DE19623934A1 - Digital data reception system - Google Patents

Abstract

In digital video broadcasting, data for standard devices are transmitted in MPEG2 format. In the standard device an MPEG2 decoder decodes the data. An image with 720 x 576 pixels is generated on the screen according to the usual image format in the CCIR601 system. However, the expensive MPEG2 decoder and also a filter are needed, even for a screen with only 320 x 273 pixels, e.g. a 5" display, to filter out the superfluous data. In order to dispense with the expensive MPEG2 decoder and the filter, the bit rate of the data flow received is first reduced by means of a bit rate converter (BRU), the data are decoded and transmitted to one or more displays (D1, ..., Dn) with lower image resolution. Data transmission systems in which a data source transmits data at a higher bit rate or lower compression rate than is needed for data display.

Description

The invention relates to a digital data reception system for receiving data higher bit rate or lower compression rate than is required for data playback.

Digital data reception systems are e.g. B. in digital data transmission systems used to receive the data transmitted by a transmission system process and finally a user using a playback device to play.

Digital radio is an example of a digital data transmission system So-called digital audio broadcasting, in the further course with the usual Abbreviation DAB, the digital television broadcast, in English as digital Video broadcasting known and in the further course with the usual abbreviation DVB referred to, as well as playback devices for the digital video disc, the so-called digital Video Disc or Digital Versatile Disc, to name the ones that follow as most is usually abbreviated to DVD.

In these digital data transmission systems, the data to be transmitted compressed. The data compression can be carried out according to different methods will. The so-called MPEG standards are already in use around the world. B. Compress audio or video data. For example, he works in the United States introduced digital information service DirecTV based on the MPEG standards.

The main advantage of digital data transmission systems with data compression work, is now that significantly less transmission capacity than not compressed data is required without sacrificing the quality of data playback is affected. This advantage is particularly evident in the DAB and the DVB if the data is transmitted via satellite, cable or terrestrial,  because it becomes far less channel capacity than with the analogue in use today Transmission systems needed.

In the DVB and DVD systems, the audio and video data are compressed Transfer form to user. At DVB, the customer receives the data via satellite or over a broadband cable. With DVD, a playback device, usually referred to as a player, reads the data by optical scanning from a compact disc, the digital video disc or the digital versatile disc.

In the two systems DVB and DVD, the amount of compressed to be transmitted is Video data higher than the amount of audio data to be transmitted. The video data is the information required for a screen in standard format with 720 horizontal and 576 vertical pixels according to the CCIR601 specification or for one small liquid crystal screen - a display - are needed. Such displays smaller dimensions with smaller image resolution can be found in handheld devices Computer technology and in car navigation systems more and more widespread. From the The 5 ′ ′ displays with a resolution of 320 horizontal and 273 vertical pixels due to their wide distribution already is a quasi standard.

The extent of data reduction e.g. B. using MPEG2 algorithms and thus the amount of the compressed video data are related to the image resolution of the Screen with the standard format 720 horizontal and 576 vertical pixels generated. Because with increasing data reduction, image information is lost however, from a certain size of data reduction, the image quality is visible from. The effects of data reduction are above one with DVB and DVD the limit at which the image quality is visible in the standard system of the CCIR601 standard is deteriorating. On the other hand, the data reduction is chosen large enough to significantly reduce the transmission and storage capacity of the system. At DVB the compression rates are in the range from 1:40 to 1:50. This means that from 40 or 50 original video bits only 1 bit in MPEG2 format transmitted or saved becomes. An MPEG2 decoder decompresses this data into video data for the Standard format.  

If a small 5 '' display is provided instead of a screen for the standard format, so is an MPEG2 decoder with 16 despite the lower resolution of the small 5 ′ ′ display up to 20 Mbit of external memory required to decode the compressed data. The MPEG2 decoder generates the 720 required for the standard format horizontal and the 576 vertical pixels. Through an upstream of the 5 '' display Filters the 720 horizontal pixels of the standard format to 320 horizontal Pixels of the 5 ′ ′ display and the 576 vertical pixels of the standard format on the 273 vertical pixels of the 5 ′ ′ display reduced.

This is e.g. B. the case with DVB, if that from a satellite, via cable or terrestrial Data broadcast in MPEG2 format can be reproduced on a 5 ′ ′ display. However, the data read from a DVD must first use the MPEG2 decoder be decoded and reduced by means of a filter before they are e.g. B. in a Standard bus system can be fed in, as is the case in vehicles Data transmission from a central playback device for a digital video disc multiple screens is used because the bit rate of the MPEG2 data is essential higher than that of many standard bus systems.

The typical bit rate of the MPEG2 data for DVB is between 10 and 40 Mbit / s, while with DVD typically between 4 and 11 Mbit / s in variable data rate is present. The standard bus systems used in vehicles have for such high Bit rates too low bandwidth. For example, the one used in cars D2B bus data with a bit rate up to 1.4 Mbit / s; Data streams with higher bit rates are no longer possible due to the insufficient bandwidth of the D2B bus transfer. In this application there are therefore an MPEG2 decoder and a Filters required to get the bit rate to the level required for the D2B bus to reduce.

A major disadvantage is that an expensive MPEG2 decoder and filter are required to move the data into a channel with a lower bandwidth or data rate to be able to feed, at the output z. B. a 5 '' - display can be connected.

It is therefore an object of the invention to provide a data reception system according to the preamble of Claim 1 easier and cheaper to make without the quality of Impact data reproduction perceptible to the user.

The invention solves this problem in that at the input of the data reception system Data reduction is planned first and only then the final one Data is decoded.

The prior art and the exemplary embodiments of FIGS Invention described and explained.

Show it

Fig. 1 shows an embodiment of the invention,

Fig. 2 shows the embodiment from Fig. 1 in greater detail representation,

Fig. 3 is a DVB-system according to the prior art,

Fig. 4 shows a DVD system according to the prior art.

In the known data reception system shown in FIG. 3, a satellite antenna A receives the television data broadcast from a satellite in MPEG2 format, which is decoded by an MPEG2 decoder DE and passed on to a demultiplexer DX. The demultiplexer DX searches for a television program from the large number of programs received and forwards its data to a filter F, which suppresses the data not required for a 5 ′ ′ display D in the data stream and only that for generating the 320 horizontal and 273 vertical Data required for the 5 ′ ′ display D transmits.

FIG. 4 shows a known data transmission system for vehicles, where a central playback device PL reads data from a DVD and sends it in MPEG2 format to a decoder DE, which decodes the data and sends it to a filter F which, as in the case in FIG. 3 shown data reception system that filters away the data not required to generate a 320 × 273 image. The data passed by the filter F are sent via a bus B to several 5 '' displays D1, D2,. . ., Dn distributed.

According to claim 2 in the invention, the received compressed data first subjected to data reduction in a bit rate converter before it is used in a Decoders can be decoded. Through this measure, the high bit rate of received data stream reduced so much that for decoding a simple and inexpensive decoder for low bit rates, a so-called low bit rate decoder instead an expensive standard MPEG2 decoder can be used. The expensive one There is no standard decoder for high bit rates. Instead, they are just a bit rate converter and used a decoder for low bit rates, which are much cheaper than a standard MPEG2 decoder.

The embodiment of the invention shown in FIG. 1 will now be described and explained.

In FIG. 1, a satellite reception antenna A receives the forwards them to a bit rate converter BRU from a satellite video data in the MPEG2 format. Instead of or in addition to the satellite receiving antenna A, a playback device PL for digital video discs, the DVD, can also be connected. In this case, the bit rate converter BRU receives the data read from the playback device PL from the DVD. The bit rate converter BRU now converts the bit rate of the data coming from the satellite antenna A or the playback device PL with a typical bit rate of 10 to 40 and 1 to 11 Mbit / s into a data stream with a bit rate of 1 Mbit / s, the data in one Decoder DE can be decoded for low bit rates and converted into a standard MPEG bit stream or into a modified MPEG bit stream. The video signals sent from the decoder DE via a data bus B to a 5 ′ ′ display D1 generate an image with 320 horizontal and 273 vertical pixels on the display. Instead of one display, several displays D1 to Dn can be connected to the decoder DE.

This embodiment is particularly suitable for a vehicle where a central Playback device PL reads a digital video disc and its data z. B. via a D2B bus can be distributed to several displays D1 to Dn at a bit rate of 1.4 Mbit / s. Everyone The occupant of the vehicle can therefore use the display to save the data stored on the DVD See the program.

The detailed illustration of the exemplary embodiment of the invention shown in FIG. 2 will now be described and explained.

The output of the satellite receiving antenna A is connected to the input one Channel decoder KD connected, the output of which is connected to the input of a demultiplexer DX is connected. The first output of the demultiplexer DX, on which the video data is connected to the input of a variable-length decoder VLD. Of the The output of the variable length decoder VLD is one with the data input Bitstream modifier BSM connected, the output of which is connected to the data input Variable-length encoder VLC is connected. The data output of the Variable-length encoder VLC is connected to the input of a bit rate controller BRC. Of the Data output of the bit rate converter BRC is with the first input of a multiplexer MX connected, while from the control output of the bit rate controller BRC one Control line SL leads to the control input of the bit stream modifier BSM. The second Output of the demultiplexer DX, from which the audio and additional data can be removed, is via an additional line ZL with the second input of the multiplexer MX connected. At the output of the multiplexer MX there are a or via a data bus B. several decoders DE1 to DEn connected. Each decoder DE1 to DEn is included a display D1 to Dn connected. The demultiplexer DX, the variable length decoder VLD, the bit stream modifier BSM, the variable length encoder VLC, the Bit rate controller BRC and the multiplexer MX form the bit rate converter BRU.

The satellite antenna A receives from a satellite, not shown in the figure several programs, for example television programs, of which the demultiplexer DX selects one and breaks it down into packetized elementary streams, abbreviated PES and in this form forwards to the variable length decoder VLD. There are each a PES for the video, audio and additional information. Located at the entrance to the  Demultiplexers DX a data stream with only one program, the demultiplexer breaks down DX this data stream into the individual PES. The video PES bit rate is one Range from 4 to 6 Mbit / s, while the bit rate of audio and additional information is around a power of ten is lower. Are those from the satellite reception antenna A received data is encrypted, so it is from a in the demultiplexer DX integrated decoder, which is called descrambler in English, decrypted. The decoder can also between the channel decoder KD and the demultiplexer DX may be provided.

In the VLD variable-length decoder, which is much simpler than an MPEG2 decoder - are built from the ones supplied by the demultiplexer DX and after the Variable-length coding according to the MPEG2 format encodes the run-length value pairs determined, which form the frequency information for 8 × 8 pixel blocks. in the Bitstream modifiers BSM become the high vertical and horizontal frequencies set to zero above a specifiable limit. The bitstream modifier BSM therefore creates a run-length pair of values so that all coefficients above one predetermined threshold are zero. This measure turns them into displays D1 to Dn amount of data to be transmitted is considerably reduced.

Another measure to reduce the data sees a change in Motion vectors to reduce the amount of vector information. By Inserting skipped macroblocks can also reduce the amount of data. Under The insertion of skipped macroblocks means that according to predefinable criteria individual macroblocks are not encoded and therefore no data in the data stream produce. Also by repeating previous pictures or previous macro blocks the amount of data is reduced. The measures mentioned to reduce the data can be combined with one another as required.

The reduced amount of data is in the variable-length encoder VLC again in one MPEG2 format corresponding data stream encoded by the bit rate controller BRC in a data stream is converted with a predeterminable bit rate. So that Variable length encoder VLC neither overflows with data nor runs empty, the  Bit stream modifier BSM from the bit rate controller BRC via the control line SL synchronized.

While via the series connection from the variable-length decoder VLD, the Bitstream modifier BSM, the variable-length encoder VLC and the Bitrate controller BRC to split the video data into the PES and transmit it to the multiplexer MX the audio and additional data are also broken down into the PES via the additional line ZL from the demultiplexer DX to the multiplexer MX, which the video Audio and the additional data merges again and so a standard MPEG data stream or creates a modified MPEG data stream. On the displays D1 to The television program selected by the demultiplexer DX is then reproduced.

The invention is generally suitable for such data transmission systems where a Data source sends data to a data sink at a higher bit rate than for playback the data is actually required. It is not based on the DAB, DVB or DVD systems limited. Also in handheld devices in the computer area and in Car navigation systems with small screens, the invention can be advantageous deploy.

Claims (14)

1. Digital data reception system for receiving data of higher bit rate or lower compression rate than is required for data reproduction, characterized in that data reduction is provided at the input of the data reception system and only then is the final decoding of the data carried out. 2. Digital data reception system according to claim 1, characterized in that the data stream generated by a data source (A, PL) with a bit rate B1 in one Bitrate Converter (BRU) to a data stream with a bitrate B2 that is less than that Bit rate is B1, is converted and that the data stream with the lower bit rate B2 a decoder (DE) is supplied, at the output of which at least one Playback device (D1,..., Dn) is connected. 3. Digital data reception system according to claim 2, characterized in that the output of the decoder (DE) several playback devices (D1,..., Dn) via one Data bus (B) are connected. 4. Digital data reception system according to claim 2, characterized in that the data generated by a data source (A, PL) to a demultiplexer (DX) are sent, the first output of which is connected in series via a Variable-length decoder (VLD), from a bit stream modifier (BSM), one Variable length encoder (VLC) and from a bit rate controller (BRC) with the first input of a multiplexer (MX) and its second output via a additional line (ZL) connected to the second input of the multiplexer (MX) is that the output of the multiplexer (MX) via a data bus (B) with one or several decoders (DE1,..., DEn) is connected so that the output of each Decoder (DE1,..., DEn) is each connected to a playback device (D1,..., Dn) and that the control output of the bit rate controller (BRC) via a control line (SL) is connected to the control input of the bit stream modifier (BSM).   5. Digital data reception system according to claim 4, characterized in that as a data source, a satellite reception antenna (A) with a downstream one Channel decoder (KD) or a playback device (PL) for a digital video disc or is intended for a digital versatile disc. 6. Digital data reception system according to claim 4 or 5, characterized in that that the demultiplexer (DX) selects one of several received programs and broken down into so-called packetized elementary streams or only one if available Program breaks this program down into the Packetized Elementary Streams that the Variable-length decoder (VLD) Run-length value pairs determined, which the Frequency information for n × n pixels form that the bit stream modifier (BSM) the amount of data reduced that this reduced amount of data in Variable length encoder (VLC) encoded in a data stream corresponding to the MPEG2 format is that of the bit rate controller (BRC) in a data stream with a predetermined Bit rate is converted, and that the bit rate controller (BRC) the Bitstream modifier (BSM) synchronized to a control line (SL) Overflow or idle of the variable length encoder (VLC) with data prevent. 7. Digital data reception system according to claim 6, characterized in that the bit stream modifier (BSM) to reduce the amount of data the high vertical and the high horizontal frequencies above a specifiable Sets threshold values to zero. 8. Digital data reception system according to claim 6, characterized in that the bit stream modifier (BSM) changes the motion vectors by the number of To reduce vector information and thus also the amount of data. 9. Digital data reception system according to claim 6, characterized in that the bit stream modifier (BSM) inserts skipped macro blocks for data reduction.   10. Digital data reception system according to claim 6, characterized in that the bit stream modifier (BSM) for data reduction of previous images or Previous macro blocks repeated. 11. Digital data reception system according to claim 6, 7, 8, 9 or 10, characterized characterized in that the series connection from the variable-length decoder (VLD), the bit stream modifier (BSM), the variable length encoder (VLC) and the bit rate controller (BRC) video data is transmitted while on the additional line (ZL) audio and additional data are transmitted, and that the Multiplexer (MX) which combines video, audio and additional data, a standard MPEG data stream or a modified MPEG data stream to create. 12. Digital data reception system according to one of claims 4 to 11, characterized characterized in that when receiving encrypted data a decryptor before Demultiplexer (DX) is provided or integrated in the demultiplexer (DX). 13. Digital data reception system according to one of the preceding claims, characterized characterized in that the received data is encoded according to an MPEG format are. 14. Digital data reception system according to one of the preceding claims, characterized characterized in that as playback devices screen devices with less than Standard format prescribed horizontal and vertical pixels are.