EP1033034A1

EP1033034A1 - Method and device for evaluating a digital data stream

Info

Publication number: EP1033034A1
Application number: EP99947284A
Authority: EP
Inventors: Bernhard Horn
Original assignee: Grundig AG
Current assignee: Grundig Multimedia BV
Priority date: 1998-09-10
Filing date: 1999-09-07
Publication date: 2000-09-06
Also published as: JP2002525922A; WO2000016547A1; DE19841371B4; DE19841371A1

Abstract

The invention relates to a method and a device for evaluating a digital data flow in which data is transmitted in packets. Each packet has a synchronous bit and there are predetermined bit positions in the packets, to which marker bits are transmitted. The marker bits that are transmitted to the predetermined bit positions of the packets are compared with reference bits. When it has been established that all of the marker bits that are compared with each other match respectively, an indicator signal is generated, signalling that the compared marker bits are identical. The marker bits that are to be compared with each other respectively are compared in a bit-serial comparator.

Description

Method and device for evaluating a digital data stream

description

The invention relates to a method for evaluating a digital data stream, in which the data are transmitted in packets, each packet has a synchronous byte, and bit positions are specified in the packets at which identification bits are transmitted. The invention further relates to a device for evaluating a digital data stream.

From the book "Digital television technology, data compression and transmission for DVB" by Ulrich Reimers, 2nd edition, Springer-Verlag, 1997, pages 89-99, it is already known audio, video and additional data according to the MPEG-2 standard in a digital data stream in which the signal units of the above-mentioned data are transmitted in a multiplex In this data stream, information about the current program and the transmission path as well as about other functions that are required for the technical implementation of the service or for the viewer as an orientation aid The data stream in which the data is transmitted in packets also contains a synchronous byte in each data packet, which is used for the playback-side data recovery. The information about the running program is transmitted in the form of tables. A first of these tables is the “Program Association Ta ble (PAT) ", which contains a list of all the programs in the transport multiplex as well as cross-references to a corresponding" Program Map Table (PMT) ". This in turn contains information that is required to decode the respective program. This information includes, among other things, identifier bits which represent an identifier for the current table, the length of the table, an identifier for the current transport stream and the version number of the current table. The applicant's previously unpublished German patent application 198 20 936 describes a method and a device for evaluating a digital data stream, the data being transmitted in packets, each packet having a synchronous byte and bit positions in which packets are transmitted, at which identification bits are transmitted . In this case, the identifier bits transmitted at predetermined bit positions of successive packets are compared with one another, and when a detection of a mismatch between the identifier bits compared with one another is generated, which signals the inequality of the identifier bits compared with one another.

In known methods and devices, the identification bits are always compared using a multi-bit comparator. An exemplary embodiment of such a known multi-bit comparator is shown in FIG. 2.

Based on this prior art, the object of the invention is to provide a method for evaluating a digital data stream with the features specified in the preamble of claim 1, in which the comparator effort is reduced.

This object is achieved by a method with the features specified in claim 1. Advantageous refinements and developments of the method specified in claim 1 are the subject of dependent claims 2-13. Claims 14-20 relate to a device for evaluating a digital data stream.

The advantages of the invention are, in particular, that the actual comparator effort is reduced to a single bit due to the use of a bit serial comparator. The effort for a possible comparison of larger units than the usual 8 bit does not increase the comparator effort with the serial method, since even for long filter elements, for example for a 40 bit comparator, the Comparator unit, ie the ExcIusiv-or-element, does not have to be changed.

Furthermore, the reference characteristic bits, which are made available, for example, by a microcomputer, can also be clocked very easily serially into the shift register provided in the signal path of the reference characteristic bits. When using a bit-parallel comparator, much more effort would have to be taken.

There are also no strong restrictions for the distribution of the logical units within a chip (routing). For example, the memories for the reference characteristic bits do not necessarily have to be arranged very close together locally. It is sufficient if only adjacent elements of the storage chain are arranged close to one another (placement). Only the comparator unit used must be designed quickly.

The serial filters according to the invention save connection resources from this block, which is regarded as a closed area. This has the advantage that they can be easily implemented as macro blocks in gate arrays, full customer chips or as external peripheral chips. Furthermore, better interference suppression measures can be taken, the fewer connections need to be provided with it.

This means that more filters can be implemented in parallel on the same chip area, which increases the performance of MPEG devices.

In summary, fewer chip resources or a smaller number of gates are consequently required in the invention, as a result of which a cost saving is achieved. It is easier to expand to non-byte-bound filter elements than with parallel processing. Also expandability to any number of filter elements and to other filter algorithms, e.g. B. filtering for inequality is simplified. In addition, serial-to-parallel converters are saved in the case of serial chip interfaces. After all, is also for Larger filter elements, for example a 40-bit filter element, in contrast to parallel processing, in which a 40-bit-wide comparator has to be implemented, do not require a substantially increased outlay.

Advantageous areas of application of the invention are front-end chips (demodulators), demultiplexers, multiplexers and encryption and decryption systems.

In the following the invention is explained by way of example with reference to the figures.

It shows

- Figure 1 is a block diagram for a serial filter according to the invention and

- Figure 2 is a block diagram of a known multi-bit comparator.

FIG. 1 shows a block diagram for a serial filter according to the invention. This filter is a filter by means of which a predetermined PID code (packet identifier) is to be recognized in a digital data stream, for example an MPEG data stream. Such a PID code consists of 13 bits. It is predetermined in each of the transmitted packets

Bit positions are provided and indicate the membership of the respective packet to a specific sub-data stream of the MPEG data stream. These sub-data streams each contain video, audio or additional data associated with a specific television broadcasting program. A large number of packets are assigned to each sub-data stream. The packets assigned to different sub-data streams are transmitted interleaved in time division multiplex. Furthermore, a digital MPEG data stream also has sub-data streams which contain information about the organization of the digital data stream. These are structured in tabular form, with a large number of identification bit groups being transmitted within the tables, each having a predetermined number of identification bits. For example, there are references to in the tables Broadcast program updates included.

The serial filter shown in FIG. 1 is provided, for example, in a demultiplexer of a digital satellite radio receiver in order to separate a specific sub-data stream from the MPEG data stream, for example a sub-data stream in which the video, audio or teletext signals associated with a specific television broadcasting program be transmitted. For this purpose, the MPEG data stream must be monitored in the demultiplexer for the occurrence of a bit sequence which corresponds to a predetermined sequence of reference identifier bits, the predetermined sequence of reference identifier bits corresponding to the PID of the desired sub-data stream.

A digital data stream coded according to the MPEG standard is fed in bit-serial form to the input E1 of the block diagram shown in FIG. At the input E2, the reference identifier bits, which correspond to the PID of the desired sub-data stream, are also available in bit-serial form. This Referenzkennbits be provided for example via a serial microprocessor interface (I ² C, SPI) and is written into a serial 13-bit latch 1, which is preferably designed as a shift register. The processor generates the shift register clock and release signals independently, so that no further control is necessary for the shift register.

The signal A present at the input E1 and the output signal B of the 13-bit shift register 1 are fed to a bit-serial comparator 2, implemented as an exclusive or element, in which a bit-wise and bit-serial comparison of a total of 13 successive bit values takes place. The comparison results obtained are fed to a synchronous RS flip-flop 3 acting as a result accumulator. This is from one

Control unit 4, which has a bit counter and a sequential control system, is set to “A = B” at the time the comparison begins The RS flip-flop is set to "A ≠ B" for a total of 13 bit comparisons which occur only once, the result "A = B" or "A ≠ B" at the end of the comparison process is then in the form of an indicator signal I, which may have the values “0” or “1”, for example, to the further processing unit, which is not shown in FIG. 1.

The invention was explained above using an exemplary embodiment in which a predefined PID code is to be recognized in an MPEG data stream. However, the invention is also suitable for the recognition of other predetermined bit sequences, for example for the recognition of a 5-bit wide version number or for the recognition of further predetermined bit sequences which are transmitted in tables which are also part of the MPEG data stream. Furthermore, the invention can also be used with DAB data streams or DVD data streams. Furthermore, the invention can also be implemented in software using a fixed or freely programmable state machine.

FIG. 2 shows a block diagram of a known multi-bit comparator, in which a total of 13 comparators, which are arranged in parallel with one another, are necessary for filtering the MPEG data stream with a view to recognizing a predetermined PID code. The effort to implement such a multi-bit comparator is evidently much higher than the effort to implement a bit-series comparator according to the invention.

Claims

PATENT CLAIMS

1. A method for evaluating a digital data stream in which the data is transmitted in packets, each packet has a synchronous byte and the packets contain bit positions at which identifier bits are transmitted, the identifier bits transmitted at the predetermined bit positions of the packets being compared with reference identifier bits , and upon detection of a match of all of the characteristic bits compared with one another, an indicator signal is generated which signals the equality of the characteristic bits compared with one another, characterized in that the characteristic bits to be compared with one another are in a bit-serial manner

Comparator can be compared with each other.

2. The method according to claim 1, characterized in that the reference characteristic bits are guided via a shift register (1).

3. The method according to claim 1 or 2, characterized in that the bit-serial comparator has an ExcIusiv-or-element (2).

4. The method according to claim 3, characterized in that the output signal of the ExcIusiv-or-limb is fed to a synchronous RS flip-flop (3) which is controlled by a control unit (4) and the indicator signal (I) at its output provides.

5. The method according to any one of the preceding claims, characterized in that the digital data stream has a plurality of sub-data streams, in each of which data associated with a radio program are transmitted.

6. The method according to any one of the preceding claims, characterized in that the radio program is a television broadcasting program and the associated data are video, audio and additional data associated with the television broadcasting program.

7. The method according to any one of the preceding claims, characterized in that a plurality of packets is assigned to each sub-data stream, that the packets assigned to different sub-data streams are transmitted interleaved in time division multiplexing, that each packet has one

Has an identification code (PID), which indicates the membership of the packet to one of the sub-data streams, and that the compared comparison bits represent a packet identification code (PID).

8. The method according to any one of the preceding claims, characterized in that the digital data stream has sub-data streams which contain information about the organization of the digital data stream.

9. The method according to any one of the preceding claims, characterized in that the information about the organization of the digital data stream is structured in tabular form and a plurality of characteristic bit groups are transmitted within a table, each having a predetermined number of

Have identification bits.

10. The method according to claim 9, characterized in that the tables contain references to radio program-dependent updates.

11. The method according to any one of the preceding claims, characterized in that the digital data stream is an MPEG data stream.

12. The method according to any one of the preceding claims 1-10, characterized in that the digital data stream is a DAB data stream.

13. The method according to any one of the preceding claims 1-10, characterized in that the digital data stream is a DVD data stream.

14. Device for evaluating a digital data stream, in which the data is transmitted in packets, each packet has a synchronous byte and the packets contain bit positions at which characteristic bits are transmitted, which device has:

a first input connection (E1), at which the identification bits transmitted at the predetermined bit positions of the packets are present in bit series form,

- A second input terminal (E2), at which reference bits in bit serial form and

- A bit serial comparator, the inputs of which are connected to the first and the second input connection.

15. The apparatus according to claim 14, characterized in that the bit series comparator has an ExcIusiv-or-element (2).

16. The apparatus according to claim 15, characterized in that an RS flip-fop (3) is connected to the output of the ExcIusiv-or-element (2).

17. The apparatus according to claim 16, characterized in that it has a control unit (4) which is connected to the RS flip-flop (3).

18. The apparatus according to claim 17, characterized in that the control unit (4) has a bit counter.

19. Device according to one of claims 16-18, characterized in that the RS flip-flop (3) has an output connection to which a

Indicator signal (I) can be tapped.

20. Device according to one of claims 14-19, characterized in that it is realized by a state machine. I .Device according to claim 20, characterized in that the state machine is fixed or freely programmable.