6.27 Error-correcting codes: channel decoding

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Channel decoding must be coordinated with coding for accurate results.

Because the idea of channel coding has merit (so long as the code is efficient), let's develop a systematic procedure forperforming channel decoding. One way of checking for errors is to try recreating the error correction bits from the dataportion of the received block $\hat{c}$ . Using matrix notation, we make this calculation by multiplying the received block $\hat{c}$ by the matrix $H$ known as the parity check matrix . It is formed from the generator matrix $G$ by taking the bottom, error-correction portion of $G$ and attaching to it an identity matrix. For our (7,4) code ,

H [\underset{Lower portion of G}{\underset{︸}{\begin{matrix} 1 & 1 & 1 & 0 \\ 0 & 1 & 1 & 1 \\ 1 & 1 & 0 & 1 \end{matrix}}}  \underset{Identity}{\underset{︸}{\begin{matrix} 1 & 0 & 0 \\ 0 & 1 & 0 \\ 0 & 0 & 1 \end{matrix}}}]

The parity check matrix thus has size

(N - K) \times N

, and the result of multiplying this matrix with a received wordis a length-

(N - K)

binary vector. If no digital channel errors occur—we receive a codeword so that

\hat{c} c

—then

H \hat{c} 0

. For example, the first column of

G

1000101

, is a codeword. Simple calculations show that multiplying this vector by

H

results in a length-

(N - K)

zero-valued vector.

Show that $H c 0$ for all the columns of $G$ . In other words, show that $H G 0$ an $(N - K) \times K$ matrix of zeroes. Does this property guarantee that all codewords also satisfy $H c 0$ ?

When we multiply the parity-check matrix times any codeword equal to a column of $G$ , the result consists of the sum of an entry from the lower portion of $G$ and itself that, by the laws of binary arithmetic, is always zero.

Because the code is linear—sum of any two codewords is a codeword—we can generate all codewords as sums of columns of $G$ . Since multiplying by $H$ is also linear, $H c 0$ .

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When the received bits $\hat{c}$ do not form a codeword, $H \hat{c}$ does not equal zero, indicating the presence of one or more errors induced by the digital channel. Because the presenceof an error can be mathematically written as $\hat{c} c e$ , with $e$ a vector of binary values having a 1 in those positions where a bit erroroccurred.

Show that adding the error vector $10 … 0$ to a codeword flips the codeword's leading bit and leaves the rest unaffected.

In binary arithmetic see this table , adding 0 to a binary value results in that binary value while adding 1 results inthe opposite binary value.

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Consequently, $H \hat{c} H c e H e$ . Because the result of the product is a length- $(N - K)$ vector of binary values, we can have $2 N K 1$ non-zero values that correspond to non-zero error patterns $e$ . To perform our channel decoding,

compute (conceptually at least) $H \hat{c}$ ;
if this result is zero, no detectable or correctable error occurred;
if non-zero, consult a table of length- $(N - K)$ binary vectors to associate them with the minimal error pattern that could have resulted in the non-zero result; then
add the error vector thus obtained to the received vector $\hat{c}$ to correct the error (because $c e e c$ ).
Select the data bits from the corrected word to produce the received bit sequence $\hat{b} n$ .

The phrase minimal in the third item raises the point that a double (or triple or quadruple …) error occurring during the transmission/reception of one codeword cancreate the same received word as a single-bit error or no error in another codeword. For example,

1000101

and

0100111

are both codewords in the example (7,4) code. The second results when the first one experiences three bit errors (first,second, and sixth bits). Such an error pattern cannot be detected by our coding strategy, but such multiple errorpatterns are very unlikely to occur. Our receiver uses the principle of maximum probability: An error-free transmission ismuch more likely than one with three errors if the bit-error probability

p_{e}

is small enough.

How small must $p_{e}$ be so that a single-bit error is more likely to occur than a triple-bit error?

The probability of a single-bit error in a length- $N$ block is $N p_{e} 1 p_{e} N 1$ and a triple-bit error has probability $N 3 p_{e} 3 1 p_{e} N 3$ . For the first to be greater than the second, we must have $p_{e} 1 N 1 N 2 6 1$ For $N 7$ , $p_{e} 0.31$ .

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Source: OpenStax, Fundamentals of electrical engineering i. OpenStax CNX. Aug 06, 2008 Download for free at http://legacy.cnx.org/content/col10040/1.9

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