DE4229654A1 - Audio and video signal transmission with error correction - protects data groups with bit quantity fluctuating between frames by sorting data bits w.r.t. their importance and distributing bit groups homogeneously within frame - Google Patents

Abstract

The transmission method distributes data in a frame after re-sorting and spreading of sections having different importance groups (I-IV) and subgroups (a-c) within the basic quantity of bits. The necessary protection against errors in a group and corresp. subgroups is distributed homogeneously over all of the available quantity of bits of the frame. Sections which have approximately equal liability to error are juxtaposed, irrespective of the original group to which they belonged. USE/ADVANTAGE - Esp. in digital audio broadcasting. Improved automatic error protection.

Description

The invention relates to a method for transmitting a Audio and / or video signal in which the analog signal is in front the transmission into a digital signal, one Coding and a modulation is subjected. Furthermore the signal is subjected to a source signal coding, at which summarizes the bits of individual sampled values and ordered according to their importance and the values in groups summarized in a frame with a recurring scheme will. The bits are of equal importance or susceptibility to errors within a group of Frame summarized so that all the first, second, third Bits etc. of a group follow one another. The source signal coding also includes data reduction, so that different value groups such as B. General data and scale factors with fundamentally different importance or susceptibility to errors in addition to the importance or The individual bits of each value are prone to error.

Each individual group can contain several subgroups, who have a certain degree of error susceptibility.

The error susceptibility of sections of nth bits of each Group or subgroup or summaries of e.g. B. n-th (n + 1) -th bits or of n-th (n + 1) -th and (n + 2) th bits, etc. are known.

The sections created in this way become susceptible to errors sorted by and transferred in this order so that now sections with approximately the same susceptibility are adjacent are independent of the origin group of a section.  

The level of error protection over a frame is staggered and corresponds to the degree of error susceptibility of the new orderly framework.

The sections, groups or subgroups are on the sending side subjected to a so-called interlaeving (nesting), where the bit stream created after error precoding scrambled according to a certain pattern before transmission and upon receipt before error correction after the same Scheme is descrambled again.

The invention is particularly advantageous to use if certain groups, e.g. B. the scale factors in a Tone encoding, a set of bits that varies from frame to frame exhibit. In this case, the move according to the invention subsequent bits, sections, etc. to "front Places "and automatically receive one better protection, which would not be possible if the distribution becomes inhomogeneous.

Tests have shown that different sections of a source coded Audio bitstream a different sensitivity against bit errors. It therefore becomes the above-mentioned channel coding system proposed around the sensitivity function for better overall performance. in the in general, the coding scheme is based on the subjective Sensitivity of different sections, allocation, scale factors and audio data bits, these groups possibly are also divided into subgroups that for example, less medium and high quality bits LB, NB, HB included.

Advantageous developments of the invention are in the subclaims described.

It is therefore expedient to spread the newly created and put together in a new order and to transmit them in a nested manner with the neighboring sections originating from other groups (see FIG. 1c).

If necessary, the next but one and if necessary the closest older sections from other groups in including nesting.

It is advantageous if the spreading and nesting is carried out so far that the ends of a particular (spread) section, e.g. B. that of all third bits a group with the neighboring sections also spread from the original group concerned, in this case with those of the second bits and the fourth bits from the meet the same group again or only a few more, bits caused by the spread are separated.

It is also advantageous if the degree of spread a section different on both sides and the Appropriate distance to neighboring section of the same origin group is.

It can also be advantageous if the degree of spread a section on either side of the same size or approximately is the same and is determined by the side that leads to a section from the same group.

But it may also be appropriate that the degree of spread a section different on both sides is and on the side, with another section from the same Group is missing up to the middle or approximately to the middle the neighboring section from another group enough.

It is advantageous if the ranking of nth bits is one newly formed section in the case of a sound transmission after the so-called subband coding of the sequence of the individual frequency bands (Subbands) corresponds.  

To do this, it is advantageous if the order of priority of nth bits a newly formed section in the event of a sound transmission the subband coding of the importance of the respective frequency or subband bands.

The order of the newly formed sections consisting of one and come from the same group, corresponds to a certain one, with the low-order bits beginning, counting of the bits like this that z. B. consecutive: sections with the ninth each Bits, the eighth bits, the seventh Bits, etc., where values where the relevant bits are missing be ignored. This happens in contrast to one relative counting, e.g. B. starts with all MSBs.

It can also be useful that the order of the bits a parent group of the order of the bits one subordinate group is influenced; in the way that when passing the values a subordinate group the corresponding values for the parent group as well are ignored or only later with the allocation of places for the corresponding values at the parent Group is started.

Finally, it can be advantageous that after the determination of a theoretically correct scheme certain changes with the aim of simplifying the structure and handling of the transmitted bit stream and / or the scheme is adapted to the practically available possibility e.g. B. with regard to the spread to the limited amount of bits present in certain sections.

The transmitted signals are correspondingly in a receiver decoded the coding rule according to the invention and processed.

The invention is described below using an exemplary embodiment explained in more detail. According to the embodiment concerns  the invention the channel coding of audio signals, which are transmitted in the DAB (Digital Audio Broadcast) system. However, the invention can also be applied to other digital transmission systems be applied.

FIG. 1a shows the basic scheme of the data division of a frame after the sampling of the analog signal,

Fig. 1b shows the basic diagram of the data distribution of a frame z. B. with determined values of the susceptibility to errors or the required error protection,

FIG. 1c, the schema of the data distribution of a frame according to the reordering

FIG. 1d, the schema of the data distribution shows a frame according to the re-sorting and spreading of the sections.

In FIGS. 1a-1d are the Roman figures names of the groups, the letters a, b, c names of the sub-groups. In FIGS. 1b-1d, II, III is the error rate or the required error protection of a group I, IV and corresponding sub-groups a, b, c, a1, a2, etc. applied a data frame on the available bit amount. In Fig. 1c the blocks with the same susceptibility to errors from Fig. 1b are plotted.

Claims (14)

1. method for transmitting an audio and / or video signal, where the analog signal is converted into a digital signal converted, before transmitting an encoding and subjected to modulation, the signal is subjected to a source signal coding in which the Bits of individual sampled values combined and ordered by their importance and values in groups in a frame with a recurring Scheme to be summarized, according to the recurring Scheme of all bits with the same importance or Susceptibility to errors within a group of the frame are summarized or divided so that all the first, second, third bits, etc. of a group follow one another, the source signal encoding a data reduction includes so that different value groups (I, II, II, IV) such as. B. general assignment data, and scale factors with fundamentally different Importance or susceptibility to errors are provided and the individual groups (I, II,...) as well as subgroups (a, b, c,...) a predetermined degree of error susceptibility show that the resulting sections or subgroups or groups according to their susceptibility to errors are sorted so that sections with approx same susceptibility to errors are independent from their origin group that the level of error protection is staggered over a frame and in the course the scope of the reordered's susceptibility to errors Frame corresponds to the digital side of the transmitter Interleaved data be, which is after the error precoding emerging bitstream before transmission after a certain Pattern scrambled after being received before Error correction descrambled again according to the same scheme becomes.   2. The method according to claim 1, characterized in that the newly created and put together in a new order Sections spread and with the other groups from neighboring groups nested be transmitted. 3. The method according to claim 1 and / or 2, characterized in that possibly the next but one and and if necessary, the nearest further sections other groups included in the nesting will. 4. The method according to any one of the preceding claims, characterized characterized that the spreading and nesting to the extent that the ends of a particular (spread) section, e.g. B. that of all thirds Bits of a group with the neighboring sections also spread from the original group concerned, in this case with those of the second bits and the fourth bits from the same group to meet again or only by a few, by spreading conditional bits are separated. 5. The method according to any one of the preceding claims, characterized characterized in that the degree of spread of a Section different on both sides and the Distance to the neighboring section of the same origin group is appropriate. 6. The method according to any one of the preceding claims, characterized characterized in that the degree of spread of a Section the same size or approximately on both sides is the same size and determined from that side that comes from the same group Section leads.   7. The method according to any one of the preceding claims, characterized characterized in that the degree of spread of a Section is different on both sides and on the side where another section from the same group is missing up to the middle or approximately up to to the middle of the neighboring section from another group enough. 8. The method according to any one of the preceding claims, characterized characterized in that the order of nth bits a newly formed section in the event of a sound transmission according to the so-called subband coding sequence of the frequency bands corresponds. 9. The method according to any one of the preceding claims, characterized characterized in that the order of nth bits a newly formed section in the event of a sound transmission after the so-called subband coding of importance corresponds to the frequency bands. 10. The method according to any one of the preceding claims, characterized characterized that the order of newly formed Sections that come from the same group a certain one, with the least significant bits beginning, counting of the bits corresponds, so that z. B. successive: sections with the nth each Bits, each (N-1) th bits, each (N-2) th Bits etc. where values at which the relevant bits are missing, are ignored. 11. The method according to any one of the preceding claims, characterized characterized in that the order of the bits one parent group of the order of the bits one subordinate group is influenced; that when going over the values of a subordinate group the corresponding ones The same applies to the parent group are ignored, and / or only later with the allocation  of places for the corresponding values at the parent group is started. 12. The method according to any one of the preceding claims, characterized characterized in that after determining a theoretical correct schemes certain changes with the The aim of a simple structure and handling of the transferred Bitstream are made and / or that Scheme adapted to the practically available possibilities z. B. with regard to the spread to the limited Quantity of those available in certain sections Bits. 13. The method according to any one of the preceding claims, characterized characterized in that on the receiving side accordingly the corresponding coding on the transmission side Decoding is made. 14. Circuit or device with means for carrying out the Method according to one of claims 1-13.