Khalid Abdulla, Andrew Wirth, et al.
ICIAfS 2014
A method is presented for designing lossless sliding-block compression schemes that map constrained sequences onto unconstrained ones. The new compression scheme is incorporated into a coding technique for noisy constrained channels, which has applications to magnetic and optical storage. As suggested recently by Immink, the use of a lossless compression code can improve the performance of a modified concatenation scheme where the positions of the error-correcting code and constrained code are reversed (primarily in order to eliminate error propagation due to the constrained code). Examples are presented that demonstrate the advantage of using sliding-block compression over block compression in a noisy constrained setting.
Khalid Abdulla, Andrew Wirth, et al.
ICIAfS 2014
Chidanand Apté, Fred Damerau, et al.
ACM Transactions on Information Systems (TOIS)
Ehud Altman, Kenneth R. Brown, et al.
PRX Quantum
Alessandro Morari, Roberto Gioiosa, et al.
IPDPS 2011