Repetition code
In coding theory, the repetition code is one of the most basic . In order to transmit a message over a noisy channel that may corrupt the transmission in a few places, the idea of the repetition code is to just repeat the message several times. The hope is that the channel corrupts only a minority of these repetitions. This way the receiver will notice that a transmission error occurred since the received data stream is not the repetition of a single message, and moreover, the receiver can recover the original message by looking at the received message in the data stream that occurs most often.
Because of the bad error correcting performance and the low ratio between information symbols and actually transmitted symbols, other are preferred in most cases. The chief attraction of the repetition code is the ease of implementation.
Contents
Code parameters
In the case of a binary repetition code, there exist two code words – all ones and all zeros – which have a length of . Therefore, the minimum of the code equals its length . This gives the repetition code an error correcting capacity of (i.e. it will correct up to errors in any code word).
If the length of a binary repetition code is odd, then it’s a . The binary repetition code of length 3 is equivalent to the (3,1)-Hamming code.
Example
Let’s consider a binary repetition code of length 3. The user wants to transmit the information bits 101
. Then the encoding maps each bit either to the all ones or all zeros code word, so we get the 111 000 111
, which will be transmitted.
Let’s say three errors corrupt the transmitted bits and the received sequence is 111 010 100
. Decoding is usually done by a simple majority decision for each code word. That lead us to 100
as the decoded information bits, because in the first and second code word occurred less than two errors, so the majority of the bits are correct. But in the third code word two bits are corrupted, which results in an erroneous information bit, since two errors lie above the error correcting capacity.
Applications
Despite their poor performance as stand-alone codes, use in Turbo code-like iteratively decoded schemes, such as repeat-accumulate (RA) and accumulate-repeat-accumulate (ARA) codes, allows for surprisingly good error correction performance.
Repetition codes are one of the few known codes whose can be automatically adjusted to varying , by sending more or less parity information as required to overcome the channel noise, and it is the only such code known for non-. Practical adaptive codes for erasure channels have been invented only recently, and are known as .
Some , such as the ones used in the protocol, use a majority filter to ignore brief noise spikes. This spike-rejection filter can be seen as a kind of repetition decoder.