Paper Info
Title
A low-complexity and high-speed detection method for high-density d=1 optical recording
Abstract
We propose a novel bit-detection method which is applicable to high-density optical recording systems which use d=1 runlength-limited codes. The method detects and corrects sign-reversals caused by playback imperfections in the samples of the shortest recorded domains in the sampled playback signal. The new method is very simple computationally, and offers the potential of implementation at very high speeds, since it does not involve bit-recursive operations. Theoretical analysis, simulation results, and application to experimentally derived playback signals demonstrate the performance of the proposed method, which attains acceptable levels over a wide range of recording densities
Year
DOI
Venue
2000
10.1109/30.883411
Consumer Electronics, IEEE Transactions
Keywords
Field
DocType
computational complexity,optical signal detection,optical storage,runlength codes,signal detection,bit-detection method,bit-recursive operations,high-density optical recording,high-speed detection method,low-complexity detection method,modulation codes,performance,playback imperfections,playback signals,recording densities,runlength-limited codes,sampled playback signal,sign-reversals correction,sign-reversals detection,simulation results
Detection theory,Computer science,High density,Electronic engineering,Optical storage,Optical recording,Computational complexity theory
Journal
Volume
Issue
ISSN
46
3
0098-3063
Citations 
PageRank 
References 
0
0.34
1
Authors
2
Name
Order
Citations
PageRank
Haralampos Pozidis119327.36
W. M. J. Coene231.47