Title :
Double circulant quadratic residue codes
Author :
Helleseth, Tor ; Voloch, José Felipe
Author_Institution :
Dept. of Informatics, Univ. of Bergen, Norway
Abstract :
We give a lower bound for the minimum distance of double circulant binary quadratic residue codes for primes p≡±3(mod8). This bound improves on the square root bound obtained by Calderbank and Beenker, using a completely different technique. The key to our estimates is to apply a result by Helleseth, to which we give a new and shorter proof. Combining this result with the Weil bound leads to the improvement of the Calderbank and Beenker bound. For large primes p, their bound is of order √(2p) while our new improved bound is of order 2√p. The results can be extended to any prime power q and the modifications of the proofs are briefly indicated.
Keywords :
binary codes; residue codes; Calderbank-Beenker bound; Weil bound; double circulant binary quadratic residue code; Councils; Informatics; Mathematics; Parity check codes; Circulant code; Weil bound; quadratic residue code;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2004.833371
