Difference between revisions of "Channel Coding"

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'''»Channel coding«'''  $($also known as  "error-control coding"$)$  includes both  
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===Brief summary===
*'''»error detection methods«''',  and
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{{BlueBox|TEXT=»'''Channel Coding'''«  $($or  »Error-Control Coding«$)$  includes both,  »Error Detection«  as well as   »Forward Error Correction« 
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*which first enables digital signal transmission when the channel is bad  $($small SNR$)$ 
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*and leads to very small error rates when the channel is good enough  $($large SNR$)$.
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Here are some keywords from the book content: 
 
   
 
   
*'''&raquo;forward error correction&laquo;'''&nbsp; $\rm (FEC)$,&nbsp; <br> &nbsp; &nbsp;which often make digital signal transmission possible with a bad channel&nbsp; $($low SNR$)$&nbsp; and<br> &nbsp; &nbsp;lead to very low error rates with a sufficiently good channel&nbsp; $($high SNR$)$.
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# Binary linear block codes:&nbsp; Generator matrix,&nbsp; parity-heck matrix and decoding.&nbsp; Examples:&nbsp; Single parity-check codes,&nbsp; repetition codes,&nbsp; Hamming codes.     
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# Error probability bounds:&nbsp; Minimum distance,&nbsp; Union bound,&nbsp; Shannon bound.&nbsp; Channel coding theorem and channel capacity: error rate vs. code rate.   
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# Reed-Solomon codes:&nbsp; Algebra fundamentals,&nbsp; Extension fields,&nbsp; code parameters,&nbsp; encoding&ndash; and decoding principle,&nbsp; Singleton bound,&nbsp; applications. 
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# Convolutional codes:&nbsp; Algebraic and polynomial description,&nbsp; state and trellis diagram,&nbsp; decoding using Viterbi  and BCJR  algorithm.
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# Iterative decoding methods:&nbsp; Soft-in soft-out decoders,&nbsp; product codes,&nbsp; turbo codes and low-density parity-check $($LDPC$)$ codes.
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<u>Notes:</u>
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*Knowledge of&nbsp; &raquo;[[Theory_of_Stochastic_Signals]]&laquo;&nbsp; and the&nbsp; &raquo;[[Information theory]]&laquo;&nbsp; is helpful,&nbsp; but not essential for understanding channel coding.  
  
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*Their mathematics is fundamentally different from that in other disciplines.&nbsp; However, analogies can often be seen,&nbsp; e.g., to &nbsp;[[Signal_Representation/The_Convolution_Theorem_and_Operation|&raquo;conventional convolution&laquo;]].
  
Here first a&nbsp; &raquo;'''content overview'''&laquo;&nbsp; on the basis of the&nbsp; &raquo;'''four main chapters'''&laquo;&nbsp; with a total of&nbsp; &raquo;'''22 individual chapters'''&laquo;:
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* An encoding type with a different goal is the&nbsp; [[Information_Theory/General_Description|&raquo;Source coding&laquo;]]&nbsp; $($"Data compression"$)$.&nbsp; Here,&nbsp; redundancy is not added,&nbsp; but reduced.
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* Another type of coding is&nbsp; [[Digital_Signal_Transmission/Basics_of_Coded_Transmission#Source_coding_.E2.80.93_Channel_coding_.E2.80.93_Line_coding|&raquo;Line_coding&laquo;]]&nbsp; with the aim,&nbsp; to adapt the transmitted signal spectrally to the transmission channel in the best possible way.
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&rArr; &nbsp; Here first a&nbsp; &raquo;'''contents overview'''&laquo;&nbsp; based on the &nbsp;&raquo;'''four main chapters'''&laquo;&nbsp; with a total of&nbsp; &raquo;'''22 individual chapters'''&laquo;&nbsp; and&nbsp; &raquo;'''175 sections'''&laquo;.}}
  
  
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{{Collapsible-Fuß}}
 
{{Collapsible-Fuß}}
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===Exercises and multimedia===
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{{BlaueBox|TEXT=
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In addition to these theory pages,&nbsp; we also offer exercises and multimedia modules on this topic,&nbsp; which could help to clarify the teaching material:
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$(1)$&nbsp; &nbsp; [https://en.lntwww.de/Category:Channel_Coding:_Exercises $\text{Exercises}$]
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$(2)$&nbsp; &nbsp; [[LNTwww:Learning_Videos_to_"Channel_Coding"|$\text{Learning videos}$]]
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$(3)$&nbsp; &nbsp; [[LNTwww:Applets_to_"Channel_Coding"|$\text{Applets}$]]&nbsp;}}
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===Further links===
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{{BlaueBox|TEXT=
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$(4)$&nbsp; &nbsp; [[LNTwww:Bibliography_to_"Mobile_Communications"|$\text{Bibliography}$]]
  
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$(5)$&nbsp; &nbsp; [[LNTwww:Imprint_for_the_book_"Mobile_Communications"|$\text{Impressum}$]]}}
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<br><br>
 
In addition to these theory pages,&nbsp; we also offer exercises and multimedia modules that could help to clarify the topic:
 
In addition to these theory pages,&nbsp; we also offer exercises and multimedia modules that could help to clarify the topic:
 
*[https://en.lntwww.de/Category:Channel_Coding:_Exercises $\text{Exercises}$]
 
*[https://en.lntwww.de/Category:Channel_Coding:_Exercises $\text{Exercises}$]

Revision as of 15:59, 23 March 2023

Brief summary

»Channel Coding«  $($or  »Error-Control Coding«$)$  includes both,  »Error Detection«  as well as  »Forward Error Correction« 

  • which first enables digital signal transmission when the channel is bad  $($small SNR$)$ 
  • and leads to very small error rates when the channel is good enough  $($large SNR$)$.


Here are some keywords from the book content:

  1. Binary linear block codes:  Generator matrix,  parity-heck matrix and decoding.  Examples:  Single parity-check codes,  repetition codes,  Hamming codes.
  2. Error probability bounds:  Minimum distance,  Union bound,  Shannon bound.  Channel coding theorem and channel capacity: error rate vs. code rate.
  3. Reed-Solomon codes:  Algebra fundamentals,  Extension fields,  code parameters,  encoding– and decoding principle,  Singleton bound,  applications.
  4. Convolutional codes:  Algebraic and polynomial description,  state and trellis diagram,  decoding using Viterbi and BCJR algorithm.
  5. Iterative decoding methods:  Soft-in soft-out decoders,  product codes,  turbo codes and low-density parity-check $($LDPC$)$ codes.


Notes:

  • Their mathematics is fundamentally different from that in other disciplines.  However, analogies can often be seen,  e.g., to  »conventional convolution«.
  • An encoding type with a different goal is the  »Source coding«  $($"Data compression"$)$.  Here,  redundancy is not added,  but reduced.
  • Another type of coding is  »Line_coding«  with the aim,  to adapt the transmitted signal spectrally to the transmission channel in the best possible way.

⇒   Here first a  »contents overview«  based on the  »four main chapters«  with a total of  »22 individual chapters«  and  »175 sections«.


Contents

Exercises and multimedia

In addition to these theory pages,  we also offer exercises and multimedia modules on this topic,  which could help to clarify the teaching material:

$(1)$    $\text{Exercises}$

$(2)$    $\text{Learning videos}$

$(3)$    $\text{Applets}$ 


Further links



In addition to these theory pages,  we also offer exercises and multimedia modules that could help to clarify the topic:


$\text{Further links:}$

$(1)$    $\text{Bibliography for the book}$

$(2)$    $\text{General notes about the book}$   $($authors and involved colleagues,  materials as a starting point for the book,  references$)$




$\text{Notes on the authors and the materials used as a basis for the preparation of the book}$.