Find the generator polynomial of the length-1023, primitive binary BCH code with designed error-correcting capability (a) t = 1. (b) t = 2. (c) t = 3. (d) t = 4.
Find the generator polynomial of the length-1023, primitive binary BCH code with designed error-correcting capability (a)...
Find the generator polynomial of the length-1023, primitive binary BCH code with designed error-correcting capability (a) t = 1. (b) t = 2. (c) t = 3. (d) t = 4.
Problem 2 Find the generator polynomial of the primitive binary BCH code of length 1023 and designed error correcting capability of t-1 t=2 and t=3. Problem3 Determine all the binary cyclic codes of length 21
Consider the 2-error correcting RS code over GF(8). Let α be a primitive element of GF(8). (a) List the parameters of the code. Find the generator polynomial of the code. Encode the message [1 α α2 ] systematically. (b) List the parameters of the binary expanded code. Provide binary equivalents of the encoding above. (c) Decode the received word [0 1 α α2 α3 1 0].
Consider the 2-error correcting, narrow-sense RS code over GF(16) (α is a primitive element). (a) Write down the generator polynomial and the parity check polynomial. (b) Provide a parity check matrix for the code. (c) Decode the received vector V = [α6 α12 α9 α12 0 0 0 α8 0 0 0 α10 α α13 α].
Consider a (7, 4) code whose generator matrix isa) Find all the codewords of the code b) Find H, the parity check matrix of the code. c) Compute the syndrome for the received vector 1 101 1 0 1. Is this a valid code vector? d) What is the error-correcting capability of the code? e) What is the error-detecting capability of the code?
code word 1010101 , with generator polynomial 1011 . find the right code please explain what is the error code and how to get the right code
Consider a message D 110100111011001110111. Calculate the CRC code R for that message using a generator-polynomial x4+x+1 (CRC-4-ITU) . Represent in binary code the message to be sent (D and R). Generate 2-bit burst error (erasure error) and show the checking procedure.
Consider the (5,2) linear binary code, C, with linear space of codewords spanned by the codewords (1, 0, 1,1, 1) and (0, 1, 1, 1, 0). 4. Find all codewords in C, find the systematic generator matrix, G, and a parity check matrix, H, for the code. a. Determine dmin for the code and the code's weight distribution. Determine all codewords in the dual code, Cd . Find a systematic generator matrix, Ga, for the dual code, and corresponding parity...
Write legibly to receive good rating. Consider a CRC code with a generator polynomial of g(x) -xSx21 a. (15 points) Show step by step (using the longhand division) how to find the codeword that corresponds to information bits of 10011 b. (15 points) Show the shift-register circuit that implements this CRC code. C. Suppose the codeword length is 10. Answer the following questions, with proper justifications i. (10 points) Give an example of undetectable error burst of length 9 ii....
(c) Consider the (7, 4) Hamming Code defined by the generator polynomial g(x)-1 +x+x'. The code word 1000101 is sent over a noisy channel, producing the received word 0000101 that has a single error. Determine the syndrome polynomial s(x) for this received word. Find its corresponding message vector m and express m in polynomial m(x). 0