Digital transmission system and method

US 6,536,010 B1
Filed: 10/26/1999
Issued: 03/18/2003
Est. Priority Date: 10/30/1998
Status: Expired due to Fees

First Claim

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1. A digital transmission system, comprising:

a coder for coding an input signal with an error checking or error correcting code, an interleaver for interleaving the bits of the coded signal, a mapper for mapping the interleaved coded signal into a multilevel signal, and a transmitter for sending the multilevel signal over a noisy channel in a transmission medium;

a receiver for receiving the multilevel signal distorted by noise (noisy multilevel signal), a demapper having a first input for receiving the noisy multilevel signal and operative to provide a soft demapped signal at an output, a deinterleaver, for deinterleaving the demapped signal, a decoder to decode the deinterleaved demapped signal to provide a soft decoded signal, an interleaver to interleave the decoded signal, the demapper having a second input for receiving the interleaved decoded signal and being operative to recalculate the demapped signal iteratively using the noisy signal and the soft decoded signal, characterized by;

a mapping store for storing a plurality of different mappings;

means for deriving an indication of the channel conditions; and

means for selecting the optimum mapping of the plurality dependent on the derived indication of channel conditions, the mapper and demapper being operatively responsive to the selected mapping.

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Abstract

A transmission system is disclosed in which a multilevel modulated signal is transmitted. The soft output information of a channel decoder is fed back and utilized by a soft demapping device in order to improve the decoding result by further iterative decoding steps. The receiver includes a demapper for generating a demapped signal, bit deinterleaver for generating a demapped and deinterleaved signal and a decoder for generating soft reliability values representative of the decoded signal. These soft reliability values are then bit interleaved and fed back to the demapper, as a priori knowledge, for use in further iterations of the decoding process. The mapping is changed adaptively dependent on the channel conditions and the number of iterations to be used.

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24 Claims

1. A digital transmission system, comprising:
- a coder for coding an input signal with an error checking or error correcting code, an interleaver for interleaving the bits of the coded signal, a mapper for mapping the interleaved coded signal into a multilevel signal, and a transmitter for sending the multilevel signal over a noisy channel in a transmission medium;
  
  a receiver for receiving the multilevel signal distorted by noise (noisy multilevel signal), a demapper having a first input for receiving the noisy multilevel signal and operative to provide a soft demapped signal at an output, a deinterleaver, for deinterleaving the demapped signal, a decoder to decode the deinterleaved demapped signal to provide a soft decoded signal, an interleaver to interleave the decoded signal, the demapper having a second input for receiving the interleaved decoded signal and being operative to recalculate the demapped signal iteratively using the noisy signal and the soft decoded signal, characterized by;
  
  a mapping store for storing a plurality of different mappings;
  
  means for deriving an indication of the channel conditions; and
  
  means for selecting the optimum mapping of the plurality dependent on the derived indication of channel conditions, the mapper and demapper being operatively responsive to the selected mapping.
- View Dependent Claims (2, 3, 4)
- - 2. A digital transmission system, as claimed in claim 1, wherein the indication of the channel conditions is the signal to noise ratio.
  - 3. A digital transmission system, as claimed in claim 1, in which the soft output signals of the demapper and the decoder are likelihood ratios.
  - 4. A digital transmission system, as claimed in claim 1, in which the soft output signals of the demapper and the decoder are log-likelihood ratios.

5. A digital transmission system, comprising:
- a coder for coding an input signal with an error checking or error correcting code, an interleaver for interleaving the bits of the coded signal, a mapper for mapping the interleaved coded signal into a multilevel signal, and a transmitter for sending the multilevel signal over a noisy channel in a transmission medium;
  
  a receiver for receiving the multilevel signal distorted by noise (noisy multilevel signal), a demapper having a first input for receiving the noisy multilevel signal and operative to provide a soft demapped signal at an output, a deinterleaver, for deinterleaving the demapped signal, a decoder to decode the deinterleaved demapped signal to provide a soft decoded signal, an interleaver to interleave the decoded signal, the demapper having a second input for receiving the interleaved decoded signal and being operative to recalculate the demapped signal iteratively using the noisy signal and the soft decoded signal, characterized by;
  
  a mapping store for storing a plurality of different mappings;
  
  means for determining the number of iterations to be carried out from a plurality of possible numbers of iteration; and
  
  means for selecting the optimum mapping of the plurality, dependent on the number of iterations as determined, the mapper and demapper being operatively responsive to the selected mapping.
- View Dependent Claims (6, 7)
- - 6. A digital transmission system, as claimed in claim 5, in which the soft output signals of the demapper and the decoder are likelihood ratios.
  - 7. A digital transmission system, as claimed in claim 5, in which the soft output signals of the demapper and the decoder are log-likelihood ratios.

8. A digital transmission system, comprising:
- a coder for coding an input signal with an error checking or error correcting code, an interleaver for interleaving the bits of the coded signal, a mapper for mapping the interleaved coded signal into a multilevel signal, and a transmitter for sending the multilevel signal over a noisy channel in a transmission medium;
  
  a receiver for receiving the multilevel signal distorted by noise (noisy multilevel signal), a demapper having a first input for receiving the noisy multilevel signal and operative to provide a soft demapped signal at an output, a deinterleaver, for deinterleaving the demapped signal, a decoder to decode the deinterleaved demapped signal to provide a soft decoded signal, an interleaver to interleave the decoded signal, the demapper having a second input for receiving the interleaved decoded signal and being operative to recalculate the demapped signal iteratively using the noisy signal and the soft decoded signal, characterized by;
  
  a mapping store, storing a plurality of different mappings;
  
  means for deriving an indication of the channel conditions;
  
  means for determining the number of iterations to be carried out from a plurality of possible numbers of iterations; and
  
  means for selecting the optimum mapping of the plurality dependent on the derived indication of channel conditions and on the number of iterations as determined, the mapper and demapper being operatively responsive to the selected mapping.
- View Dependent Claims (9, 10, 11, 12)
- - 9. A digital transmission system, as claimed in claim 8, wherein the indication of the channel conditions is the signal to noise ratio.
  - 10. A digital transmission system, as claimed in claim 8, in which the soft output signals of the demapper and the decoder are likelihood ratios.
  - 11. A digital transmission system, as claimed in claim 8, in which the soft output signals of the demapper and the decoder are log-likelihood ratios.
  - 12. A digital transmission system, as claimed in claim 8, wherein each mapping is stored with an indication of its mutual information, and including a mutual information store storing an approximation of the optimum mutual information with a plurality of respective combinations of channel conditions and number of iterations, the means for selecting a mapping being operative to identify an optimum mutual information from the number of iterations as determined and the nearest stored channel conditions to the derived indication, and to select the mapping from the plurality for which the stored mutual information is nearest to the identified optimum.

13. A method of transmitting a digital signal, comprising:
- coding an input signal with an error checking or error correcting code, interleaving the bits of the coded signal, mapping the interleaved coded signal into a multilevel signal, sending the multilevel signal over a noisy channel in a transmission medium;
  
  receiving the multilevel signal distorted by noise (noisy multilevel signal), demapping the noisy multilevel signal to provide a soft demapped signal at an output, deinterleaving the demapped signal, decoding the deinterleaved demapped signal to provide a soft decoded signal, interleaving the decoded signal, recalculating the demapped signal iteratively using the noisy signal and the soft decoded signal, characterized by;
  
  storing a plurality of different mappings;
  
  deriving an indication of the channel conditions; and
  
  selecting the optimum mapping and of the plurality dependent on the derived indication of channel conditions, the mapping and demapping being operatively responsive to the selected mapping.
- View Dependent Claims (14, 15, 16)
- - 14. A method of transmitting a digital signal, as claimed in claim 13, wherein the indication of the channel conditions is the signal to noise ratio.
  - 15. A method of transmitting a digital signal, as claimed in claim 13, in which the soft demapped and soft decoded signals are likelihood ratios.
  - 16. A method of transmitting a digital signal, as claimed in claim 13, in which the soft demapped and soft decoded signals are log-likelihood ratios.

17. A method of transmitting a digital signal, comprising:
- coding an input signal with an error checking or error correcting code, interleaving the bits of the coded signal, mapping the interleaved coded signal into a multilevel signal, sending the multilevel signal over a noisy channel in a transmission medium;
  
  receiving the multilevel signal distorted by noise (noisy multilevel signal), demapping the noisy multilevel signal to provide a soft demapped signal at an output, deinterleaving the demapped signal, decoding the deinterleaved demapped signal to provide a soft decoded signal, interleaving the decoded signal, recalculating the demapped signal iteratively using the noisy signal and the soft decoded signal, characterized by;
  
  storing a plurality of different mappings;
  
  determining the number of iterations to be carried out from a plurality of possible numbers of iteration; and
  
  selecting the optimum mapping and of the plurality, dependent on the number of iterations as determined, the mapping and demapping being operatively responsive to the selected mapping.
- View Dependent Claims (18, 19)
- - 18. A method of transmitting a digital signal, as claimed in claim 17, in which the soft demapped and soft decoded signals are likelihood ratios.
  - 19. A method of transmitting a digital signal, as claimed in claim 17, in which the soft demapped and soft decoded signals are log-likelihood ratios.

20. A method of transmitting a digital signal, comprising:
- coding an input signal with an error checking or error correcting code, interleaving the bits of the coded signal, mapping the interleaved coded signal into a multilevel signal, sending the multilevel signal over a noisy channel in a transmission medium;
  
  receiving the multilevel signal distorted by noise (noisy multilevel signal), demapping the noisy multilevel signal and to provide a soft demapped signal at an output, deinterleaving the demapped signal, decoding the deinterleaved demapped signal to provide a soft decoded signal, interleaving the decoded signal, recalculating the demapped signal iteratively using the noisy signal and the soft decoded signal, characterized by;
  
  storing a plurality of different mappings;
  
  deriving an indication of the channel conditions;
  
  determining the number of iterations to be carried out from a plurality of possible numbers of iterations; and
  
  selecting the optimum mapping and of the plurality dependent on the derived indication of channel conditions and on the number of iterations as determined, the mapping and demapping being operatively responsive to the selected mapping.
- View Dependent Claims (21, 22, 23, 24)
- - 21. A method of transmitting a digital signal, as claimed in claim 20, wherein the indication of the channel conditions is the signal to noise ratio.
  - 22. A method of transmitting a digital signal, as claimed in claim 20, in which the soft demapped and soft decoded signals are likelihood ratios.
  - 23. A method of transmitting a digital signal, as claimed in claim 20, in which the soft demapped and soft decoded signals are log-likelihood ratios.
  - 24. A method of transmitting a digital signal, as claimed in claim 20, wherein each mapping is stored with an indication of its mutual information, and including storing an approximation of the optimum mutual information with a plurality of respective combinations of channel conditions and number of iterations, the step of selecting a mapping being operative to identify an optimum mutual information from the number of iterations as determined and the nearest stored channel conditions to the derived indication, and to select the mapping from the plurality for which the stored mutual information is nearest to the identified optimum.

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Current Assignee
Avago Technologies General IP PTE Limited (Broadcom, Inc.)
Original Assignee
Agere Systems Incorporated (Broadcom, Inc.)
Inventors
Brink, Stephan ten
Primary Examiner(s)
Decady, Albert
Assistant Examiner(s)
Torres, Joseph D.

Application Number

US09/427,298
Time in Patent Office

1,239 Days
Field of Search

714/774, 714/701, 714/794, 714/792, 714/795, 375/286
US Class Current

714/794
CPC Class Codes

H03M 13/2957   Turbo codes and decoding

H03M 13/31   combining coding for error ...

H03M 13/45   Soft decoding, i.e. using s...

H03M 13/6325   Error control coding in com...

H04L 1/0001   Systems modifying transmiss...

H04L 1/005   Iterative decoding, includi...

H04L 1/0065   Serial concatenated codes

Digital transmission system and method

First Claim

4 Assignments

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Abstract

30 Citations

24 Claims

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Digital transmission system and method

First Claim

4 Assignments

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Abstract

30 Citations

24 Claims

Specification

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