KR100552678B1 - Apparauts and method for transmitting and receiving with reducing the setup time of data packet - Google Patents

Abstract

1. Technical field to which the invention described in the claims belongs

The present invention relates to a transmitting / receiving apparatus and method for shortening the access delay time of a data packet.

2. Technical Challenges to be Solved by the Invention

The present invention is characterized in that the transmission side analyzes the table information including the program association table (PAT) and the program structure table (PMT) in advance and then transmits the analyzed information to a quick information channel Receiving apparatus for shortening the access delay time of the data packet for increasing the transmission efficiency by shortening the access delay time of the data packet upon initial setting and channel change in the receiving apparatus by transmitting the data packet through the FIC The purpose is to provide.

3. The point of the solution of the invention

The present invention relates to a transmission apparatus for shortening the access delay time of a data packet, comprising: a table analysis unit for analyzing a table including a program structure table (PMT) and a program association table (PAT) from program characteristic information (PSI) Transport stream analysis means for deriving analysis information and frame configuration information to be transmitted through a fast information channel (FIC); An external adaptation means for enhancing error tolerance of the transport stream (TS); Storage means for storing a transport stream (TS) received from the external memory means; A frame management means for managing the program structure table (PMT) and program association table (PAT) analysis information and frame configuration information derived from the program characteristic information (PSI) received from the transport stream analysis means, ; Frame structure means for constructing a frame using frame structure information transmitted from the frame management means, a transport stream (TS) received from the storage means, and a transport stream (TS) received from the outside; And frame transmitting means for transmitting a frame received from the frame forming means.

Digital multimedia broadcasting (DMB), digital audio broadcasting (DAB), program characteristic information (PSI), fast information channel (FIC)

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transmission / reception apparatus and a method thereof for shortening the access delay time of a data packet,             

1 is a block diagram of a conventional digital multimedia broadcasting (DMB) receiving apparatus,

2 is a block diagram of a transmitting apparatus for shortening the access delay time of a data packet in a digital multimedia broadcasting (DMB) system according to an embodiment of the present invention.

3 is a detailed block diagram of a frame unit of a transmission apparatus for shortening the access delay time of a data packet in a digital multimedia broadcasting (DMB) system according to the present invention.

FIG. 4 is a diagram illustrating an embodiment in which a new fast information group (FIG) field is constructed using a program association table (PAT) and program structure table (PMT) analysis information.

5 is a block diagram of a receiving apparatus for shortening the access delay time of a data packet in a digital multimedia broadcasting (DMB) system according to an embodiment of the present invention.

FIG. 6 is a flowchart illustrating a transmission method for shortening an access delay time of a data packet in a digital multimedia broadcasting (DMB) system according to the present invention.

FIG. 7 is a flowchart illustrating a receiving method for reducing an access delay time of a data packet in a digital multimedia broadcasting (DMB) system according to an embodiment of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

100, 500: reception processing unit 101, 501: RF reception unit

102, 502: channel decoder 103, 503: FIC analyzing unit

104, 504: MSC data processing section 105, 505: Outer decoding section

110: PSI analysis unit 120, 510: Demultiplexing unit

130, 520: IOD analysis section 140, 530: 14496 Section analysis section

150, 540: PES analyzing unit 160, 550: MPEG-4 AV processing unit

210: Transport Stream (TS) Analyzer 220:

230: storage unit 240: ETI frame manager

250: ETI frame forming unit 260: ETI frame transmitting unit

310: ETI field configuration unit 320: FIC configuration unit

330: MSC configuring unit 340: Multiplexing unit

The present invention relates to a transmission / reception apparatus and a method thereof for shortening an access delay time of a data packet, and more particularly, to a transmission / reception apparatus and a program structure table of a transport stream (TS) (PMT: Program Map Table), and transmits the analyzed information through a Fast Information Channel (FIC) having a short access time and a fixed capacity And a transmitting / receiving apparatus and method for shortening an access delay time of a data packet for shortening an access delay time of a data packet.

Digital Multimedia Broadcasting (DMB) is defined as a digital multimedia broadcasting service capable of providing audio services having a CD (Compact Disk) level sound quality and various additional data services and providing excellent fixed and mobile reception quality.

Digital Multimedia Broadcasting (DMB) has been called Digital Audio Broadcasting (DAB) in Europe and Canada. However, Digital Audio Broadcasting (DAB) (DMB).

Digital multimedia broadcasting (DMB) can be roughly classified into terrestrial digital multimedia broadcasting (DMB) and satellite digital multimedia broadcasting (DMB) according to the nature of a medium as a transmission means. In the case of satellite digital multimedia broadcasting (DMB) It can be divided into mobile service.

The terrestrial digital multimedia broadcasting (DMB) improves the error correction function so that moving image service can be performed in the Eureka-147 (European Reserch Coordination Agency project-147) standard of the existing digital audio broadcasting (DAB) system, The compression efficiency can be increased.

One of the methods of synchronizing MPEG-2 data, which is multimedia data for digital broadcasting, with MPEG (Moving Picture Experts Group) -4 data is to transmit mp4 data, which is a storage type of MPEG-4 data, 4 object data into MPEG-2 format packets using the synchronization information, and multiplexes the packetized MPEG-4 data with MPEG-2 data and transmits the multiplexed MPEG-4 data.

One of the methods for decoding MPEG-4 data, which is multimedia data, on the receiving side is to demultiplex the received transport stream (TS) to obtain a program specific information (PSI) packet, a 14496 section packet, (PES) analyzing unit, a 14496 analyzing unit, and an elementary stream packet (PES) analyzing unit after analyzing each packet in a packetized elementary stream (PES) and decoding it according to the MPEG-4 standard.

The above-mentioned conventional method was filed in Korean Patent Laid-Open No. 10-2002-0060908 as 'Apparatus and method for synchronizing and transmitting MPEG-4 data to MPEG-2 data'.

1 is a block diagram of a conventional digital multimedia broadcasting (DMB) receiving apparatus.

1, a conventional digital multimedia broadcasting (DMB) receiving apparatus includes a radio frequency (RF) receiver 101, a channel decoder 102, a fast information channel (FIC) analyzer 103, (MSC) data processing unit 104, an outer decoding unit 105, a demultiplexing unit 120, a program characteristic information (PSI) analyzing unit 110, and a post-processing unit 100.

The post-processing unit 100 includes an initial object descriptor (IOD) analysis unit 130, a 14496 section analysis unit 140, an elementary stream packet (PES) analysis unit 150, and an MPEG- / Video (AV: Audio Video) processing unit 160.

The RF receiver 101 receives a digital multimedia broadcasting RF signal and demodulates the IF signal into an IF (Intermediate Frequency) signal. The channel decoder 102 converts the received IF signal into Fast Information Channel (FIC) MSC) data.

At this time, the fast information channel (FIC) is an information channel capable of quick access and transmits control information necessary for analyzing the configuration of multiplexing information, service information and main service channel (MSC) data, and the main service channel As a main service channel for multiplexing service components corresponding to each service according to a multiplexing structure established through a fast information channel (FIC), MPEG audio data and various additional data are multiplexed and transmitted to a main service channel (MSC).

Particularly, in the digital multimedia broadcasting (DMB) standard, an MPEG-2 transport stream (TS) encapsulated with MPEG-4 audio / video is multiplexed and transmitted through the main service channel (MSC).

The fast information channel (FIC) analyzing unit 103 analyzes the multiplexing information and the service information from the fast information channel (FIC) data separated by the channel decoder 102.

The main service channel (MSC) data processing unit 104 uses the multiplex information and service information analyzed by the fast information channel (FIC) analyzing unit 103 to extract a main service channel (MSC) ) Transport stream (TS) containing MPEG-4 audio / video.

The outer decoding unit 105 performs additional channel decoding on the transport stream TS separated by the main service channel (MSC) data processing unit 104 according to the DMB standard.

The demultiplexing unit 120 demultiplexes the transport stream TS decoded by the outer decoding unit 105 into a program characteristic information (PSI) packet, a 14496 section packet and a basic strip packet (PES).

The program characteristic information (PSI) analyzing unit 110 receives the program characteristic information (PSI) packet separated by the demultiplexer 120 and analyzes the program characteristic information (PSI) packet to generate an initial object descriptor (IOD).

In this case, the initial object descriptor (IOD) is the first packet of an object descriptor (OD) stream, and is composed of a scene description (SD) and an elementary stream identifier (ES_ID) of an object descriptor ) Values, thereby connecting the two. That is, since the initial object descriptor (IOD) acts as a connection pointer (Access Pointer), it can not be packetized into a Sync Layer (SL) packet.

Thus, when the MPEG-4 data is encapsulated and transmitted in the MPEG-2 transport stream (TS), the initial object descriptor (IOD) is the first descriptor of the PMT section before the MPEG- ) Loop, and then sent.

The initial object descriptor (IOD) analyzing unit 130 receives the initial object descriptor (IOD) from the program characteristic information (PSI) analyzing unit 110 and generates initial object descriptor (IOD) data.

The 14496 section analyzing unit 140 receives the 14496 section packet from the demultiplexer 120 and analyzes it to generate an MPEG-4 object descriptor (OD) / Binary Format For Scene (BIFS) sink layer (SL) packet do.

The PES interpreter 150 receives an elementary stream packet PES from the demultiplexer 120 and analyzes it to generate an MPEG-4 audio / video sync layer (SL) packet.

The MPEG-4 audio / video (AV) processing unit 160 receives the initial object descriptor (IOD) data from the initial object descriptor (IOD) interpreter 130, and the 14496 section interpreter 140 and / MPEG-4 packets are received from the PES interpreter 150 and decoded according to the MPEG-4 standard to generate audio / video.

However, if the audio / video data is decoded while the above process is performed, the MPEG-4 packet is encapsulated in the MPEG-2 transport stream (TS) when the receiver is initially set or when the broadcast channel is changed, Time can be longer than other broadcasting systems.

In addition, since the DMB standard additionally carries out Reed Solomon (RS) encoding and Convolutional Interleaving external adaptation to protect the transmission channel error, MPEG (Digital Multimedia Broadcasting) The access delay time of -4 packets is longer.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above problems. It is an object of the present invention to provide a method and apparatus for analyzing table information including a program association table (PAT) and a program structure table (PMT) By shortening the access delay time of the data packet in the initial setting and channel change of the receiving apparatus by transmitting through the fast information channel (FIC), which is a short fixed capacity channel, the access delay time of the data packet is shortened Receiving apparatus and method therefor.

According to an aspect of the present invention, there is provided a transmission apparatus for shortening an access delay time of a data packet, comprising: a program structure table (PMT) and a program association table A transport stream analyzing means for analyzing a table including a PAT to derive analysis information and frame configuration information to be transmitted through a fast information channel (FIC); An external adaptation means for enhancing error tolerance of the transport stream (TS); Storage means for storing a transport stream (TS) received from the external memory means; A frame management means for managing the program structure table (PMT) and program association table (PAT) analysis information and frame configuration information derived from the program characteristic information (PSI) received from the transport stream analysis means, ; Frame structure means for constructing a frame using frame structure information transmitted from the frame management means, a transport stream (TS) received from the storage means, and a transport stream (TS) received from the outside; And frame transmitting means for transmitting a frame received from the frame forming means.

Further, the transmission method of the present invention is a transmission method for shortening the access delay time of a data packet, characterized by analyzing a table including a program structure table (PMT) and a program association table (PAT) from program characteristic information A transport stream analysis step of deriving analysis information and frame configuration information to be transmitted through a fast information channel (FIC); An external adaptation step of enhancing error tolerance of the transport stream (TS); A frame constructing step of constructing a frame by using the analysis information, the frame configuration information, the transport stream (TS) reinforced with the error resilience and the transport stream (TS) received from the outside; And a frame transmitting step of transmitting the structured frame.

Meanwhile, a receiving apparatus according to the present invention is a receiving apparatus for shortening an access delay time of a data packet, comprising: receiving means for receiving an external RF signal; Channel decoding means for separating a signal received from the receiving means into fast information channel (FIC) data and main service channel (MSC) data; (FIC) data received from the channel decoding means to derive configuration information including a program association table (PAT) and program structure table (PMT) analysis information by analyzing a fast information group Fast information channel (FIC) interpretation means; (MSC) data processing means for separating an information stream (TS) from main service channel (MSC) data received from the channel decoding means using configuration information transmitted from the fast information channel (FIC) analyzing means ; An external decoding means for performing additional channel decoding on an information stream (TS) received from the main service channel (MSC) data processing means; Demultiplexing means for demultiplexing the information stream (TS) received from the outer decoding means by using the configuration information received from the fast information channel (FIC) analyzing means; And reception and processing means for decoding and decoding the configuration information and the information stream (TS) received from the fast information channel (FIC) analyzing means and the demultiplexing means.

A receiving method for shortening an access delay time of a data packet includes receiving a radio frequency (RF) signal and separating it into fast information channel (FIC) data and main service channel (MSC) data, Decoding; (FIC) field for extracting configuration information including a program association table (PAT) and program structure table (PMT) analysis information by analyzing a fast information group (FIG) field in the separated fast information channel ) Interpretation step; A main service channel (MSC) data processing step of separating an information stream (TS) from the separated main service channel (MSC) data using the configuration information; An outer decoding step of performing an additional channel decoding on the information stream TS; Demultiplexing the outer-decoded information stream (TS) using the configuration information; And a post-reception processing step of analyzing and decoding the configuration information and the information stream (TS).

The above-mentioned objects, features and advantages will become more apparent from the following detailed description in conjunction with the accompanying drawings. Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a transmitting apparatus for shortening the access delay time of a data packet in a digital multimedia broadcasting (DMB) system according to an embodiment of the present invention.

2, a transmitting apparatus according to the present invention includes a transport stream (TS) analyzer 210, an external scaler 220, a storage 230, an ETI (Ensemble Transport Interface) frame manager 240, An ETI frame composing unit 250, and an ETI frame transmitting unit 260.

In this case, the Ensemble Transport Interface (ETI) is a standard for transmitting a digital multimedia broadcasting (DAB) ensemble, which is an output of a digital multimedia broadcasting (DAB) multiplexer, through a network, and is defined in European Telecommunications Standard (ETS) 300 799 have.

The transport stream (TS) analyzing unit 210 analyzes the program characteristic information (PSI) data of a stream which is encoded in MPEG-4 and then encapsulated into an MPEG-2 transport stream (TS) and calculates a valid data rate And outputs the information for the ETI frame configuration to the ETI frame manager 240.

Particularly, table information including program association table (PAT) and program structure table (PMT) is analyzed from program characteristic information (PSI) data, and necessary information is derived and outputted to the ETI frame manager 240.

The external scaler 220 enhances the error tolerance of a stream encoded after being encoded in MPEG-4 and encapsulated into a transport stream (TS), and outputs the stream to the storage unit 230.

The storage unit 230 stores a transport stream TS having enhanced error resilience in the external scaler 220 under the control of the ETI frame manager 240.

The ETI frame manager 240 manages all the parts related to the ETI frame configuration. Particularly, analysis information analyzing a table including a valid transmission rate, a program association table (PAT), and a program structure table (PMT) is received from the transport stream (TS) analysis unit 210 and transmitted to the ETI frame construction unit 250 And determines an amount of a transport stream (TS) necessary for constructing one ETI frame using the received effective transmission rate, and outputs the determined amount to the ETI frame construction unit 250. Further, the storage unit 230 is controlled.

At this time, the ETI frame manager 240 receives necessary information from the system manager at the time of constructing the ETI frame through a graphical user interface (GUI) or receives the configuration information about the transport stream (TS).

The ETI frame construction unit 250 constructs an ETI frame based on the amount of the transport stream TS, the program association table (PAT) and the program structure table (PMT) required for constructing one ETI frame received from the ETI frame manager 240, And then constructs an ETI frame by reading the transport stream TS from the storage unit 230 using the analysis information analyzing the table.

In addition, the ETI frame composing unit 250 receives an Eureka-147 based DAB stream from the outside using the information received from the ETI frame manager, and constructs an ETI frame.

The ETI frame forming unit 250 will be described later in detail with reference to FIG.

The ETI frame transmitting unit 260 receives the ETI frame from the EIT frame forming unit 250 and converts the ETI frame into a physical form.

3 is a detailed block diagram of a frame configuration unit of a transmission apparatus for shortening the access delay time of a data packet in a digital multimedia broadcasting (DMB) system according to an embodiment of the present invention.

In the Eureka-147 digital audio broadcasting (DAB) transmission frame, the fast information channel (FIC) band is fixedly allocated to about 4% of the total transmission payload data according to each transmission mode. In case of MPEG-4 service, random access time is not applied to the fast information channel (FIC) because time interleaving in Eureka-147 digital audio broadcasting (DAB) system is not applied. Is shorter than the access time of the service channel (MSC).

3, the ETI frame configuration unit 250 includes an ETI field configuration unit 310, a fast information channel (FIC) configuration unit 320, a main service channel (MSC) configuration unit 330 And a multiplexing unit 340. The multiplexing unit 340 includes a multiplexing unit 340,

The ETI frame configuration unit 250 receives the ETI frame configuration field value and the program association information for the fast information channel (FIC) configuration from the ETI frame manager 240, The analysis information analyzing the table including the table (PAT) and the program structure table (PMT), and the scheduling signal for making the configured ETI frame have a transmission period suited to the standard.

In addition, a transport stream (TS) is received from the storage unit 230 and a digital multimedia broadcasting (DAB) stream is received from the outside.

The ETI field configuration unit 310 configures an ETI frame configuration field using the value of the ETI frame configuration field received from the ETI frame manager 240.

The Fast Information Channel (FIC) constructor 320 constructs a Fast Information Channel (FIC) using Fast Information Channel (FIC) configuration information received from the ETI frame manager 240. That is, a new fast information group (FIG: Fast Information Group) field is constructed by using analysis information analyzing a table including a program association table (PAT) and a program structure table (PMT).

The main service channel (MSC) configuring unit 330 transmits the transport stream TS to the ETI frame manager 240 and transmits the transport stream TS to the storage unit 230 Stream (TS), and configures a main service channel (MSC) using the configuration information received from the ETI frame manager 240.

The multiplexer 340 multiplexes the data received from the ETI field configuration unit 310, the fast information channel (FIC) configuration unit 320, and the main service channel (MSC) configuration unit 330 to complete an ETI frame And outputs the completed ETI frame to the ETI frame transmitting unit 260.

FIG. 4 is a diagram showing an embodiment in which a new fast information group (FIG) field is constructed using a program association table (PAT) and program structure table (PMT) analysis information.

The fast information channel (FIC) constructing unit 320 of the ETI frame composing unit 250 uses the program association table (PAT) and the program structure table (PMT) analysis information transmitted from the ETI frame manager 240, And construct an information group (FIG) field.

4, an initial object descriptor (IOD), a sink layer (SL) descriptor (IOD) constituting program number or PMT information constituting the program association table (PAT) descriptor loops, such as descriptors, are each included in a new type of fast information group (FIG) field.

The multiplexing unit 340 multiplexes the new fast information group (FIG) field and outputs the multiplexed information to the ETI frame transmitting unit 260. The ETI frame transmitting unit 260 transmits the new fast information group (FIG) FIC).

5 is a block diagram of a receiving apparatus for shortening the access delay time of a data packet in a digital multimedia broadcasting (DMB) system according to an embodiment of the present invention.

5, a receiving apparatus according to the present invention includes an RF receiving unit 501, a channel decoder 502, a fast information channel (FIC) analyzing unit 503, a main service channel (MSC) data processing unit 504, An outer decoding unit 505, a demultiplexing unit 510, and a post-processing unit 500.

The RF receiver 501, the channel decoder 502, the main service channel (MSC) processor 504, the outer decoding unit 505, and the post-processing unit 500 are connected to the conventional RF The receiver decoder 101, the channel decoder 102, the main service channel (MSC) data processor 104, the outer decoder 105, and the post-processor 100, respectively.

Meanwhile, the conventional fast information channel (FIC) analyzing unit 103 analyzes the multiplexing information and the service information from the fast information channel (FIC) data separated by the channel decoder 102 and transmits the analyzed information to the MSC And outputs it to the data processing unit 104.

However, the fast information channel (FIC) analyzing unit 503 of the receiving apparatus according to the present invention can extract the program association table (PAT) and the program structure table (PMT) from the fast information channel (FIC) data separated by the channel decoder 502, A program number, an initial object descriptor (IOD), a sink layer (SL) descriptor, and the like, by analyzing a new fast information group (FIG) field data having analysis information analyzing a table (TS) configuration information and initial object descriptor (IOD) configuration information to the demultiplexing unit 510 and the initial object descriptor (IOD) analyzing unit 510.

The fast information channel (FIC) analyzing unit 503 of the receiving apparatus according to the present invention further includes a program association table (PAT) and a program structure table (FIC) (FIG) field data, which is composed of analysis information obtained by analyzing a table including a PMT (PMT).

Therefore, for compatibility with the conventional transmitting apparatus, the receiving apparatus according to the present invention includes the fast information channel (FIC) data including analysis information obtained by analyzing a table including a program association table (PAT) and a program structure table (PMT) (PSI) packet is received from the demultiplexer 510 and is analyzed to generate an initial object descriptor (IOD) when there is no new fast information group (FIG) field data, and the initial object descriptor (POD) analyzing unit (not shown) for transmitting the initial object descriptor (IOD) to the IOD analyzing unit.

The demultiplexer 510 demultiplexes the transport stream TS received from the outer decoder 505 using the transport stream (TS) configuration information received from the Fast Information Channel (FIC) analyzer 503, 14496 section packet and PES packet, and transmits it to the 14496 section analyzing section 530 and the elementary stream packet (PES) analyzing section 540.

The initial object descriptor analyzer 520 generates initial object descriptor (IOD) data using the fast information channel (IOD) configuration information received from the fast information channel (FIC) analyzer 503.

The 14496 section analyzing unit 530, the PES analyzing unit 540 and the MPEG-4 audio / video (AV) processing unit 550 are the same as the 14496 section analyzing unit 140, (PES) analyzing unit 150 and the MPEG-4 audio / video (AV) processing unit 160, and therefore will not be described here again.

6 is a flowchart illustrating a transmission method for reducing the access delay time of a data packet in a digital multimedia broadcasting (DMB) system according to an embodiment of the present invention.

First, the program characteristic information (PSI) data of the stream encoded after being encoded into MPEG-4 and encapsulated into the MPEG-2 transport stream (TS) is analyzed to calculate an effective data rate and information for the ETI frame configuration is derived ). In particular, analysis information is derived by analyzing a table including a program association table (PAT) and a program structure table (PMT) from PSI data.

Thereafter, the error tolerance of the stream encoded after MPEG-4 encoding and then encapsulated into the MPEG-2 transport stream (TS) is enhanced (620).

And stores the transport stream TS enhancing the error resilience (630).

The ETI frame configuration field value, the value for the fast information channel (FIC) configuration, and the ETI frame configuration field value using analysis information analyzing the table including the derived program association table (PAT) and the program structure table (PMT) (640) the amount of transport stream (TS) needed to construct the transport stream (TS).

Thereafter, the ETI frame configuration field is configured using the ETI frame configuration field value (650).

In addition, a Fast Information Channel (FIC) is configured using the FIC configuration information (660). That is, a new quick information group (FIG) field is constructed by using analysis information analyzing a table including a program association table (PAT) and a program structure table (PMT).

In addition, a transport stream (TS) and a digital audio broadcast (DAB) stream necessary for constructing one ETI frame are read (670).

Thereafter, the ETI frame configuration field data, the fast information channel (FIC) data, and the transport stream (TS) are multiplexed to complete the ETI frame (680).

Thereafter, the completed ETI frame is converted into a physical form and transmitted (690).

FIG. 7 is a flowchart illustrating a receiving method for reducing an access delay time of a data packet in a digital multimedia broadcasting (DMB) system according to an embodiment of the present invention.

First, the RF signal is received and demodulated into an IF signal (710), and the IF signal is separated into fast information channel (FIC) data and main service channel (MSC) data (720).

Thereafter, the presence or absence of a new fast information group (FIG) field data having analysis information analyzing a table including a program association table (PAT) and a program structure table (PMT) is determined from the FIC data Service information, information stream (TS) configuration information, and initial object descriptor (IOD) configuration information are derived (730).

Then, only the transport stream TS carrying the MPEG-4 audio / video is separated from the main service channel (MSC) data using the service information (740).

The separated transport stream (TS) is subjected to additional channel decoding according to the DMB standard (750).

If there is a fast information group (FIG) field data having analysis information analyzing a table including a program association table (PAT) and a program structure table (PMT) in the fast information channel (FIC) A transport stream TS is demultiplexed using the transport stream (TS) configuration information and separated into 14496 section packets and elementary stream packets (PES) 760.

Thereafter, initial object descriptor (IOD) data is generated using the derived initial object descriptor (IOD) configuration information (770).

In addition, the separated 14496 section packet is analyzed to generate an MPEG-4 object descriptor (OD) / BIFS sink layer (SL) packet (780).

Further, an MPEG-4 audio / video sink layer (SL) packet is generated by analyzing the separated base stream packet (PES) (790).

Thereafter, audio / video is generated by decoding the initial object descriptor (IOD) data, the MPEG-4 object descriptor (OD) / BIFS and the MPEG-4 audio / video sync layer (800).

On the other hand, if there is no fast information group (FIG) field data having analysis information analyzing a table including a program association table (PAT) and a program structure table (PMT) in the fast information channel (FIC) The channel decoded transport stream TS is separated into a program characteristic information (PSI) packet, a 14496 section packet and an elementary stream packet (PES) (810).

Thereafter, the separated PSI packet is analyzed to generate an initial object descriptor (IOD) configuration information (820).

Thereafter, initial object descriptor (IOD) data is generated using the initial object descriptor (IOD) configuration information (770).

In addition, the separated 14496 section packet is analyzed to generate an MPEG-4 object descriptor (OD) / BIFS sink layer (SL) packet (780).

Further, an MPEG-4 audio / video sink layer (SL) packet is generated by analyzing the separated base stream packet (PES) (790).

Thereafter, audio / video is generated by decoding the initial object descriptor (IOD) data, the MPEG-4 object descriptor (OD) / BIFS and the MPEG-4 audio / video sync layer (800).

Here, the processing procedure in the absence of the fast information group (FIG) field data is an additional element in the present invention.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. Will be apparent to those of ordinary skill in the art.

In the present invention as described above, the table information including the program association table (PAT) and the program structure table (PMT) is analyzed in advance to construct a new quick information group (FIG) field, It is possible to shorten the access time of the data packet and increase the transmission efficiency of the data channel in the initial setting of the receiving apparatus and the channel change.

Claims (12)

A transmission apparatus for shortening an access delay time of a data packet, Analyzes the table including the program structure table (PMT) and the program association table (PAT) from the program characteristic information (PSI) of the transport stream (TS), and analyzes information and frame configuration information to be transmitted through the fast information channel A transport stream analyzing means for deriving the transport stream; An external adaptation means for enhancing error tolerance of the transport stream (TS); Storage means for storing a transport stream (TS) received from the external memory means; A frame management means for managing the program structure table (PMT) and program association table (PAT) analysis information and frame configuration information derived from the program characteristic information (PSI) received from the transport stream analysis means, ; Frame structure means for constructing a frame using frame structure information transmitted from the frame management means, a transport stream (TS) received from the storage means, and a transport stream (TS) received from the outside; And Frame transmitting means for transmitting a frame received from the frame forming means Wherein the transmission delay time of the data packet is shorter than the transmission delay time of the data packet. The method according to claim 1, Wherein the frame construction means comprises: Frame field configuration means for configuring a frame configuration field using frame configuration information received from the frame management means; A quick information channel (FIC) constructing means for constructing a fast information group (FIG) field using configuration information including the program structure table (PMT) and program association table (PAT) analysis information, ; (MSC) for constructing a main service channel (MSC) using frame structure information transmitted from the frame management means, a transport stream (TS) received from the storage means and a transport stream (TS) MSC) means; And A multiplexing means for multiplexing the data received from the frame field configuration means, the fast information channel (FIC) configuration means and the main service channel (MSC) Wherein the transmission delay time of the data packet is shorter than the transmission delay time of the data packet. 3. The method of claim 2, The Fast Information Channel (FIC) (FIG) field corresponding to each piece of configuration information using the configuration information including the program structure table (PMT) and the program association table (PAT) analysis information transmitted from the frame management means And constructing a fast information group (FIG) data including the new fast information group (FIG) field and the fast information group (FIG) header. A transmission method for shortening an access delay time of a data packet, Analyzing a table including the program structure table (PMT) and the program association table (PAT) from the program characteristic information (PSI) and deriving analysis information and frame configuration information to be transmitted through the fast information channel (FIC) ; An external adaptation step of enhancing error tolerance of the transport stream (TS); A frame constructing step of constructing a frame by using the analysis information, the frame configuration information, the transport stream (TS) reinforced with the error resilience and the transport stream (TS) received from the outside; And A frame transmitting step of transmitting the configured frame The method comprising the steps of: 5. The method of claim 4, Wherein the frame- A frame field configuration step of configuring a frame configuration field using the frame configuration information; A fast information channel (FIC) constructing a fast information group (FIG) field using configuration information including the program structure table (PMT) and program association table (PAT) analysis information; A main service channel (MSC) configuration step of configuring a main service channel (MSC) using the frame configuration information, the transport stream (TS) and the transport stream (TS) received from the outside; And A multiplexing step of multiplexing the above- The method comprising the steps of: 6. The method of claim 5, The fast information channel (FIC) Constructing a new quick information group (FIG) field corresponding to each piece of configuration information using the configuration information including the program structure table (PMT) and the program association table (PAT) analysis information, (FIG) field and a fast information group (FIG) header. The transmission method for shortening the access delay time of the data packet. A receiving apparatus for shortening an access delay time of a data packet, Receiving means for receiving an external RF signal; Channel decoding means for separating a signal received from the receiving means into fast information channel (FIC) data and main service channel (MSC) data; (FIC) data received from the channel decoding means to derive configuration information including a program association table (PAT) and program structure table (PMT) analysis information by analyzing a fast information group Fast information channel (FIC) interpretation means; (MSC) data processing means for separating an information stream (TS) from main service channel (MSC) data received from the channel decoding means using configuration information transmitted from the fast information channel (FIC) analyzing means ; An external decoding means for performing additional channel decoding on an information stream (TS) received from the main service channel (MSC) data processing means; Demultiplexing means for demultiplexing the information stream (TS) received from the outer decoding means by using the configuration information received from the fast information channel (FIC) analyzing means; And A fast information channel (FIC) analyzing means and a post-reception processing means for analyzing and decoding the configuration information and the information stream (TS) And for reducing the access delay time of the data packet. 8. The method of claim 7, The post-reception processing means, An initial object descriptor (IOD) for receiving the configuration information including the program association table (PAT) and program structure table (PMT) analysis information from the fast information channel (FIC) analysis means and generating an initial object descriptor (IOD) Way; Section analyzing means for generating an object descriptor (OD) / binary format for scene (BIFS) sync layer (SL) packet from the packet received from the demultiplexer; An elementary stream packet (PES) analyzing means for generating an audio / video sync layer (SL) packet from the packet received from the demultiplexing means; And An audio / video processing means for decoding packets received from the initial object descriptor (IOD) analyzing means, the section analyzing means, and the elementary stream packet analyzing means And for reducing the access delay time of the data packet. 9. The method according to claim 7 or 8, The Fast Information Channel (FIC) (FIG) field from fast information channel (FIC) data received from the channel decoding means, and transmits the information stream (TS) configuration information to the main service channel (MSC) data processing means, And transmits the configuration information including the program association table (PAT) and the program structure table (PMT) analysis information to the post-reception processing means. Gt; A receiving method for shortening an access delay time of a data packet, A channel decoding step of receiving an RF signal and separating it into fast information channel (FIC) data and main service channel (MSC) data; (FIC) field for extracting configuration information including a program association table (PAT) and program structure table (PMT) analysis information by analyzing a fast information group (FIG) field in the separated fast information channel ) Interpretation step; A main service channel (MSC) data processing step of separating an information stream (TS) from the separated main service channel (MSC) data using the configuration information; An outer decoding step of performing an additional channel decoding on the information stream TS; Demultiplexing the outer-decoded information stream (TS) using the configuration information; And A post-reception processing step of analyzing and decoding the configuration information and the information stream (TS) The method comprising the steps of: 11. The method of claim 10, Wherein the post-reception processing step comprises: An initial object descriptor (IOD) analysis step of generating initial object descriptor (IOD) data using configuration information including the program association table (PAT) and program structure table (PMT) analysis information; A section analyzing step of generating an object descriptor (OD) / a binary format for scene (BIFS) sync layer (SL) packet from the demultiplexed packet; An elementary stream packet (PES) analyzing step of generating an audio / video sync layer (SL) packet from the demultiplexed packet; And An audio / video processing step of decoding the packets into an audio / video signal The method comprising the steps of: The method according to claim 10 or 11, The Fast Information Channel (FIC) The fast information group (FIG) field is analyzed in the fast information channel (FIC) data and the configuration information including information stream (TS) configuration information, multiplexing information and program association table (PAT) The method comprising the steps of: receiving a data packet from a mobile station;

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