CN106027944A - Working method of ultra high-definition digital television receiver - Google Patents
Working method of ultra high-definition digital television receiver Download PDFInfo
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- CN106027944A CN106027944A CN201610528078.XA CN201610528078A CN106027944A CN 106027944 A CN106027944 A CN 106027944A CN 201610528078 A CN201610528078 A CN 201610528078A CN 106027944 A CN106027944 A CN 106027944A
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Classifications
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- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/41—Structure of client; Structure of client peripherals
- H04N21/426—Internal components of the client ; Characteristics thereof
- H04N21/42607—Internal components of the client ; Characteristics thereof for processing the incoming bitstream
- H04N21/42615—Internal components of the client ; Characteristics thereof for processing the incoming bitstream involving specific demultiplexing arrangements
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- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/43—Processing of content or additional data, e.g. demultiplexing additional data from a digital video stream; Elementary client operations, e.g. monitoring of home network or synchronising decoder's clock; Client middleware
- H04N21/438—Interfacing the downstream path of the transmission network originating from a server, e.g. retrieving encoded video stream packets from an IP network
- H04N21/4382—Demodulation or channel decoding, e.g. QPSK demodulation
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- H04N21/439—Processing of audio elementary streams
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- H04N21/44—Processing of video elementary streams, e.g. splicing a video clip retrieved from local storage with an incoming video stream or rendering scenes according to encoded video stream scene graphs
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Landscapes
- Engineering & Computer Science (AREA)
- Multimedia (AREA)
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- Two-Way Televisions, Distribution Of Moving Picture Or The Like (AREA)
Abstract
The invention relates to a working method of an ultra high-definition digital television receiver. The receiver comprises a receiving antenna, an audio playing module and a video playing module; the receiving antenna receives ultra high-definition digital television signals so as to play ultra high-definition digital audio signals in the ultra high-definition digital television signals on the audio playing module, and play ultra high-definition digital video signals in the ultra high-definition digital television signals as well as caption display data on the video playing module. By adopting the working method of the ultra high-definition digital television receiver related by the invention, a television user can watch diversified caption information while accessing to the ultra high-definition digital television audio/video signals; and various watching requirements of the user are met.
Description
Technical field
The present invention relates to ultra high-definition digital TV field, particularly relate to a kind of use efficient video coding HEVC video decoding
Ultra high-definition digital television receiver.
Background technology
Ultra high-definition (Ultra High-Definition), from International Telecommunication Union (International
Telecommunication U nion) formal name by " 4K resolution (3840 × 2160 pixel) " ratified is set to
" ultra high-definition Ultra HD (Ultra High-Definition) ".Simultaneously this title be also applied for " 8K resolution (7680 ×
4320 pixels) ".And current technical HDTV resolution is the physical resolution of 1920*1080.But thing followed sheet
Source capacity is also huge, and the uncompressed video of 18 minutes reaches 3.5TB.What high resolution was brought is exactly incredible
Fine and smooth display effect, in play pieces, the camera lens stood high above the masses almost can mirror the overall picture in a city, and every in camera lens
One details, can see clearly and understand Chu.Except resolution, ultra high-definition LCD TV also has a little to be worth allowing people note it
Picture element density be up to 103ppi, although this index only has 1/3rd of iPhone4 screen, but than nowadays 60 English
The 36ppi height of very little 1080P TV how.
But, in more existing HDTVs, the limit that resolution is not enough by data compression ratio, channel transmission bandwidth is less
System, i.e. allows to design video image and the audio frequency of ultra high-definition resolution, such as the image of 15360 × 8640 resolution, often
The audio signal of the sample rate of sound channel 48KHz, but owing to compression is inadequate and the restriction of existing channel transmission mode, cause nothing
Method sends and receives ultra high-definition digital television signal, and the audio-video signal that resolution can only be selected relatively low is watched, even if
The video image of ultra high-definition resolution and the technology of audio frequency itself have developed into ripe, further, since by word in DVB broadcast singal
Curtain is propagated as independent of audio frequency, the certain content of video, and the reception to it has certain professional and complexity, market
On seldom have band captions to process digital television receiver on sale.
Accordingly, it would be desirable to the digital television receiver of a kind of ultra high-definition digital television signal, transform original transmission machine
System, uses the higher Audio data compression pattern of data compression and video data compression pattern, for regarding of ultra high-definition resolution
Frequently the transmission of image and audio frequency creates conditions, and uses terrestrial television channel transmission means, even if at mobile traffic simultaneously
In televiewer, also can receive video content and the audio content of ultra high-definition resolution, and rise special to DVB broadcast singal
In captions carry out resolving and decoding process, caption function is added the digital television receiver of ultra high-definition digital television signal
In.
Summary of the invention
In order to solve the problems referred to above, the invention provides the numeral of a kind of terrestrial channel transmission of ultra high definition digital television signal
The method of work of receiver, uses spatial audio coding SAC coding that ultra high-definition digital audio and video signals is compressed encoding and decoding, adopts
With efficient video coding HEVC coding, ultra high-definition digital video signal is compressed encoding and decoding, transforms original ground simultaneously
Television channel transmission technology, the transmission for ultra high-definition TV creates condition so that televiewer can not only receive more and more
TV programme, and substantially increase the resolution of the TV programme of reception, provide for the sense organ of televiewer and perfectly regard
Listen enjoyment, it addition, increase special captions processing module and captions process relief area in receivers so that user can watch
To various caption information.
According to an aspect of the present invention, it is provided that a kind of ultra high-definition digital television receiver using HEVC video to decode
Method of work, described receiver includes reception antenna, audio playing module and video playback module, and reception antenna receives ultra high-definition
Digital television signal, to play the ultra high-definition DAB letter in described ultra high-definition digital television signal in audio playing module
Number, and on video playback module, play the ultra high-definition digital video signal in described ultra high-definition digital television signal and captions show
Registration evidence.More specifically, the ultra high-definition digital television receiver of described use HEVC video decoding farther includes: receive sky
Line, receives the ultra high-definition digital television signal of transmission in terrestrial channel, it is thus achieved that radiofrequency signal;Down-converted module, connects
Described reception antenna is to receive described radiofrequency signal, by described radiofrequency signal simulation down coversion to be transformed on intermediate frequency,
To signal digitized on intermediate frequency, then the signal after digitized is carried out Digital Down Convert;Channel data decoder module, connects institute
State down-converted module to receive the signal after Digital Down Convert, and the signal after the described Digital Down Convert received is depended on
Secondary carrying out solves OFDM frame, solves data slice, OFDM demodulation process, to obtain the byte after OFDM demodulation processes;Intertexture of deconvoluting mould
Block, connects the byte after described channel data decoder module processes with the described OFDM demodulation of reception, and carries out described byte deeply
Degree is the intertexture of deconvoluting of 12;Error correction decoding module, the interleaving block that deconvolutes described in connection is to receive the letter after interweaving that deconvolutes
Number, and to deconvolute interweave after signal carry out ISN be reed-solomon RS decoding, outer code be low-density checksum LDPC
The error correction decoding of decoding, to obtain the multiple logical data stream after error correction decoding;Output pretreatment module, connects described error correction solution
Code module is to receive the multiple logical data stream after described error correction decoding, and by the multiple logical data stream after described error correction decoding
Merge into a transport stream TS stream;Demultiplexing module, connects described output pretreatment module to receive described output pretreatment mould
The TS stream of block output, demultiplexes described TS stream, to obtain audio TS bag, video TS bag and captions TS bag, audio frequency respectively
TS bag, video TS bag and captions TS bag have different PID Packet Identifier PID, and described PID is different in flowing for the TS after multiplexing
The identifier of type data packets distribution different value;Solve TS bag module, connect described demultiplexing module to receive audio TS bag, video
TS bag and captions TS bag, and audio TS bag, video TS bag and captions TS bag are carried out XieTSBao, with obtain respectively audio frequency PES bag,
Video PES bag and captions PES bag, described PES bag is DTV elementary stream, be by compressed audio coding data, regard
Frequently compress coding data or captions coded data packet are packed and add that PES packet header is formed, when each PES bag includes display
Between stab PTS, described PTS for representing compressed audio coding data in the PES bag of described PTS place, video compression coding data
Or the predetermined reproduction time of captions coded data;Solve PES bag module, connect described solution TS bag module to receive audio frequency PES bag, to regard
Frequently PES bag and captions PES bag, and audio frequency PES bag, video PES bag and captions PES bag are carried out XiePESBao, it is thus achieved that audio compression
Coded data and audio frequency PTS, video compression coding data and video PTS, captions coded data and captions PTS;Captions coded number
According to buffer, connect described solution PES bag module to obtain captions coded data and captions PTS, and according to the mark of the page specified
Symbol storage captions coded data and captions PTS, described page includes combined page and auxiliary page, and described combined page includes that captions institute is exclusive
Captions coded data, described auxiliary page includes the captions coded data that different captions share, and the identifier of described page is from word
Curtain PES bag;Captions processing module, connects described captions Coded Data Buffer to read from described captions Coded Data Buffer
Go out the captions coded data required for composition one display, the captions coded data of reading is decoded, it is thus achieved that a display
Subtitle Demonstration data, by one show Subtitle Demonstration data and composition this show required for captions coded data corresponding
Captions PTS export in Display Register, one is shown as the screen captions presented on screen;Display Register,
Connect described captions processing module to compile with the captions formed required for this shows with the Subtitle Demonstration data obtaining a display
The captions PTS that code data are corresponding, when current time is to form the captions PTS that the captions coded data required for this shows is corresponding
Time, the video playback module of described receiver is play the Subtitle Demonstration data of this display, described Display Register also connects
Connect efficient video coding HEVC decoder module to obtain ultra high-definition digital video signal and video PTS, when current time is video
During PTS, the video playback module of described receiver is play described ultra high-definition digital video signal;Spatial audio coding SAC
Decoder module, connects described solution PES bag module with acquisition compressed audio coding data and audio frequency PTS, the audio compression to acquisition
Coded data carries out SAC decoding, to obtain ultra high-definition digital audio and video signals;HEVC decoder module, connects described solution PES bag module
To obtain video compression coding data and video PTS, the video compression coding data obtained are carried out HEVC decoding, to be surpassed
High-definition digital video signal, described ultra high-definition digital video signal has three kinds of resolution: 3840 × 2160,7680 × 4320 or
15360×8640;Described audio playing module connects described SAC decoder module, to obtain ultra high-definition digital audio and video signals and sound
Frequently PTS, when current time is audio frequency PTS, plays described ultra high-definition digital audio and video signals;Described video playback module connects institute
State Display Register, with caption playing video data and ultra high-definition digital video signal, Subtitle Demonstration data and ultra high-definition numeral
Video signal is combination display pattern.
More specifically, the ultra high-definition digital television receiver of described use HEVC video decoding farther includes: under described
Frequency-conversion processing module includes digital controlled oscillator mixing unit, and described digital controlled oscillator mixing unit produces sine and cosine ripple sample value,
And by the signal multiplication after the described digitized in the sine and cosine ripple sample value produced and described down-converted module, complete to mix
Frequently, with the signal of the signal lower frequency after obtaining than described digitized.
More specifically, the ultra high-definition digital television receiver of described use HEVC video decoding farther includes: described solution
Multiplexing module demultiplexes the network information table also obtaining business information SI to the TS stream that described output pretreatment module exports
NIT, BAT bouquet association table BAT or service information list SDT, for the parsing of electronic program guide (EPG) information.
More specifically, the ultra high-definition digital television receiver of described use HEVC video decoding farther includes: described super
High-definition digital audio signal has the sample rate of every sound channel 44.1KHz, and described ultra high-definition digital audio and video signals has 22 sound channels, institute
Stating being arranged as of 22 sound channels, in the space at hearer place, intermediate layer is provided with 10 sound channels, and bottom is provided with 3 sound channels, top
Layer is provided with 9 sound channels.
Accompanying drawing explanation
Below with reference to accompanying drawing, embodiment of the present invention are described, wherein:
The structure side of the ultra high-definition digital television receiver of the use HEVC video decoding that Fig. 1 illustrates according to an embodiment of the present invention
Block diagram.
Wherein, 1, reception antenna;2, down-converted module;3, channel data decoder module;4, deconvolute interleaving block;
5, error correction decoding module;6, output pretreatment module;7, demultiplexing module;8, TS bag module is solved;9, PES bag module is solved;10, word
Curtain Coded Data Buffer;11, captions processing module;12, Display Register;13, SAC decoder module;14, HEVC decodes mould
Block;15, audio playing module;16, video playback module.
Detailed description of the invention
Below with reference to accompanying drawings the present invention is used the enforcement of the ultra high-definition digital television receiver that HEVC video decodes
Scheme is described in detail.
Fig. 1 illustrates the ultra high-definition digital television receiver of the use HEVC video decoding illustrated according to an embodiment of the present invention
Block diagram.Wherein said ultra high-definition digital television receiver includes, reception antenna 1, audio playing module 15 and video
Playing module 16, reception antenna 1 receives ultra high-definition digital television signal, to play described ultra high-definition in audio playing module 15
Ultra high-definition digital audio and video signals in digital television signal, and on video playback module 16, play described ultra high-definition DTV
Ultra high-definition digital video signal in signal and Subtitle Demonstration data.Further, the superelevation of described use HEVC video decoding
Clear digital television receiver also includes, reception antenna 1, receives the ultra high-definition digital television signal of transmission in terrestrial channel, obtains
Obtain radiofrequency signal;Down-converted module 2, connects described reception antenna 1 to receive described radiofrequency signal, by described radiofrequency signal
Simulation down coversion is to be transformed on intermediate frequency, to signal digitized on intermediate frequency, then to the signal number after digitized
Word down coversion;Channel data decoder module 3, connects described down-converted module 2 to receive the signal after Digital Down Convert, and
Carry out successively the signal after the described Digital Down Convert received solving OFDM frame, solving data slice, OFDM demodulation process, to obtain
Byte after OFDM demodulation process;Deconvolute interleaving block 4, connects described channel data decoder module 3 to receive described OFDM
Byte after demodulation process, and described byte is carried out the intertexture of deconvoluting that the degree of depth is 12;Error correction decoding module 5, connects described
The interleaving block 4 that deconvolutes is to receive the signal after interweaving that deconvolutes, and to carry out ISN be Reed to the signal after interweaving that deconvolutes
Saloman RS decoding, outer code are the error correction decoding of low-density checksum LDPC decoding, patrol with multiple after obtaining error correction decoding
Collect data stream;Output pretreatment module 6, connects described error correction decoding module 5 with the multiple logics after the described error correction decoding of reception
Data stream, and the multiple logical data stream after described error correction decoding are merged into a transport stream TS stream;Demultiplexing module 7, even
Connect described output pretreatment module 6 to flow with the TS receiving the output of described output pretreatment module 6, described TS stream is demultiplexed
With, to obtain audio TS bag, video TS bag and captions TS bag respectively, audio TS bag, video TS bag and captions TS bag have difference
PID Packet Identifier PID, described PID for for after multiplexing TS flow in different types of data bag distribution different value identifier;Solve
TS bag module 8, connects described demultiplexing module 7 to receive audio TS bag, video TS bag and captions TS bag, and to audio TS bag,
Video TS bag and captions TS bag carry out XieTSBao, to obtain audio frequency PES bag, video PES bag and captions PES bag, described PES respectively
Bag is DTV elementary stream, is by compressed audio coding data, video compression coding data or captions coded data
Packet packing is also formed plus PES packet header, and each PES bag includes that Presentation Time Stamp PTS, described PTS are used for representing described
Compressed audio coding data, video compression coding data or captions coded data in the PES bag of PTS place predetermined broadcasting time
Between;Solve PES bag module 9, connect described solution TS bag module 8 to receive audio frequency PES bag, video PES bag and captions PES bag and right
Audio frequency PES bag, video PES bag and captions PES bag carry out XiePESBao, it is thus achieved that compressed audio coding data and audio frequency PTS, video
Compress coding data and video PTS, captions coded data and captions PTS;Captions Coded Data Buffer 10, connects described solution
PES bag module 9 is to obtain captions coded data and captions PTS, and stores captions coded data according to the identifier of the page specified
With captions PTS, described page includes combined page and auxiliary page, and described combined page includes the captions coded data that captions are exclusive, institute
Stating the captions coded data that auxiliary page includes that different captions share, the identifier of described page is from captions PES bag;Captions process mould
Block 11, connects described captions Coded Data Buffer 10 aobvious to read composition one from described captions Coded Data Buffer 10
Show required captions coded data, the captions coded data of reading is decoded, it is thus achieved that the Subtitle Demonstration number of a display
According to, by defeated for captions PTS corresponding for the captions coded data required for this display of the Subtitle Demonstration data shown and composition
Going out in Display Register 12, one is shown as the screen captions presented on screen;Display Register 12, connects described
Captions processing module 11 is to obtain the Subtitle Demonstration data of a display and to form the captions coded data required for this display
Corresponding captions PTS, during captions PTS corresponding to captions coded data required for current time is this display of composition,
Playing the Subtitle Demonstration data of this display on the video playback module 16 of described receiver, described Display Register 12 is also connected with
Efficient video coding HEVC decoder module 14 is to obtain ultra high-definition digital video signal and video PTS, when current time is video
During PTS, the video playback module 16 of described receiver is play described ultra high-definition digital video signal;Spatial audio coding
SAC decoder module 13, connects described solution PES bag module 9 with acquisition compressed audio coding data and audio frequency PTS, the sound to acquisition
Frequently compress coding data carries out SAC decoding, to obtain ultra high-definition digital audio and video signals;HEVC decoder module 14, connects described solution
PES bag module 9, to obtain video compression coding data and video PTS, carries out HEVC solution to the video compression coding data obtained
Code, to obtain ultra high-definition digital video signal, described ultra high-definition digital video signal has three kinds of resolution: 3840 × 2160,
7680 × 4320 or 15360 × 8640;Described audio playing module 15 connects described SAC decoder module 13, to obtain ultra high-definition
Digital audio and video signals and audio frequency PTS, when current time is audio frequency PTS, play described ultra high-definition digital audio and video signals;Described regard
Frequently playing module 16 connects described Display Register 12, with caption playing video data and ultra high-definition digital video signal, captions
Video data and ultra high-definition digital video signal are combination display pattern.
Wherein, as far back as 2004, ITU-T Video Coding Experts group (VCEG) begins one's study new technique to create one newly
Video compression standard.In October, 2004, H.264/AVC potential various technology are investigated by group.In January, 2005
In the meeting of VCEG, it is that " key technology " is for further study that VCEG starts to specify some theme.Within 2005, set up software code
Storehouse is referred to as Key Technical Areas(KTA) it is used for assessing these new " key technologies ".The software of KTA is at associating mould
H.265 and H.NGVC(Next-being developed jointly by the video group of MPEG and VCEG on the basis of type (JM), project name is fixed tentatively as
Generation Video Coding), this project was finally evolved in 2010 by VCEG and MPEG joint venture also referred to as
HEVC(High efficiency video coding).In January, 2010, VCEG and MPEG starts just initiating video compression technology
Formula motion.Correlation technique is combined group (Joint Collaborative Team on Video Coding (JCT-by Video coding
VC)) reviewing and assess, its cooperative groups first session holds conference in April, 2010, and one has 27 complete motions.
Evaluation result shows, some motions can reach only with the bit rate of half and maintain H.264/AVC phase in many test cases
Same visual quality.In current meeting, joint project name renames as high efficiency Video coding (HEVC), and JCT-VC is little
Group is integrated into software code base and the received text draft specification of correlation technique, and carries out further experiment, with assessment
Various functions.
Wherein, captions refer to the non-visual contents such as the dialogue inside with written form display TV, film, stage works, also
Refer to the word of films and television programs post-production.The voice content of program is shown in captions mode, audition can be helped more weak
Spectators understand programme content.It addition, captions can be used for translating foreign language program, allow and do not understand the spectators of this foreign language, can hear
The vocal cords of original work, understand programme content simultaneously.The translation of the foreign language dialogue occurred below movie screen or television screen
Or other explain orally word and all words, if the title of film, credits present, libretto, dialogue, declarer are there to be personage to be situated between
Continue, place name and age etc..
Wherein, PES stream is DTV elementary stream, in digital TV broadcast signal.Wherein, launch at signal
End, carries out data compression by audio frequency, video and other additional datas through MPEG-2 encoder, forms elementary stream, namely
ES flows, and ES stream is packed into the code stream with packet header again, it is simply that PES(Packetized Elementary Streams), i.e. beat
The elementary stream of bag.Briefly, PES is ES stream packing, adds what packet header was formed.
It addition, the ultra high-definition digital television receiver of described use HEVC video decoding farther includes: described down coversion
Processing module 2 includes digital controlled oscillator mixing unit, and described digital controlled oscillator mixing unit produces sine and cosine ripple sample value, and will
The signal multiplication after described digitized in the sine and cosine ripple sample value produced and described down-converted module 2, completes mixing,
Signal with the signal lower frequency after obtaining than described digitized.
It addition, the ultra high-definition digital television receiver of described use HEVC video decoding farther includes: described demultiplexing
Module 7 demultiplexes the network information table also obtaining business information SI to the TS stream that described output pretreatment module 6 exports
NIT, BAT bouquet association table BAT or service information list SDT, for the parsing of electronic program guide (EPG) information.
Wherein, EPG is the english abbreviation of Electronic Program Guide, and the meaning is electric program menu.Numeral
Index and the navigation of the miscellaneous service that television broadcasting signal is provided all are completed by EPG system.On EPG interface one
As all provide all kinds of menu, button, link etc. to be available for the assembly that user selects to click directly on during program, also may be used in the interface of EPG
To comprise all kinds of dynamic or static content of multimedia browsed for user.
It addition, the ultra high-definition digital television receiver of described use HEVC video decoding farther includes: described ultra high-definition
Digital audio and video signals has the sample rate of every sound channel 44.1KHz, and described ultra high-definition digital audio and video signals has 22 sound channels, and described 22
Being arranged as of sound channel, in the space at hearer place, intermediate layer is provided with 10 sound channels, and bottom is provided with 3 sound channels, and top layer sets
9 sound channels are put.
Use the ultra high-definition digital television receiver of the use HEVC video decoding of the present invention, in existing television transmission
Because data compression ratio not, the technical problem that limits of multi-channel transport mechanism, for big data ultra high-definition digital audio and video signals and
Ultra high-definition digital video signal selects suitable tool of compression, transforms existing terrestrial transmission mechanism to meet ultra high-definition number simultaneously
The requirement of word television signal transmission, is to include that the TV user of mobile TV spectators receives high-quality, high-resolution sound regards
Frequently content, thus improve the quality of the life of people, carry out structure arrangement it addition, complicated captions are processed function and add the excess of imports
In high-definition digital television receiver, provide the user due captions service in digital television broadcasting.
Although it is understood that the present invention discloses as above with preferred embodiment, but above-described embodiment being not used to
Limit the present invention.For any those of ordinary skill in the art, without departing under technical solution of the present invention ambit,
Technical solution of the present invention is made many possible variations and modification by the technology contents that all may utilize the disclosure above, or is revised as
Equivalent embodiments with change.Therefore, every content without departing from technical solution of the present invention, according to the technical spirit pair of the present invention
Any simple modification made for any of the above embodiments, equivalent variations and modification, all still fall within the scope of technical solution of the present invention protection
In.
Claims (1)
1. the method for work of a ultra high-definition digital television receiver, it is characterised in that described receiver includes:
Reception antenna, audio playing module and video playback module, reception antenna receives ultra high-definition digital television signal, with at sound
Frequently the ultra high-definition digital audio and video signals in described ultra high-definition digital television signal is play on playing module, and at video playback module
Ultra high-definition digital video signal in upper broadcasting described ultra high-definition digital television signal and Subtitle Demonstration data;
Also include:
Reception antenna, receives the ultra high-definition digital television signal of transmission in terrestrial channel, it is thus achieved that radiofrequency signal;
Down-converted module, connects described reception antenna to receive described radiofrequency signal, described radiofrequency signal is simulated
Down coversion, to be transformed on intermediate frequency, to signal digitized on intermediate frequency, then carries out Digital Down Convert to the signal after digitized;
Channel data decoder module, connects described down-converted module to receive the signal after Digital Down Convert, and to described
Signal after the Digital Down Convert received carries out solving OFDM frame, solving data slice, OFDM demodulation process, to obtain OFDM solution successively
Mediate the byte after reason;
Deconvolute interleaving block, connects the byte after described channel data decoder module processes with the described OFDM demodulation of reception, and
Described byte is carried out the intertexture of deconvoluting that the degree of depth is 12;
Error correction decoding module, the interleaving block that deconvolutes described in connection is to receive the signal after interweaving that deconvolutes, and to friendship of deconvoluting
It is that reed-solomon RS decodes, outer code is the error correction decoding that low-density checksum LDPC decodes that signal after knitting carries out ISN,
With the multiple logical data stream after acquisition error correction decoding;
Output pretreatment module, connects described error correction decoding module to receive the multiple logical data stream after described error correction decoding,
And the multiple logical data stream after described error correction decoding are merged into a transport stream TS stream;
Demultiplexing module, connects described output pretreatment module and flows, to institute with the TS receiving the output of described output pretreatment module
State TS stream to demultiplex, to obtain audio TS bag, video TS bag and captions TS bag respectively, audio TS bag, video TS bag and word
Curtain TS bag has different PID Packet Identifier PID, and described PID is different types of data bag distribution difference in flowing for the TS after multiplexing
The identifier of value;
Solve TS bag module, connect described demultiplexing module to receive audio TS bag, video TS bag and captions TS bag, and to audio TS
Bag, video TS bag and captions TS bag carry out XieTSBao, to obtain audio frequency PES bag, video PES bag and captions PES bag respectively, described
PES bag is DTV elementary stream, is by compressed audio coding data, video compression coding packet are packed and added
Upper PES packet header is formed, and each PES bag includes that Presentation Time Stamp PTS, described PTS are used for representing described PTS place PES bag
In compressed audio coding data, the predetermined reproduction time of video compression coding data;
Solve PES bag module, connect described solutions TS bag module with reception audio frequency PES bag, video PES bag and captions PES bag, and to sound
Frequently PES bag, video PES bag and captions PES bag carry out XiePESBao, it is thus achieved that compressed audio coding data and audio frequency PTS, video pressure
Contracting coded data and video PTS, captions coded data and captions PTS;
Captions Coded Data Buffer, connects described solution PES bag module to obtain captions coded data and captions PTS, and according to
The identifier storage captions coded data of the page specified and captions PTS, described page includes combined page and auxiliary page, described combined page
Including the captions coded data that captions are exclusive, described auxiliary page includes the captions coded data that different captions share, described page
Identifier from captions PES bag;
Captions processing module, connects described captions Coded Data Buffer with reading group from described captions Coded Data Buffer
Become the captions coded data required for a display, the captions coded data of reading is decoded, it is thus achieved that the word of a display
Curtain video data, by word corresponding for the captions coded data required for this display of the Subtitle Demonstration data shown and composition
Curtain PTS exports in Display Register, and one is shown as the screen captions presented on screen;
Display Register, connects described captions processing module to obtain Subtitle Demonstration data and this display of composition of a display
The captions PTS that required captions coded data is corresponding, when current time is the captions coded number required for this display of composition
During according to corresponding captions PTS, the video playback module of described receiver is play the Subtitle Demonstration data of this display, described
Display Register is also connected with efficient video coding HEVC decoder module to obtain ultra high-definition digital video signal and video PTS, when
When current time is video PTS, the video playback module of described receiver is play described ultra high-definition digital video signal;
Spatial audio coding SAC decoder module, connects described solution PES bag module to obtain compressed audio coding data and audio frequency
The compressed audio coding data obtained are carried out SAC decoding, to obtain ultra high-definition digital audio and video signals by PTS;
HEVC decoder module, connects described solution PES bag module to obtain video compression coding data and video PTS, to obtain
Video compression coding data carry out HEVC decoding, to obtain ultra high-definition digital video signal, and described ultra high-definition digital video signal
There are three kinds of resolution: 3840 × 2160;
Described audio playing module connects described SAC decoder module, to obtain ultra high-definition digital audio and video signals and audio frequency PTS, when
When current time is audio frequency PTS, play described ultra high-definition digital audio and video signals;
Described video playback module connects described Display Register, believes with caption playing video data and ultra high-definition digital video
Number, Subtitle Demonstration data and ultra high-definition digital video signal are combination display pattern;
Described down-converted module includes digital controlled oscillator mixing unit, and described digital controlled oscillator mixing unit produces sine and cosine
Signal phase after ripple sample value, and sine and cosine ripple sample value and the described digitized in described down-converted module that will produce
Take advantage of, complete mixing, with the signal of the signal lower frequency after obtaining than described digitized.
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CN201610321252.3A Active CN105898539B (en) | 2013-05-15 | 2013-05-15 | Use the decoded ultra high-definition digital television receiver of HEVC video |
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