Difference between revisions of "Aufgaben:Exercise 3.7: Comparison of Two Convolutional Encoders"
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[[File:P_ID2672__KC_A_3_7.png|right|frame|Two convolutional encoders with parameters $n = 2, \ k = 1, \ m = 2$]] | [[File:P_ID2672__KC_A_3_7.png|right|frame|Two convolutional encoders with parameters $n = 2, \ k = 1, \ m = 2$]] | ||
| − | The graph shows two rate $1/2$ convolutional encoders, each with memory $m = 2$: | + | The graph shows two rate $1/2$ convolutional encoders, each with memory $m = 2$: |
| − | * The | + | * The encoder $\rm A$ has the transfer function matrix $\mathbf{G}(D) = (1 + D^2, \ 1 + D + D^2)$. |
| − | * In | + | |
| + | * In encoder $\rm B$ the two filters $($top and bottom$)$ are interchanged, and it holds: | ||
| + | :$$\mathbf{G}(D) = (1 + D + D^2, \ 1 + D^2).$$ | ||
The lower encoder $\rm B$ has already been treated in detail in the theory part. | The lower encoder $\rm B$ has already been treated in detail in the theory part. | ||
| − | In the present exercise, you are to | + | In the present exercise, |
| + | *you are first to determine the state transition diagram for encoder $\rm A$, | ||
| + | |||
| + | *and then work out the differences and the similarities between the two state diagrams. | ||
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Hints: | Hints: | ||
*This exercise belongs to the chapter [[Channel_Coding/Code_Description_with_State_and_Trellis_Diagram| "Code description with state and trellis diagram"]]. | *This exercise belongs to the chapter [[Channel_Coding/Code_Description_with_State_and_Trellis_Diagram| "Code description with state and trellis diagram"]]. | ||
| − | *Reference is made in particular to the sections | + | |
| − | + | *Reference is made in particular to the sections | |
| − | + | :* [[Channel_Coding/Code_Description_with_State_and_Trellis_Diagram#State_definition_for_a_memory_register|"State definition for a memory register"]] and. | |
| + | :* [[Channel_Coding/Code_Description_with_State_and_Trellis_Diagram#Representation_in_the_state_transition_diagram|"Representation in the state transition diagram"]]. | ||
===Questions=== | ===Questions=== | ||
<quiz display=simple> | <quiz display=simple> | ||
| − | { $\underline{u} = (0, \, 1, \, 1, \, 1, \, 0, \, 1, \, 0, \, 0, \, \text{...}\hspace{0.05cm})$ holds. Which sequences does | + | { $\underline{u} = (0, \, 1, \, 1, \, 1, \, 0, \, 1, \, 0, \, 0, \, \text{...}\hspace{0.05cm})$ holds. Which sequences does encoder $\rm A$ generate? |
|type="[]"} | |type="[]"} | ||
+ $\underline{x}^{(1)} = (0, \, 1, \, 1, \, 0, \, 1, \, 0, \, 0, \, 1, \, \text{...}\hspace{0.05cm})$, | + $\underline{x}^{(1)} = (0, \, 1, \, 1, \, 0, \, 1, \, 0, \, 0, \, 1, \, \text{...}\hspace{0.05cm})$, | ||
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- Other state transitions are possible. | - Other state transitions are possible. | ||
- All eight transitions have different code sequences. | - All eight transitions have different code sequences. | ||
| − | + Differences exist only for the code sequences $(01)$ and $(10)$. | + | + Differences exist only for the code sequences "$(01)$" and "$(10)$". |
</quiz> | </quiz> | ||
Revision as of 15:50, 14 November 2022
Two convolutional encoders with parameters $n = 2, \ k = 1, \ m = 2$
The graph shows two rate $1/2$ convolutional encoders, each with memory $m = 2$:
- The encoder $\rm A$ has the transfer function matrix $\mathbf{G}(D) = (1 + D^2, \ 1 + D + D^2)$.
- In encoder $\rm B$ the two filters $($top and bottom$)$ are interchanged, and it holds:
- $$\mathbf{G}(D) = (1 + D + D^2, \ 1 + D^2).$$
The lower encoder $\rm B$ has already been treated in detail in the theory part.
In the present exercise,
- you are first to determine the state transition diagram for encoder $\rm A$,
- and then work out the differences and the similarities between the two state diagrams.
Hints:
- This exercise belongs to the chapter "Code description with state and trellis diagram".
- Reference is made in particular to the sections
Questions
Solution
Calculation of the code sequence
(1) The calculation is based on the equations.
- $$x_i^{(1)} = u_i + u_{i–2},$$
- $$x_i^{(2)} = u_i + u_{i–1} + u_{i–2}.$$
- Initially, the two memories ($u_{i–1}$ and $u_{i–2}$) are preallocated with zeros ⇒ $s_1 = S_0$.
- With $u_1 = 0$, we get $\underline{x}_1 = (00)$ and $s_2 = S_0$.
- With $u_2 = 1$ one obtains the output $\underline{x}_2 = (11)$ and the new state $s_3 = S_3$.
From the adjacent calculation scheme one recognizes the correctness of the proposed solutions 1 and 4.
State transition diagram of encoder $\rm A$
(2) All proposed solutions are correct:
- This can be seen by evaluating the table at (1).
- The results are shown in the adjacent graph.
State transition diagram of encoder $\rm B$
(3) Correct is only statement 3:
- The state transition diagram of Coder $\rm B$ is sketched on the right. For derivation and interpretation, see section "Representation in the state transition diagram".
- If we swap the two output bits $x_i^{(1)}$ and $x_i^{(2)}$, we get from the convolutional encoder $\rm A$ to the convolutional encoder $\rm B$ (and vice versa).
