Title :
Maximum runlength-limited codes with error control capabilities
Author :
Van Wijngaarden, Adriaan J. ; Immink, Kees A Schouhamer
Author_Institution :
Inst. for Exp. Math., Essen Univ., Germany
fDate :
4/1/2001 12:00:00 AM
Abstract :
New methods are presented to protect maximum runlength-limited sequences against random and burst errors and to avoid error propagation. The methods employ parallel conversion techniques and enumerative coding algorithms that transform binary user information into constrained codewords. The new schemes have a low complexity and are very efficient. The approach can be used for modulation coding in recording systems and for synchronization and line coding in communication systems. The schemes enable the usage of high-rate constrained codes, as error control can be provided with similar capabilities as for unconstrained sequences
Keywords :
binary sequences; combinatorial mathematics; computational complexity; digital magnetic recording; error correction codes; modulation coding; runlength codes; synchronisation; binary user information; burst errors; combinatorial construction; communication systems; constrained codewords; enumerative coding algorithms; error control capabilities; high-rate constrained codes; line coding; low complexity; maximum runlength-limited codes; maximum runlength-limited sequences; modulation coding; parallel conversion techniques; random errors; recording systems; synchronization; Binary sequences; Digital communication; Error correction; Error correction codes; Forward error correction; Mathematics; Modulation coding; Polarization; Protection; Synchronization;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
