europe and DAR (Digital Audio Radio) in the US , Canada uses DRB (Digital Radio Broadcasting), and International Telecommunication Union (ITU-R) uses DSB (Digital Sound Broadcasting) .In Korea, it is used by the Ministry of Information and Communication as DMB (Digital Multimedia Broadcasting). have.

The digital multimedia broadcasting is a variety of data services capable of transmitting data of 1.5Mbit / s to high quality sound, text, graphics, and moving images beyond the conventional AM and FM radio types according to the digitization of voice broadcasting, bidirectionality, excellent mobile reception quality, etc. It is the next generation broadcast to provide.

In recent years, research for providing a higher quality service through digital multimedia broadcasting continues, and research into a method of transmitting and receiving a hierarchical modulation function in a digital multimedia broadcasting transmission system continues. In such a transmission method, a delay time between signals demodulated in each layer is problematic.

In order to solve the above problems, an object of the present invention is to provide a digital multimedia broadcasting receiver which detects a mode of a signal input to each layer and changes a data processing method according to the detected mode.

The present invention provides an RF tuner for receiving a broadcast signal including a base layer stream and an enhancement layer stream, a base layer reception processor for decoding a base layer stream among signals received by the RF tuner, and a signal received by the RF tuner. An enhancement layer reception processor for decoding an enhancement layer stream, a base layer mode detector for detecting a mode value of a base layer stream among signals inputted to the base layer reception processor, and controlling a data processing method of the base layer reception processor; A digital multimedia broadcasting receiver may include an enhancement layer mode detector configured to detect a mode value of an enhancement layer stream among signals input to the enhancement layer reception processor to control a data processing method of the enhancement layer reception processor.

The base layer mode detector may detect a mode value of the base layer stream according to the size of the received base layer stream.

The mode value of the base layer stream may be one mode selected from first to fourth modes in the Eureka-147 standard.

The base layer reception processing unit may include a plurality of base layer reception processors that change data processing methods according to preset mode values of the plurality of base layer streams.

The digital multimedia broadcasting receiver may further include a layer separator that separates a base layer stream and an enhancement layer stream from the signal received by the RF tuner and outputs an enhancement layer stream to the enhancement layer mode detector.

The enhancement layer mode detector may detect a mode value of the enhancement layer stream according to a modulation scheme of the received enhancement layer stream data.

The modulation scheme of the enhancement layer stream may be Binary Phase Shift Keying (BPSK) or Quadrature Phase Shift Keying (QPSK).

The enhancement layer reception processor may include a plurality of enhancement layer reception processors that change data processing methods according to preset mode values of the plurality of enhancement layer streams.

According to the present invention, the data processing method can be changed according to the mode of the signal input to the separated layer, so that the delay time generated during the data processing can be reduced, thereby obtaining a digital multimedia broadcasting receiver capable of high quality video service. have.

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

1 is a block diagram of a digital multimedia broadcasting receiver according to an embodiment of the present invention.

Referring to FIG. 1, the digital multimedia broadcasting receiver 100 according to the present embodiment includes an RF tuner 160, a base layer reception processor 120, an enhancement layer reception processor 130, a base layer mode detector 140, And an enhancement layer mode detector 150.

The RF tuner 160 may receive a broadcast signal including a base layer stream and an enhancement layer stream. In the present invention, a stream may be defined as a form in which symbols of an orthogonal frequency division multiplexing (OFDM) signal are continuously connected.

The base layer reception processor 120 may decode the base layer transport stream of the signal received from the RF tuner 160 through the same process as that of the existing digital multimedia broadcasting receiver.

Referring to the process of decoding the base layer transport stream in the reception apparatus according to the present embodiment, among the broadcast signals received by the RF tuner, the base layer stream is convolutional deinterleaving and the convolutional deinterleaving by the base layer reception processing unit 120. RS decoding for additional error correction on the decoded signal, transport stream demultiplexing for demultiplexing the RS decoded signal into multimedia and various additional information packets, and system decoding for depacketizing and synchronizing between the streams. Can be.

The enhancement layer reception processor 130 may decode the enhancement layer transport stream from among the broadcast signals received by the RF tuner.

In the present embodiment, the enhancement layer reception processor 130 may perform decoding on the enhancement layer stream among the broadcast signals received by the RF tuner. The received signal of the enhancement layer stream may include hierarchical modulation information, and the hierarchical symbol demapper of the enhancement layer reception processor may separate the enhancement layer stream based on the hierarchical modulation information.

 The enhancement layer reception processor 130 grows a scrambled signal for energy distribution by temporal deinterleaving on the enhancement layer stream, channel decoding for further error correction on the time deinterleaved signal, and descrambled channel decoded signal. Degraded energy diffusion descrambling, transport stream demultiplexing to demultiplex the energy diffusion descrambled signal into multimedia and various additional information packets, and depacketization and system decoding for synchronizing the demultiplexed signals to output the stream have.

The base layer mode detector 140 may detect a mode value of the base layer signal among the signals input to the base layer reception processor 120 to adjust the data processing method of the base layer reception processor 120.

In the present embodiment, the base layer mode detector 140 may detect a mode value of the base layer stream according to the size of the received base layer stream. At this time, the base layer reception processing unit 120 may include a plurality of base layer reception processors that change data processing methods according to preset mode values of the plurality of base layer streams. Therefore, the data processing method of the base layer receiving processor 120 may be selected according to the mode value detected by the base layer mode detector 140.

The enhancement layer mode detector 150 may detect a mode value of the enhancement layer signal among the signals input to the enhancement layer reception processor 130 to adjust the data processing method of the enhancement layer reception processor 130.

In the present embodiment, the enhancement layer mode detector 150 may detect a mode value of the enhancement layer stream according to the modulation scheme of the received enhancement layer stream. In this case, the enhancement layer reception processing unit 130 may include a plurality of enhancement layer reception processors that change data processing methods according to preset mode values of the plurality of enhancement layer streams. Therefore, the data processing method of the enhancement layer reception processor 130 may be selected according to the mode value detected by the enhancement layer mode detector 150.

The digital multimedia broadcasting receiver according to the present embodiment further includes a layer separator 110 that separates a base layer stream and an enhancement layer stream from the signal received by the RF tuner and outputs an enhancement layer stream to the enhancement layer mode detector. It may include.

In the present exemplary embodiment, the layer separator 110 may deinterleave the differentially demodulated received signal by performing guard interval removal, fast Fourier transform, and differential demodulation on the received signal. The frequency deinterleaved signal may be output to the enhancement layer mode detector 150. The enhanced layer mode detector 150 may detect a mode value of the enhanced layer stream separated by the layer separator 110.

The digital multimedia broadcasting receiver 100 according to the present embodiment can receive a signal from a transmitter for transmitting a mixed signal of the base layer and the enhancement layer stream, and decode each of the base layer stream and each of the enhancement layer stream signals. have. In addition, during the decoding process for each of the base layer stream and the enhancement layer stream, it is possible to select an appropriate data processing method according to the mode value of the base layer stream and the enhancement layer stream to prevent time delay incurred during data processing. can do.

2 is a block diagram of a base layer reception processing unit of a digital multimedia receiver according to another embodiment of the present invention.

The base layer reception processing unit 220 of the reception apparatus according to the present embodiment may include modes 1 to 4 for different data processing methods. The modes 1 to 4 may represent methods of processing data according to preset mode values, respectively. That is, a buffer or clock for processing data may be implemented differently. In the present embodiment, the base layer receiving processor 220 may include a plurality of base layer receiving processors 220a, 220b, 220c, and 220d.

The base layer mode detector 240 detects a mode value of the base layer stream among the signals input to the base layer reception processor 220 and selects a data processing method from the base layer reception processor 220. The base layer reception processor 220 may control a switch 241 to select a data processing method in the base layer reception processor 220.

In the present embodiment, the mode value detected by the base layer mode detector 240 may be a mode of the Eureka-147 standard. The Eureka-147 includes a first mode for terrestrial broadcasting on a single frequency network, a second mode for terrestrial broadcasting on a multiple frequency network, a third mode for cable broadcasting, and a terrestrial wave. A satellite is defining a fourth mode for a mixed broadcast. The general terrestrial DMB may use the first mode of the transmission mode of the Eureka-147 standard. According to the terrestrial DMB using the first transmission mode, when a 1/2 ratio convolution coding is applied, the available transmission rate is 1.152 Mbps, and if multiple video services are multiplexed in one ensemble, one video service is used. 576 Mbps can be allocated per second.

In the present embodiment, the base layer receiving processor 220 may include first to fourth receiving processors 220a to 220d respectively processing data corresponding to the first to fourth modes of the Eureka-147.

When the first mode is detected by the base layer mode detector 240, the base layer mode detector 240 selects mode 1 220a from the base layer reception processor 220 and inputs the input to the base layer reception processor. You can process the signal.

3 is a configuration diagram of an enhancement layer reception processing unit of a digital multimedia receiver according to still another embodiment of the present invention.

The enhancement layer reception processor 330 of the reception apparatus according to the present embodiment may include the enhancement layer reception processors 330a and 330b having two modes of different data processing methods. Each of the two modes may represent a method of processing data according to a preset mode value. That is, a buffer or clock for processing data may be implemented differently.

The enhancement layer mode detector 350 may detect a mode value of the enhancement layer stream signal among the signals input to the enhancement layer reception processor 330 to select a data processing method in the enhancement layer reception processor 330. In order to detect a mode value of the enhancement layer stream signal in the enhancement layer mode detector, the layer separator may divide the signal received from the RF tuner into an enhancement layer stream and a base layer stream and output the signal to the enhancement layer reception processor. The enhanced layer mode detector 350 may control the switch 351 to select a data processing method in the enhanced layer reception processor 330.

In the present embodiment, the mode value detected by the enhancement layer mode detector 350 may be a mode according to the modulation method of the enhancement layer stream. The modulation scheme of the enhancement layer stream may be quadrature phase shift keying (QPSK) or binary phase shift keying (BPSK). The QPSK scheme is a phase shift scheme in which two bits of 0 and 1, which are digital signals of two values, are collected and transmitted corresponding to the four phases of the carrier. The BPSK method is a method of transmitting a transmission signal in correspondence with the in-phase and the in-phase of the carrier wave. Since the size of data varies according to the modulation scheme for the enhancement layer stream in the transmitter, the processing method in the enhancement layer reception processor 330 may vary according to the size of the data. That is, a buffer and a clock for processing data in the enhancement layer receiving processor 330 may be implemented differently.

In the present embodiment, the enhancement layer reception processor 330 may include enhancement layer reception processors 330a and 330b having a BPSK mode and a QPSK mode for processing data corresponding to the QPSK and BPSK modulation schemes, respectively.

When a mode value corresponding to a QPSK modulation mode of the enhancement layer stream is detected by the enhancement layer mode detector 350, the enhancement layer mode detector 350 is a QPSK mode 330b by the enhancement layer reception processor 330. Select to process a signal input to the enhanced layer receiving processing unit 330.

It is intended that the invention not be limited by the foregoing embodiments and the accompanying drawings, but rather by the claims appended hereto. It will be apparent to those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. something to do.

1 is a block diagram of a digital multimedia broadcasting receiver according to an embodiment of the present invention.

2 is a block diagram of a base layer reception processing unit of a digital multimedia broadcasting receiver according to another embodiment of the present invention.

3 is a configuration diagram of an enhancement layer reception processing unit of a digital multimedia receiver according to still another embodiment of the present invention.

<Code Description of Main Parts of Drawing>

110: layer separator 120: base layer receiving processing unit

130: enhanced layer receiving processing unit 140: base layer mode detector

150: reinforced layer mode detector

Claims (8)

An RF tuner for receiving a broadcast signal including a base layer stream and an enhancement layer stream; A base layer reception processor for decoding a base layer stream among the signals received by the RF tuner; An enhancement layer reception processor configured to decode an enhancement layer stream among signals received by the RF tuner; A base layer mode detector for detecting a mode value of a base layer stream among the signals input to the base layer receiving processor to control a data processing method of the base layer receiving processor; And Enhancement layer mode detector for detecting a mode value of the enhancement layer stream of the signal input to the enhancement layer reception processing unit to control the data processing method of the enhancement layer reception processing unit. Digital multimedia broadcasting receiver comprising a. The method of claim 1, The base layer mode detector, And a mode value of the base layer stream according to the size of the received base layer stream. The method of claim 2, The mode value of the base layer stream is, And a mode selected from the first to fourth modes in the Eureka-147 standard. The method of claim 1, The base layer reception processing unit, A plurality of base layer reception processors varying data processing methods according to preset mode values of a plurality of base layer streams. Digital multimedia broadcasting receiver comprising a. The method of claim 1, The digital multimedia broadcasting receiver, A layer separator that separates a base layer stream and an enhancement layer stream from the signal received by the RF tuner and outputs an enhancement layer stream to the enhancement layer mode detector. Digital multimedia broadcasting receiver further comprises. The method of claim 1, The enhanced layer mode detector, And detecting a mode value of the enhanced layer stream according to a modulation scheme of the received enhanced layer stream data. The method of claim 6, The modulation method of the enhancement layer stream, A digital multimedia broadcasting receiver characterized in that it is Binary Phase Shift Keying (BPSK) or Quadrature Phase Shift Keying (QPSK). The method of claim 1, The enhancement layer receiving processing unit, A plurality of enhancement layer reception processors for varying data processing methods according to preset mode values of the plurality of enhancement layer streams. Digital multimedia broadcasting receiver comprising a.

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