Pseudorandom binary sequence


A pseudorandom binary sequence, pseudorandom binary code or pseudorandom bitstream is a binary sequence that, while generated with a deterministic algorithm, is difficult to predict and exhibits statistical behavior similar to a truly random sequence. PRBS generators are used in telecommunication, such as in analog-to-information conversion, but also in encryption, simulation, correlation technique and time-of-flight spectroscopy. The most common example is the maximum length sequence generated by a linear feedback shift register. Other examples are Gold sequences, Kasami sequences and JPL sequences, all based on LFSRs.
In telecommunications, pseudorandom binary sequences are known as pseudorandom noise codes due to their application as pseudorandom noise.

Details

A binary sequence is a sequence of bits, i.e.
A BS consists of ones and zeros.
A BS is a pseudorandom binary sequence if its autocorrelation function, given by
has only two values:
where
is called the duty cycle of the PRBS, similar to the duty cycle of a continuous time signal. For a maximum length sequence, where, the duty cycle is 1/2.
A PRBS is 'pseudorandom', because, although it is in fact deterministic, it seems to be random in a sense that the value of an element is independent of the values of any of the other elements, similar to real random sequences.
A PRBS can be stretched to infinity by repeating it after elements, but it will then be cyclical and thus non-random. In contrast, truly random sequence sources, such as sequences generated by radioactive decay or by white noise, are infinite. However, as a result of this predictability, PRBS signals can be used as reproducible patterns.

Practical implementation

Pseudorandom binary sequences can be generated using linear-feedback shift registers.
Some common sequence generating monic polynomials are
An example of generating a "PRBS-7" sequence can be expressed in C as

  1. include
  2. include
  3. include

int main

In this particular case, "PRBS-7" has a repetition period of 127 values.

Notation

The PRBSk or PRBS-k notation gives an indication of the size of the sequence. is the maximum number of bits that are in the sequence. The k indicates the size of a unique word of data in the sequence. If you segment the N bits of data into every possible word of length k, you will be able to list every possible combination of 0s and 1s for a k-bit binary word, with the exception of the all-0s word. For example, PRBS3 = "1011100" could be generated from. If you take every sequential group of three bit words in the PRBS3 sequence, you will find the following 7 word arrangements:
"1011100" → 101
"1011100" → 011
"1011100" → 111
"1011100" → 110
"1011100" → 100
"1011100" → 001
"1011100" → 010
Those 7 words are all of the possible non-zero 3-bit binary words, not in numeric order. The same holds true for any PRBSk, not just PRBS3.