KR100762579B1 - Method for receiving digital multimedia broadcasting - Google Patents

Abstract

The present invention relates to a digital multimedia broadcasting reception method, and more particularly, to a pilot channel and a method of receiving a PAT.

An object of the present invention is to reduce the reception waiting time of a user by starting PAT reception in parallel with the reception of a pilot channel at the time of DMB reception.

The present invention relates to a method for receiving a digital multimedia broadcast, the method comprising: receiving a pilot channel; Receiving the PAT in parallel, while receiving the pilot channel.

DMB, Digital Multimedia Broadcasting, Pilot, PAT

Description

Method for receiving digital multimedia broadcasting

1 is a flowchart illustrating pilot channel and PAT reception according to the prior art;

2 is a block diagram of a terminal according to the present invention

3 is a flowchart illustrating pilot channel and PAT reception according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

210: CDM channel processing unit 220: merge unit

230: MPEG decoder 240: codec

The present invention relates to a method of receiving a pilot channel and a program association table (PAT) in a digital multimedia broadcasting (DMB) receiving terminal.

In recent years, standardization and commercialization of digital audio broadcasting has been carried out worldwide. In Europe, which adopted Eureka-147 as the digital audio broadcasting standard, DAB (Digital Audio Broadcasting) in Europe, DAR (Digital Audio Radio) in USA, DRB in Canada (Digital Radio Broadcasting) and International Telecommunication Union (ITU-R) use DSB (Digital Sound Broadcasting), and in Korea, it is used as DMB (Digital Multimedia Broadcasting).

Digital multimedia broadcasting refers to a broadcasting service that enables a user to watch various multimedia broadcasting in a multi-channel on the go through a personal portable receiver or a vehicle receiver equipped with an omnidirectional receiving antenna. The digital multimedia broadcasting includes both satellite broadcasting and terrestrial broadcasting. In particular, the satellite DMB adopted in Korea is a standard of the International Telecommunication Union (ITU) Rec. BO.1130-4: System-E adopts Code Division Multiplexing (CDM) technology similar to CDMA mobile phones.

Typically, MPEG (Motion Picture Exper Transport Stream Group) -2 transport stream is used as a transmission standard for satellite digital multimedia broadcasting. According to the DMB broadcasting standard, the DMB includes a pilot channel for transmitting configuration information of a CDM channel including Walsh code information, and a reception restriction system for transmitting authentication information for reception of digital multimedia broadcasting. It consists of a Conditional Access System (CAS) channel, an Electronic Program Guide (EPG) channel for transmitting information about a service channel, and at least one media channel for transmitting actual transport stream packet data.

The digital broadcasting center transmits program specific information (PSI) information to the digital broadcast receiving apparatus, and the broadcast receiving apparatus may receive transport stream data according to a channel selected by a user with reference to program specific information (PSI) information. Here, the PSI information includes a service description table (SDT), a program association table (PAT), and a program map table (PMT). The SDT includes broadcast service channels and related information that is currently being broadcast, and the user can select a desired channel with reference to the SDT. The PAT includes a broadcast channel ID (ID) currently being broadcast and a PID (Packet Identification Description) of a PMT having additional information of the broadcast channel. The PMT includes PIDs of video and audio transport streams corresponding to individual broadcast channels.

That is, the digital broadcast reception apparatus needs to know the PID (Packet Elementary Stream Packet Identification Description) value of the transport stream packet data of the channel in order to output the digital multimedia broadcasting of the predetermined broadcast channel. This PES PID can be known by searching the PAT and PMT for the channel ID of the channel selected by the user from the SDT.

In addition, in order to watch digital multimedia broadcasting, it is necessary to receive audio / video data of a channel that a user currently wants to watch among audio / video data of several channels in a transport stream.

In a baseband chip for general digital multimedia broadcasting reception, data of five CDM bands may be simultaneously received. In satellite digital multimedia broadcasting, one band is allocated for pilot transmission, two bands are allocated to a channel transmitting electronic program guide information (EPG) and a channel transmitting receiver limited system information (CAS), and audio / video data. Allocate 1-2 bands per channel. Of the five bands that can be received by the baseband chip, one must be used for pilot channels and two for CAS and EPG, so there are two available bands for audio / video reception. The terminal must set up the baseband chip to receive audio / video data of the channel the user wants to watch.

For this configuration, pilot channel information and PAT information are required. After the pilot channel has been received in the existing terminal, the baseband chip is set and the PAT is received.

Referring to FIG. 1 in detail, first, when the user switches to the DMB reception mode, the DMB module is turned on and started (S110). The pilot channel is first received at the same time the module is started (S120). When reception of the pilot channel is completed, two bands of the baseband chip are set to a channel for transmitting an electronic program guide (EPG) and a channel for transmitting receiver limited system information (CAS) (S130). After the baseband chip is set, PAT reception is started (S140). When the PAT reception is completed, the remaining band of the baseband chip is set as an audio / video channel (S150), and PMT is received (S160). After receiving the PMT, audio / video buffering is performed (S170) and broadcast reproduction is started (S180).

Therefore, in order to watch digital multimedia broadcasting, the user must wait for the start time of the terminal including the pilot and PAT reception time.

That is, if the pilot reception and PAT reception required for baseband chip configuration are sequentially performed according to the conventional method, it takes time equal to the sum of the time required for pilot channel reception and the time required for PAT reception. There is a problem that the reception waiting time is long.

An object of the present invention is to provide a DMB reception method for reducing a reception waiting time.

Since baseband chip setting required for PAT reception is to set CAS channel and EPG channel, PAT can be received even without receiving and confirming pilot information.

Accordingly, an object of the present invention is to reduce the reception waiting time for the user to wait for DMB broadcasting reception by simultaneously performing pilot reception and PAT reception in parallel.

Digital multimedia broadcasting receiving method according to the present invention,

Receiving a pilot channel;

Receiving the PAT in parallel, while receiving the pilot channel.

In the present invention, the PAT reception is characterized in that it starts before the reception of the pilot channel ends.

In addition, the digital multimedia broadcasting reception method according to the present invention, further comprising the step of confirming whether the pilot channel and the PAT is received.

In addition, the method for receiving digital multimedia broadcasting according to the present invention may further include setting a CAS channel for receiving the PAT.

In addition, in the present invention, the CAS channel setting step may be set before the pilot channel reception ends.

In the present invention, the step of confirming the pilot channel and the PAT reception is characterized in that the reception of the pilot channel and the PAT is completed late.

It will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a digital broadcast receiver according to an embodiment of the present invention.

Referring to FIG. 2, the apparatus for receiving digital broadcasting according to an embodiment of the present invention merges and transmits the CDM channel processing unit 210 and the CDM channel data which deinterleaves and outputs CDM channel data received through one or more predetermined CDM channels. Merge unit 220 for generating a stream, MPEG decoder 230 for outputting predetermined broadcast channel data by MPEG decoding the transport stream from merge unit 220 and digital signal which is broadcast channel data provided from MPEG decoder 230 It includes a codec 240 for converting to an audio signal or an image signal.

The CDM channel processor 210 is configured to receive and process five CDM channels. Essentially, the CDM channel processor 210 receives a channel for transmitting pilot information, an EPG channel, and a CAS channel. In addition, the CDM channel processing unit 210 may receive one or more CDM transmission channels for actually transmitting broadcast channel data.

According to a preferred embodiment of the present invention, the CDM channel processing unit 210 may be a baseband chip, and starts to receive a pilot channel at the same time as the start of the digital multimedia DMB module, and in parallel before the reception of the pilot channel is terminated. After setting the band for receiving the EPG channel and CAS channel, and receives the channel information including the PAT.

Upon reception of the pilot channel and the PAT, reception of actual broadcast channel data, that is, audio / video information is started.

In this case, the number of CDM channels that can be decoded by the digital broadcast receiver is generally smaller than the total number of CDM channels provided by the DMB system. Specifically, when the ARIB STD B41, a satellite DMB transmission / reception standard, is used, the DMB system transmits data on 29 channels using 30 channels and a control signal on one of them. The 29 channels that transmit data transmit 512 Kbps per channel. However, each channel has a capacity of 256Kbps according to 1/2 convolutional coding, and can transmit valid data of 188/204 = about 236Kbps with R-S coding. Therefore, since there are 29 channels in total, the satellite DMB system can transmit data of approximately 6.844Mbps.

Meanwhile, the DMB system may divide and transmit the AV broadcast channel data into two transmission channels without carrying one AV broadcast channel data on one CMD transmission channel. In the case of an audio broadcast channel, multiple audio broadcast channel data may be serviced through one transport channel. Since the audio broadcast channel data capacity is approximately 48 Kbps, one transport channel (CDM channel) can carry about 236/48 = approximately five audio broadcast channel data. The transmission channel contains a mixture of broadcast channel data through multiplexing equipment.

The CDM channel processor 210 may receive one or more CDM transmission channels for transmitting broadcast channel data streams. The deinterleaved CDM channel data output from the CDM channel processor 210 is output to the merge unit 220.

The merge unit 220 merges the CDM channel data to generate a transport stream. As described above, since the broadcast channel data is multiplexed into several transport channels, the merge unit 220 generates a transport stream from the received CDM channels and provides the transport stream to the MPEG decoder 230. The transport stream may include one or more broadcast channel data. That is, the merge unit 220 merges broadcast channel data transmitted through various transport channels to generate a transport stream including various broadcast channel data.

The MPEG decoder 230 extracts and outputs broadcast channel data according to a user's selection from the transport stream output from the merge unit 220. When the user selects a desired broadcast channel, a PID (Packet ID) corresponding to the selected broadcast channel is provided to the MPEG decoder 230. The MPEG decoder 230 outputs desired broadcast channel data in the transport stream according to the PID selected by the user.

The codec 240 converts a digital signal, which is broadcast channel data provided from the MPEG decoder 230, into an audio signal or a video signal.

2 shows an overall flowchart according to an embodiment of the present invention.

First, when the user presses the broadcast receiving key, the DMB module starts (S310).

When the DMB module starts, it first starts receiving a pilot channel (S320). The pilot channel is first received as including a correspondence table between the logical service channel and the CDM channel and additional information for receiver control.

In order to start receiving the pilot channel and simultaneously receiving the PAT, bands 1 and 2 of the CDM channel processing unit are set in parallel to the CAS channel and the EPG channel (S321). After setting of the CDM channel processing unit, PAT reception is started (S322). Although only the PAT reception is shown in the accompanying drawings, all information transmitted through the CAS channel and the EPG channel is received together with the PAT. At this time, reception of the pilot channel and reception of the PAT should be performed in a task or a thread, which is an entity capable of performing a task independently, and each task or thread should operate independently of each other. The channel setting is preferably set at the same time as receiving the pilot channel, but is not limited thereto. The channel setting may be performed until the completion of the pilot channel reception.

It is checked whether both the pilot channel and the PAT have been received (S330), and when all are received, the following process is performed by the same method as the existing method. In this case, when the task of receiving the pilot and the task of receiving the PAT have completed the reception, the two processes are considered to have been completed. Alternatively, it is confirmed that reception is completed late between the pilot channel and the PAT.

If the procedure is described in detail after the reception completion check, the remaining bands 3 and 4 of the CDM channel processor are set to the audio / video channel to be viewed by the user (S340), and then the PMT is received (S350).

After receiving the PMT, audio / video buffering is performed (S360) and broadcast reproduction is started (S370).

In the above, bands 1 and 2 of the baseband chip are set in parallel with the reception of the pilot channel, but are not limited thereto. For those skilled in the art to which the present invention pertains, various substitutions and changes may be made without departing from the technical spirit of the present invention.

According to the DMB reception method proposed by the present invention, the reception wait time can be reduced since only the long time between the pilot channel reception time and the PAT reception time is waited for DMB reception. For example, if it takes 3 seconds to receive the pilot and 4 seconds to receive the PAT, it takes 7 seconds to receive the pilot and PAT according to the conventional method, but according to the present invention takes 4 seconds to reduce the waiting time 3 seconds have.

Claims (6)

In receiving a digital multimedia broadcast, Receiving a pilot channel; Receiving PAT in parallel while receiving the pilot channel. The method of claim 1, wherein the PAT reception starts before reception of a pilot channel ends. The method of claim 1, further comprising: checking whether the pilot channel and the PAT have been received. The method of claim 1, And setting a CAS channel for receiving the PAT. 5. The method of claim 4, wherein the CAS channel setting step is set before pilot channel reception ends. 4. The method of claim 3, wherein the step of confirming reception of the pilot channel and the PAT is confirmed that the reception of the pilot channel and the PAT is completed late.

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