Exercise 4.6: Product Code Generation

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Used component codes

A  $\rm product\:code \ (42, \ 12)$  shall be generated,  based on the following component codes:

  • the Hamming code  $\rm HC \ (7, \ 4, \ 3)$  ⇒   $\mathcal{C}_1$,
  • the truncated Hamming code $\rm HC \ (6, \ 3, \ 3)$   ⇒   $\mathcal{C}_2$.


Corresponding code tables are given on the right,  with three rows incomplete in each case.  These are to be completed by you.

The code word belonging to an information block  $\underline{u}$  generally results according to the equation 

$$\underline{x} = \underline{u} \cdot \mathbf{G}.$$

As in  $\text{Exercise 4.6Z}$,  the following generator matrices are assumed here:

$${ \boldsymbol{\rm G}}_1 = \begin{pmatrix} 1 &0 &0 &0 &1 &0 &1 \\ 0 &1 &0 &0 &1 &1 &0 \\ 0 &0 &1 &0 &0 &1 &1 \\ 0 &0 &0 &1 &1 &1 &1 \end{pmatrix} \hspace{0.05cm},\hspace{0.8cm} { \boldsymbol{\rm G}}_2 = \begin{pmatrix} 1 &0 &0 &1 &1 &0 \\ 0 &1 &0 &1 &0 &1 \\ 0 &0 &1 &0 &1 &1 \end{pmatrix} \hspace{0.05cm}.$$

Throughout the exercise,  apply to the information block:

$${ \boldsymbol{\rm U}} = \begin{pmatrix} 0 &1 &1 &0 \\ 0 &0 &0 &0 \\ 1 &1 &1 &0 \end{pmatrix} \hspace{0.05cm}.$$

Searched for according to the nomenclature in section  "Basic structure of a product code":

  • the parity-check matrix   $\mathbf{P}^{(1)}$   with respect to the horizontal code  $\mathcal{C}_1$,
  • the parity-check matrix  $\mathbf{P}^{(2)}$  with respect to the vertical code  $\mathcal{C}_2$,
  • the checks–on–checks matrix  $\mathbf{P}^{(12)}$.





Hints:



Questions

1

What are the results of row coding with the  $(7, \ 4, \ 3)$ code  $\mathcal{C}_1$?

1. row:   $\underline{u} = (0, \, 1, \, 1, \, 0) \ \Rightarrow \ \underline{x} = (0, \, 1, \, 1, \, 0, \, 1, \, 0, \, 1)$.
2. row:   $\underline{u} = (0, \, 0, \, 0, \, 0) \ \Rightarrow \ \underline{x} = (1, \, 1, \, 1, \, 1, \, 1, \, 1, \, 1)$.
3. row:   $\underline{u} = (1, \, 1, \, 1, \, 0) \ \Rightarrow \ \underline{x} = (1, \, 1, \, 1, \, 0, \, 0, \, 0, \, 0)$.

2

What are the results of column coding with the  $(6, \ 3, \ 3)$ code  $\mathcal{C}_2$?

1. column:   $\underline{u} = (0, \, 0, \, 1) \ \Rightarrow \ \underline{x} = (0, \, 0, \, 1, \, 0, \, 1, \, 1)$.
2. column:   $\underline{u} = (1, \, 0, \, 1) \ \Rightarrow \ \underline{x} = (1, \, 0, \, 1, \, 1, \, 0, \, 1)$.
3. column:   $\underline{u} = (1, \, 0, \, 1) \ \Rightarrow \ \underline{x} = (1, \, 1, \, 0, \, 0, \, 1, \, 1)$.
4. column:   $\underline{u} = (0, \, 0, \, 0) \ \Rightarrow \ \underline{x} = (0, \, 0, \, 0, \, 0, \,0, \, 0)$.

3

What statements apply to the checks–on–checks matrix?

The first row is  $(1, \, 0, \, 1)$  and the first column is  $(1, \, 1, \, 0)$.
The second row is  $(1, \, 0, \, 1)$  and the second column is  $(0, \, 0, \, 0)$.
The third row is  $(0, \, 0, \, 0)$  and the third column is  $(0, \, 0, \, 0)$.


Solution

(1)  Correct are the proposed solutions 1 and 3:

In general $\underline{x} = \underline{u} \cdot \mathbf{G}$. From this follows for

  • the first row vector:
$$\begin{pmatrix} 0 &1 &1 &0 \end{pmatrix} \cdot \begin{pmatrix} 1 &0 &0 &0 &1 &0 &1 \\ 0 &1 &0 &0 &1 &1 &0 \\ 0 &0 &1 &0 &0 &1 &1 \\ 0 &0 &0 &1 &1 &1 &1 \end{pmatrix} =\begin{pmatrix} 0 &1 &1 &0 &1 &0 &1 \end{pmatrix} \hspace{0.05cm},$$
  • the second row vector:
$$\begin{pmatrix} 0 &0 &0 &0 \end{pmatrix} \cdot \begin{pmatrix} 1 &0 &0 &0 &1 &0 &1 \\ 0 &1 &0 &0 &1 &1 &0 \\ 0 &0 &1 &0 &0 &1 &1 \\ 0 &0 &0 &1 &1 &1 &1 \end{pmatrix} =\begin{pmatrix} 0 &0 &0 &0 &0 &0 &0 \end{pmatrix} \hspace{0.05cm},$$
  • the third row vector:
$$\begin{pmatrix} 1 &1 &1 &0 \end{pmatrix} \cdot \begin{pmatrix} 1 &0 &0 &0 &1 &0 &1 \\ 0 &1 &0 &0 &1 &1 &0 \\ 0 &0 &1 &0 &0 &1 &1 \\ 0 &0 &0 &1 &1 &1 &1 \end{pmatrix} =\begin{pmatrix} 1 &1 &1 &0 &0 &0 &0 \end{pmatrix} \hspace{0.05cm}.$$


(2)  Correct are the proposed solutions 1, 2 and 4:

$$\begin{pmatrix} 0 &0 &1 \end{pmatrix} \cdot \begin{pmatrix} 1 &0 &0 &1 &1 &0 \\ 0 &1 &0 &1 &0 &1 \\ 0 &0 &1 &0 &1 &1 \end{pmatrix} =\begin{pmatrix} 0 &0 &1 &0 &1 &1 \end{pmatrix} \hspace{0.05cm},$$
$$\begin{pmatrix} 1 &0 &1 \end{pmatrix} \cdot \begin{pmatrix} 1 &0 &0 &1 &1 &0 \\ 0 &1 &0 &1 &0 &1 \\ 0 &0 &1 &0 &1 &1 \end{pmatrix} =\begin{pmatrix} 1 &0 &1 &1 &0 &1 \end{pmatrix} \hspace{0.05cm}.$$

To this subtask is to be noted further:

  • The given first column is correct if only because it coincides with a row (the third) of the generator matrix $\mathbf{G}_2$.
  • The third column of the 2D code word should be identical to the second column, since the same code word $(1, \, 0, \, 1)$ is assumed.
  • However, the given vector $(1, \, 1, \, 0, \, 0, \, 1, \, 1)$ cannot be correct if only because $\mathcal{C}_2$ is a systematic code just like $\mathcal{C}_1$.
  • Also the truncated $(6, \ 3, \ 3)$–Hamming code $C_2$ is linear, so that the assignment $\underline{u} = (0, \, 0, \, 0) \ \Rightarrow \ \ \underline{x} = (0, \, 0, \, 0, \, 0)$ can be stated without calculation.


Complete code tables

(3)  The complete code tables

  • of the Hamming code $(7, \ 4, \ 3)$, and
  • of the truncated Hamming code $(6, \ 3, \ 3)$ are given on the right.

One can see from this (without it being of interest for this exercise) that the codes considered here each have Hamming distance $d_{\rm min} = 3$.

Wanted product code



The left graph shows the result of the whole coding. At the bottom right you can see the checks–on–checks matrix of dimension $3 × 3$.
Concerning the subtask (3) the suggested solutions 1 and 2 are correct:

  • It is a coincidence that here in the checks–on–checks matrix two rows and two columns are identical.
  • It doesn't matter whether rows 4 to 6 of the total matrix are obtained using the code $\mathcal{C}_1$ or columns 5 to 7 are obtained using the code $\mathcal{C}_2$.