KR100784761B1 - The method which trancodes digital multimedia broadcasing for retransmitting and the mobile terminal - Google Patents

Abstract

Disclosed are a transcoding method for retransmission of a digital multimedia broadcasting stream and a mobile terminal for performing the same. In the transcoding method for retransmission of a digital multimedia broadcasting stream according to the present invention, a TS packet corresponding to a tuned channel is detected from a received DMB stream, and video and audio data separated from the detected TS packet are framed. Decoding, converting the FPS of the decoded frames into a predetermined value; Converting the resolution of frames converted by the FPS and encoding video and audio data corresponding to the frames by a predetermined codec requested by an external device. According to the present invention, there is an advantage of retransmitting the received DMB stream to an external device that performs video and audio processing using a codec of a different standard from the received DMB stream.

Digital multimedia broadcasting, mobile terminal, codec, TS packet, PID, resolution

Description

Transcoding method for retransmission of digital multimedia broadcasting stream and mobile terminal for performing the same {The method which trancodes digital multimedia broadcasing for retransmitting and the mobile terminal}

1 is a block diagram showing the configuration of a mobile terminal according to the present invention;

2 is a flowchart provided to explain a transcoding method for retransmission of a DMB broadcast stream according to the present invention;

3A to 3C are diagrams illustrating a method in which the FPS of frames decoded by the FPS adjusting unit is adjusted to 15 according to an embodiment of the present invention; and

4A and 4B are diagrams for describing a method of downsampling an image frame having a resolution of 320 × 240 and changing the resolution to a resolution of 176 × 144.

Brief description of the main parts of the drawing

10: receiver 15: transmitter

20: TS packet detection unit 30: first storage unit

35: second storage unit 40: ES separation unit

50: decoding unit 60: FPS conversion unit

70: resolution converting unit 80: encoding unit

90: packetizing unit 100: mobile terminal

The present invention relates to a transcoding method for retransmission of a DMB broadcast stream and a mobile terminal for performing the same.

Recently, digital multimedia broadcasting (DMB) has emerged as a growth engine that is attracting the most attention in the next generation broadcasting and communication convergence era.

DMB originally started out as digital audio broadcasting (DAB), which aims at digital conversion of radio broadcasting, but has evolved into a comprehensive mobile multimedia service including video as well as voice. DMB is a broadcast providing CD quality sound and data or video service through a mobile terminal in a mobile or fixed location, and is classified into terrestrial DMB and satellite DMB according to a transmission means.

Meanwhile, a mobile terminal known to date has a function of recording and playing back using a PVR (personal video recorder) function after receiving a digital multimedia broadcasting signal as described above.

However, such a conventional mobile terminal only has a function of storing or playing the received digital multimedia broadcasting signal. That is, the conventional mobile terminal does not have a function of changing the format of the received DMB stream and storing or transmitting the same.

Therefore, there is no method of transmitting the received DMB stream to an external device (eg, a video terminal) that performs video and audio processing using a codec of a different standard from the DMB stream. there was.

Accordingly, an object of the present invention is to provide a transcoding method for retransmission of a DMB broadcast stream, which enables to change the format of a DMB stream received from the outside and store or retransmit to an external device, and a mobile terminal for performing the same. .

According to an aspect of the present invention, there is provided a transcoding method for retransmission of a digital multimedia broadcasting stream, wherein a TS (Transport Stream) packet corresponding to the tuned channel is detected from a received DMB stream using tuned channel information. step; Separating an elementary stream (ES) from the detected TS packet and decoding the frame unit; Converting the frame per second (FPS) of the decoded frames into a predetermined value; Converting the resolution of frames converted by the FPS; And encoding data corresponding to the frames by a predetermined codec requested from an external device.

In addition, in the transcoding method for retransmission of a digital multimedia broadcasting stream according to the present invention, a TS packet corresponding to a tuned channel is detected from a DMB stream received, and video and audio data separated from the detected TS packet are framed. Decoding in units; Converting the FPS of the decoded frames into a predetermined value; Converting the resolution of frames converted by the FPS; And encoding video data and audio data corresponding to the frames by a predetermined codec requested from an external device.

In addition, the mobile terminal according to the present invention includes a TS packet detector for detecting a TS (Transport Stream) packet corresponding to the channel selected from the DMB stream received using the channel information; An ES separation unit for separating an elementary stream (ES) from the detected TS packets; A decoding unit for decoding the ES in units of frames; An FPS conversion unit for converting FPS (Frame Per Second) of decoded frames into a predetermined value; A resolution converting unit converting the resolutions of the frames converted by the FPS; And an encoding unit encoding data corresponding to the frames by a predetermined codec requested from an external device.

In addition, the mobile terminal according to the present invention includes a decoding unit for decoding video data and audio data separated from a transport stream (TS) packet detected from a received digital multimedia broadcasting (DMB) stream on a frame basis; An FPS conversion unit for converting FPSs of decoded frames into predetermined values; A resolution converting unit converting the resolutions of the frames converted by the FPS; And an encoding unit encoding video data and audio data corresponding to the frames by using a predetermined codec requested from an external device.

Hereinafter, with reference to the accompanying drawings illustrating the present invention.

1 is a block diagram showing the configuration of a mobile terminal according to the present invention.

Referring to FIG. 1, the mobile terminal 100 includes a receiver 10, a transmitter 15, a TS packet detector 20, a first storage unit 30, a second storage unit 35, and an ES separation unit ( 40, a decoding unit 50, an FPS conversion unit 60, a resolution conversion unit 70, an encoding unit 80, and a packetizing unit 90. On the other hand, it is obvious that other components other than the above components may be included in the mobile terminal 100.

The receiver 10 receives a DMB stream transmitted from the outside through an antenna, and provides the received DMB stream to the TS packet detector 20.

The TS packet detector 20 is based on a packet identification number (hereinafter referred to as a 'PID') located in a header of a transport stream packet (hereinafter, referred to as a TS packet) in a digital multimedia broadcasting stream. To detect TS packets corresponding to the broadcast program selected by the user from the received DMB stream.

When there is a recording request for the broadcast signal received from the user through the input unit (not shown), the first storage unit 30 stores the TS packets detected by the TS packet detector 20. TS packets stored in the first storage unit 30 are provided to the ES separation unit 40 when a reproduction request is made.

The ES separator 40 parses the headers of the TS packets detected by the TS packet detector 20 to separate an elementary stream (ES). The decoding unit 50 decodes the separated ES in a frame unit (or picture unit).

The FPS converter 60 converts the frame per second (FPS) of the decoded frames. FPS refers to the number of frames displayed on the screen per second. In general, in the DMB broadcasting system, the number of frames (FPS) displayed per second is set to 15 to 30. The FPS converter 60 according to the preferred embodiment of the present invention converts the FPS of the decoded frames to 15. .

The resolution converter 70 adjusts the resolution of the frame in which the FPS is converted. In a preferred embodiment of the present invention, the resolution converting unit 70 converts the resolution of a general DMB frame into a resolution applicable to a video telephony (VT) system or a resolution to enable transmission of a video mail.

The encoder 80 encodes the video data and the audio data by using a codec of a standard suitable for a VT system or a video mail transmission.

The packetizing unit 90 packetizes the encoded video / audio data into a format suitable for a VT system or a video mail transmission. The second storage unit 35 stores the packetized video / audio data, and the transmitter 15 transmits the packetized video / audio data to an external device.

2 is a flowchart provided to explain a transcoding method of a DMB broadcast stream according to the present invention.

1 and 2, when a digital multimedia broadcast stream transmitted from the outside is received (S210), the TS packet detector 20 broadcasts selected by a user based on a PID located in a header of a TS packet in a DMB stream. The TS packets corresponding to the program are detected from the received DMB stream (S220).

For example, the broadcast program of KBS channel 7 has audio information in TS packets with PID 701, the video information in TS packets with PID 702, and the broadcast program of MBC channel 11 has TS with PID 111. There is audio information in the packets and video information in TS packets having a PID of 112. At this time, when the user selects viewing of KBS channel 7, the TS packet detection unit 20 detects only TS packets including PIDs 701 and 702 from the DMB stream to view KBS channel 7.

TS packet is a transport format for transmitting an MPEG2 stream. In terrestrial DMB, an MPEG4 stream is included in a TS packet.

Subsequently, the ES separator 40 parses the headers of the TS packets detected by the TS packet detector 20 to separate an elementary stream (ES) (S230). That is, the ES can be obtained by collecting only payloads which are actual transmission data parts excluding a header from the detected TS packets.

The separated ES is decoded by the decoding unit 50 in frame units (or picture units) (S240).

Subsequently, the frame per second (FPS) of the frames decoded by the FPS converter 60 is converted (S250). FPS refers to the number of frames displayed on the screen per second. In general, in the DMB broadcasting system, the number of frames (FPS) displayed per second is set to 15 to 30. In the FPS converter 60 according to the preferred embodiment of the present invention, the FPS of the decoded frames is converted to 15. .

4A to 4C illustrate a method in which the FPS of frames decoded by the FPS converter 60 is adjusted to 15 according to an embodiment of the present invention. FIG. 4A is a case where an initially set FPS is 30. 4B shows a case where the initial set FPS is 24, and FIG. 4C shows a case where the initial set FPS is 18. FIG.

First, referring to FIG. 3A, when the initially set FPS is 30, the FPS converter 60 converts the FPS to 15 by removing the odd (or even) frames.

Next, referring to FIG. 3B, in the case where the initially set FPS is 24, the FPS converter 60 inserts a frame that is repeated with the previous frame every four frames and converts the FPS to 30, then FIG. 4A. The FPS is converted to 15 by removing the odd (or even) frames as shown in FIG.

Finally, referring to FIG. 3C, in the case where the initially set FPS is 18, the FPS converter 60 inserts a previous frame and a repeated frame every three frames, converts the FPS to 24, and then reverts to four. For each frame, adjust the FPS to 30 by inserting a repeating frame with the previous frame. Subsequently, removing the odd (or even) frames and converting the FPS to 15 is the same as described above.

As such, when the number of frames displayed on the screen per second is adjusted by the FPS converter 60, the resolution of the frame is adjusted by the resolution converter 70 (S260).

In general, DMB frames have a resolution of 320 × 240 or 352 × 240. The resolution converting unit 70 according to a preferred embodiment of the present invention converts the resolution of such a general DMB frame into a resolution applicable to a video telephony (VT) system or a resolution for transmitting a video mail. In particular, in a preferred embodiment of the present invention, a method of converting an image frame having a resolution of 320 × 240 into an image frame having a resolution of 176 × 144 is proposed.

4A and 4B are diagrams for describing a method of downsampling an image frame having a resolution of 320 × 240 and converting it to a resolution of 176 × 144. Referring to FIG. 4A, the resolution converter 70 adjusts a resolution of an image frame to be 352 × 288 by filling dummy macroblocks or pixels in the lower and right sides of an image frame having a resolution of 320 × 240. do.

Next, as shown in FIG. 4B, the resolution converter 70 removes even pixel lines among the 288 horizontal pixel lines, and adjusts the number of horizontal pixel lines to be 144. Finally, the resolution converter 70 adjusts the number of vertical pixel lines to be 176 by removing the even pixel lines among the 352 vertical pixel lines.

In this embodiment, the resolution conversion is performed on the horizontal pixel lines first, and then the resolution conversion is performed on the vertical pixel lines, but the order may be changed. That is, the resolution conversion may be performed on the vertical pixel lines first, and then the resolution conversion may be performed on the horizontal pixel lines.

When the resolution adjustment for the image frame is completed in this manner, the encoding unit 80 encodes the video data and the audio data using a codec of a standard suitable for VT system or video mail transmission ( S270).

In general, H.264 is used as a video codec in DMB, and MPEG-4 part2 video or H.263 video codec is used in a VT system or a system for video mail transmission. In addition, DMB uses AAC + (Advanced Audio Coding +) or BASC (Bit Sliced Arithmetic Coding) as an audio codec, while in VT systems, AMR (Adaptive Multi-Rate), G.711, G.723, and G.729 are used as audio codecs. Etc.

In a preferred embodiment of the present invention, the encoding unit 80 encodes video data using a video codec of MPEG-4 part2 video or H.263 standard, which is a standard suitable for a VT system, AMR, G.711, G Audio data is encoded using an audio codec such as .723 or G.729.

Subsequently, the video / audio data encoded by the packetizing unit 90 is packetized in a format suitable for VT system or video mail transmission (S280). In general, there is a Real-time Transport Protocol (RTP) as a format suitable for a VT system or a video mail transmission. In a preferred embodiment of the present invention, encoded video / audio data is packetized in an RTP format. Such RTP packetizing is performed according to a request for comments (RFC) standard.

When packetizing is completed in this manner, the video / audio data packetized by the user's selection is stored in the second storage unit 35 or transmitted to external devices through the transmitter unit 15. It may be (S290).

As described above, since the present invention encodes and stores video and audio data by using a codec of a standard requested by a VT system, an external device using a codec of a different standard from a codec used in a DMB stream is performed. The DMB stream can be retransmitted.

As described above, according to the present invention, the resolution of the DMB frame or the FPS can be changed, and the format of the received DMB stream can be changed by an encoding method different from the DMB standard. Accordingly, there is an advantage in that the received DMB stream can be retransmitted to an external device (eg, a video terminal) that performs video and audio processing using a codec of a different standard from the received DMB stream.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the present invention is not limited to the specific embodiments of the present invention without departing from the spirit of the present invention as claimed in the claims. Anyone skilled in the art can make various modifications, as well as such modifications that fall within the scope of the claims.

Claims (26)

Detecting the TS packet corresponding to the broadcast program selected by the user based on a PID (Packet IDentification) located in a header of a TS packet from a digital broadcast stream received from the outside; Parsing the header of the detected TS packet to separate a payload corresponding to actual transmission data, separating an ES (Elementary Stream) obtained by decoding, and decoding the frame unit; Converting a frame per second (FPS) value of the decoded frame; Converting a resolution of a frame having the converted FPS value; Encoding data corresponding to the frame having the converted resolution according to a predetermined codec requested by an external device; And Packetizing the encoded data into a predetermined format; Transcoding method of a mobile terminal comprising a. Claim 2 was abandoned when the setup registration fee was paid. The method of claim 1, The predetermined format is a transcoding method of a mobile terminal, characterized in that the RTP (Real-time Transfer Protocol) format. Claim 3 was abandoned when the setup registration fee was paid. The method of claim 1, The FPS is a transcoding method of a mobile terminal, characterized in that it represents the number of frames displayed per second. Claim 4 was abandoned when the registration fee was paid. The method of claim 1, Converting the FPS value, And when the initial set FPS value of the decoded frame is 30, converting the FPS value to 15 by removing odd or even frames. Claim 5 was abandoned upon payment of a set-up fee. The method of claim 1, Converting the FPS value, When the initial set FPS value of the decoded frame is 24, the FPS value is converted to 30 by inserting a repeating frame with a previous frame every four frames, and then the odd or even frames are removed to remove the FPS value. Transcoding method of a mobile terminal, characterized in that the conversion to 15. Claim 6 was abandoned when the registration fee was paid. The method of claim 1, Converting the FPS value, When the initial FPS value of the decoded frame is 18, the previous frame and the repeated frame are inserted into every three frames to convert the FPS value to 24, and the previous frame and the repeated frame are inserted into every four frames. And converting the FPS value to 15 by removing the odd or even frames after converting the FPS value to 30. Claim 7 was abandoned upon payment of a set-up fee. The method of claim 1, The converting of the resolution may include filling dummy macroblocks or pixels on the lower and right sides of the frames to convert the resolution of the frames, and then removing odd or even horizontal horizontal pixel lines and vertical pixel lines. Transcoding method of a mobile terminal, characterized in that for converting the resolution of the frames. Claim 8 was abandoned when the registration fee was paid. The method of claim 1, The encoding method may include encoding according to a predetermined codec requested by the external device, the terminal including a terminal having a video call function and a terminal having a video playing function. A receiver for receiving a digital broadcast stream from the outside; A TS packet detection unit that detects the TS packet corresponding to the broadcast program selected by the user based on a packet IDentification (PID) located in a header of a TS (Transport Stream) packet from the digital broadcast stream; An ES separation unit for parsing the header of the detected TS packet and separating an ES (Elementary Stream) obtained by collecting payloads corresponding to actual transmission data; A decoding unit for decoding the ES in units of frames; An FPS converter for converting a frame per second (FPS) value of the decoded frame; A resolution converter for converting the resolution of the frame having the converted FPS value; An encoding unit encoding data corresponding to the frame of the converted resolution according to a predetermined codec requested by an external device; And A packet izing unit configured to packetize the encoded data in a predetermined format; Mobile terminal comprising a. Claim 10 was abandoned upon payment of a setup registration fee. The method of claim 9, The predetermined format is a mobile terminal, characterized in that the Real-time Transport Protocol (RTP) format performed according to the Request For Comments (RFC) standard. delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete

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