KR101377450B1 - Terrestrial broadcast reception system for implementing digital broadcasting by broadcast signal format conversion - Google Patents

Abstract

Provided by the present invention is a terrestrial broadcast reception system which implements digital broadcasting through conversion of a broadcast signal format by including: a terrestrial reception decoder which outputs a first broadcast signal format (F1) which has a fixed form about a first modulation mode, number of channels, compression form, and transmission speed by performing modulation and decoding of a terrestrial broadcast signal which is transmitted from a broadcasting station; a format converter which receives the first broadcast signal format (F1), converts the first broadcast signal format into a second broadcast signal format (F2) which has a fixed form about a second modulation mode, number of channels, compression form, and transmission speed, and then outputs the second broadcast signal format; and a reception terminal group which implements digital broadcasting by receiving the second broadcast signal format (F2). [Reference numerals] (210) Terrestrial reception decoder; (220) Format converter; (231) First reception terminal; (232) Second reception terminal; (23N) N^th reception terminal

Description

TERRESTRIAL BROADCAST RECEPTION SYSTEM FOR IMPLEMENTING DIGITAL BROADCASTING BY BROADCAST SIGNAL FORMAT CONVERSION}

The present invention relates to a terrestrial broadcast receiving system that implements digital broadcasting by converting a broadcast signal format. More particularly, the present invention relates to 8-VSB and 1-channel methods through a format converter. Method or 8-VSB, 2 channel method, and convert the compressed format of SD-quality program from H.264 to MPEG-2, and increase the transmission speed by 3 times or more to provide better terrestrial broadcasting service. The present invention relates to a terrestrial broadcast reception system for implementing digital broadcasting through broadcast signal format conversion.

Recently, with the development of the electronics industry, the digitization of television (TV) systems has been actively progressed. In response to this trend, the government plans to discontinue the current analog TV broadcast in 2012 and switch to digital television (DTV) broadcasting.

With the launch of digital broadcasting services, the number of digital and analog broadcasting channels transmitted by terrestrial, cable, satellite, etc. has increased to 100 or more. In order to receive the broadcast of so many channels, a set top box is inevitably required.

1 shows a receiving apparatus for receiving a terrestrial broadcast according to the prior art.

Referring to FIG. 1, the conventional terrestrial broadcast receiving system 100 includes a terrestrial wave receiver decoder 110, a set-top box group 120, and an analog TV group 130.

The terrestrial wave receiver decoder 110 modulates and decodes a terrestrial broadcast signal transmitted from a broadcasting station through an antenna.

The set top box group 120 includes a plurality of first set top boxes 121 and second set top boxes 122 to N-th set top boxes 12N.

The first set-top box 121 is connected to the first analog TV 131, and converts the digital video signal output from the terrestrial reception decoder 110 into an analog video signal and transmits the analog video signal to the first analog TV 131. The analog TV 131 enables digital broadcasting.

Similarly, the second to Nth set top boxes 122 to 12N are connected to the second to Nth analog TVs 132 to 13N, respectively, and convert the digital video signal output from the terrestrial wave receiver decoder 110 into an analog video signal. In this case, the second to N-th analog TVs 132 to 13N are transmitted to each of the second to N-th analog TVs 132 to 13N, thereby enabling digital broadcasting.

However, the related art has a problem in that it is cumbersome and expensive to install a set top box for each analog TV in order to watch digital broadcasting.

In addition, the prior art buffers the signal output from the terrestrial wave receiver decoder 110 without changing the compression format or transmission speed, and receives the output signal format initially provided as it is, thereby watching HD (High Definition) -class video. There was a problem that occurs.

The technical problem to be solved by the present invention is to convert the 8-VSB, 1 channel method output from the terrestrial receiver decoder to 8-VSB, 4 channel method or 8-VSB, 2 channel method through the format converter, SD quality A terrestrial broadcast receiving system that converts the compression format of a program from H.264 to MPEG-2 and converts the broadcast signal format that provides more terrestrial broadcasting services by increasing the transmission speed by more than three times. To provide.

A terrestrial broadcast receiving system implementing digital broadcasting by converting a broadcast signal format according to the present invention for achieving the technical problem, after receiving a terrestrial broadcast signal transmitted from a broadcasting station performs a modulation (modulation) and decoding (decoding) operation A terrestrial wave reception decoder for outputting a first broadcast signal format F ₁ having a first modulation scheme, a number of channels, a compression format, and a transmission format; Format to output after converting into the first broadcasting signal format (F ₁₎ the second broadcast signal format (F ₂₎ input received having a certain format for the modulation scheme, a channel number, a compression format, the transmission rate of the second transducer ; And a receiving terminal group that receives the second broadcast signal format F ₂ and implements digital broadcasting.

According to the present invention, it is not necessary to install a set top box for each receiving terminal by installing a format converter, and there is a technical effect of watching a program having an image quality of SD or higher without buffering.

1 shows a receiving apparatus for receiving a terrestrial broadcast according to the prior art.
2 shows a terrestrial broadcast receiving system according to the present invention.
3 shows a compression format and transmission scheme of terrestrial broadcasting before and after passing through a format converter according to a first embodiment of the present invention.
4 shows a compression format and a transmission method of terrestrial broadcasting before and after passing through a format converter according to a second embodiment of the present invention.

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

2 shows a terrestrial broadcast receiving system according to the present invention.

Referring to FIG. 2, the terrestrial broadcast reception system 200 according to the present invention includes a terrestrial wave reception decoder 210, a format converter 220, and a receiver terminal group 230.

The terrestrial wave receiver decoder 210 modulates and decodes the terrestrial broadcast signal transmitted from a broadcasting station through an antenna.

The terrestrial broadcast signal refers to terrestrial digital multimedia broadcasting (DMB) as compared to satellite digital multimedia broadcasting (DMB).

The received terrestrial broadcast signal is modulated in the form of 8-VSB (8-Vestigial Side Band), and it is an MPEG-2 standard for high definition television (HDTV) through one channel (bandwidth: 6 MHz, maximum transmission speed: 19.39 Mbps) HD quality video and standard definition video (SDTV) for MPEG4 Part 10 AVC (H.264) standard SD video video is transmitted.

8-VSB (8-Vestigial Side Band) is a digital terrestrial television (TV) standard transmission method defined by ATSC, which enacts the US broadcasting standard, and Korea's terrestrial digital television (TV) broadcasting method is based on this technology. have.

The 8-VSB (8-Vestigial Side Band) method is a digital television (TV) transmission method using 8 levels of modulation signal levels and residual sideband (VSB) modulation technology. It transmits data at a transmission rate of 19.39Mbps (effective data rate except 19bit is 19.28Mbps) in 6MHz bandwidth, and uses MPEG-2 for video compression and Dolby Digital technology for audio coding.

MPEG-2 is an international standard for encoding and compressing color video and audio for digital television broadcasting, communication, and storage media. The video transmission speed was originally 4 to 10 Mbps, but in view of the definition of high definition television (HDTV), It increased to 4-100Mbps, making it a much higher definition standard than MPEG-1.

MPEG4 Part 10 AVC (H.264) is a digital video codec standard that has a very high data compression ratio, and when compared to MPEG-2 or MPEG-4, the video quality is similar or better than half the bit rate. Was developed to get.

The format converter 220 converts the first broadcast signal format F ₁ output from the magnetic wave reception decoder 210 into a second broadcast signal format F ₂ .

Here, the first broadcast signal format F ₁ is a format of one HD video image having an MPEG-2 standard transmitted through 8-VSB, one channel (bandwidth: 6 MHz, maximum transmission rate: 19.39 Mbps), or A format of a plurality of SD video images having MPEG4 Part 10 AVC (H.264) standard.

The second broadcast signal format F ₂ is transmitted in 8-VSB, 4 channels (bandwidth: 6 MHz, maximum transmission rate: 19.39 Mbps) or 8-VSB, 2 channels (bandwidth: 6 MHz, maximum transmission rate: 19.39 Mbps). A format of one HD video image having an MPEG-2 standard or a format of a plurality of SD video images having an MPEG-2 standard.

That is, the format converter 220 increases the number of channels (e.g., one ----> four or two) to have a faster video data transmission rate within the maximum transmission rate (19.39 Mbps or less) allowed by the channel. ), Converts the video compression format (eg H.264 -----> MPEG-2).

The receiving terminal group 230 includes a plurality of first receiving terminals 231 capable of receiving digital broadcasts, second receiving terminals 232 to N-th receiving terminals 23N, and each receiving terminal 231. 23N) receives the second broadcast signal format S ₂ converted through the format converter 220 to provide a high quality broadcast to the user at a higher speed.

3 shows a compression format and transmission scheme of terrestrial broadcasting before and after passing through a format converter according to a first embodiment of the present invention.

Referring to FIG. 3, the first embodiment illustrates a process of converting an 8-VSB, a 1-channel method to an 8-VSB, a 4-channel method through the format converter 220.

Hereinafter, a case in which four programs are transmitted by the broadcasting station KBS will be described.

First, before passing through the format converter 220, four programs: KBS1: HD (MPEG-2, 12Mbps), JOY: SD (H.264, 2Mbps), Drama: SD (H.264, 2Mbps), Sports: SD (H.264, 2Mbps) has a first broadcast signal format (F ₁ ) transmitted in 8-VSB, 1 channel (bandwidth: 6MHz, total transmission rate: 18Mbps <maximum transmission rate: 19.39Mbps).

Next, when the first broadcast signal format F ₁ passes through the format converter 220, four programs are divided into 8-VSB, 2 channels (bandwidth: 6 MHz, and respective transmission speeds (12 Mbps, 6-8 Mbps, 6). ~ 8Mbps, 6 ~ 8Mbps) <maximum transmission rate: 19.39Mbps) is converted to the second broadcast signal format (F ₂ ) transmitted.

In this case, KBS1: HD (MPEG-2, 12Mbps) with HD image quality does not change the compression format and transmission speed, but JOY: SD (H.264, 2Mbps), Drama: SD (H.264, HD) with SD image quality. 2Mbps), Sports: SD (H.264, 2Mbps) are JOY: SD (MPEG-2, 6 ~ 8Mbps), Drama: SD (MPEG-2, 6 ~ 8Mbps), Sports: SD (MPEG-2, 6 ~ 8Mbps), the compression format and transmission speed are changed.

That is, in the case of the first embodiment, while 8-VSB, 1-channel method is converted to 8-VSB, 4-channel method, while JOY, Drama, and Sports having SD image quality pass through the format converter 220, the compressed format is H.264. Is converted to MPEG-2, and the transmission speed is 3 to 4 times larger from 2 Mbps to 6 to 8 Mbps, providing better broadcasting service than before conversion.

4 shows a compression format and a transmission method of terrestrial broadcasting before and after passing through a format converter according to a second embodiment of the present invention.

Referring to FIG. 4, the second embodiment illustrates a process of converting an 8-VSB, a 1-channel method to an 8-VSB, a 2-channel method through the format converter 220.

Hereinafter, a case in which four programs are transmitted by the broadcasting station KBS will be described.

First, before passing through the format converter 220, four programs: KBS1: HD (MPEG-2, 12Mbps), JOY: SD (H.264, 2Mbps), Drama: SD (H.264, 2Mbps), Sports: The SD (H.264, 2Mbps) has a first broadcast signal format (F ₁ ) transmitted in the form of 8-VSB, 1 channel (bandwidth: 6 MHz, total transmission rate: 18 Mbps <maximum transmission rate: 19.39 Mbps).

Next, when the first broadcast signal format F ₁ passes through the format converter 220, four programs are divided into 8-VSB, 2 channels (bandwidth: 6 MHz, respective transmission speeds (12 Mbps, total 18 Mbps + 6 Mbps +). 6 Mbps + 6 Mbps) <maximum transmission rate: 19.39 Mbps) is converted into a second broadcast signal format (F ₂ ) transmitted.

In this case, KBS1: HD (MPEG-2, 12Mbps) with HD image quality does not change the compression format and transmission speed, but JOY: SD (H.264, 2Mbps), Drama: SD (H.264, HD) with SD image quality. 2Mbps), Sports: SD (H.264, 2Mbps) is JOY: SD (MPEG-2, 6Mbps), Drama: SD (MPEG-2, 6Mbps), Sports: SD (MPEG-2, 6Mbps) And baud rate change.

That is, in the second embodiment, the 8-VSB, 1-channel method is converted to 8-VSB, 2-channel method, while the JOY, Drama, Sports having the SD image quality passes through the format converter 220, the compressed format is H. 264 is converted to MPEG-2, and the transmission speed is tripled from 2 Mbps to 6 Mbps, thereby providing a better broadcasting service than before conversion.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. 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 of the invention.

110: terrestrial reception decoder
120: set top box group
121 ~ 12N: 1st ~ Nth Set Top Box
130: analog TV group
131-13N: 1st-Nth analog TV
210: terrestrial reception decoder
220: format converter
230: receiving terminal group
231 ~ 23N: 1st ~ Nth Set Top Box
F ₁ : first broadcast signal format
F ₂ : second broadcast signal format

Claims (7)

After receiving the terrestrial broadcast signal transmitted by the broadcasting station, the modulation and decoding operations are performed to form a first broadcast signal format having a first modulation scheme, a constant number of channels, a compression format, and a transmission rate. A terrestrial wave reception decoder for outputting the signal;
A format converter for receiving the first broadcast signal format and converting the second broadcast signal format into a second broadcast signal format having a predetermined format for a second modulation scheme, number of channels, compression format, and transmission rate; And
And a receiving terminal group configured to receive the second broadcast signal format and implement digital broadcasting. The method of claim 1, wherein the first broadcast signal format is:
8-VSB, terrestrial broadcast reception system for implementing digital broadcasting through broadcast signal format conversion, characterized in that it has a one-channel format. 3. The method of claim 2,
The first program is HD, MPEG-2, 12Mbps format, and is transmitted to the 8-VSB, the 1 channel,
The second to fourth programs are SD, H.264, 2Mbps format, terrestrial broadcast receiving system for implementing digital broadcasting through the broadcast signal format conversion, characterized in that transmitted to the 8-VSB, the 1 channel. The method of claim 1, wherein the second broadcast signal format is:
An terrestrial broadcast receiving system implementing digital broadcasting through broadcast signal format conversion, characterized by having 8-VSB and 4 channel formats. 5. The method of claim 4,
The first program is HD, MPEG-2, 12Mbps format, and is transmitted to the 8-VSB, the first channel,
The second to fourth programs have SD, MPEG-2, and 6 to 8 Mbps formats, respectively, and implement digital broadcasting through conversion of broadcast signal formats, which are transmitted through the 8-VSB and second to fourth channels, respectively. Terrestrial broadcast receiving system. The method of claim 1, wherein the second broadcast signal format is:
8-VSB, terrestrial broadcast receiving system for implementing digital broadcasting through broadcast signal format conversion, characterized in that the two-channel format. The method according to claim 6,
The first program is HD, MPEG-2, 12Mbps format, and is transmitted to the 8-VSB, the first channel,
The second to fourth programs have SD, MPEG-2, and 6 Mbps formats, and are transmitted through the 8-VSB and second channels.

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