Title :
Two-dimensional cross-track asymmetric target design for high-density bit-patterned media recording
Author :
Koonkarnkhai, S. ; Keeratiwintakorn, P. ; Chirdchoo, N. ; Kovintavewat, P.
Author_Institution :
Dept. of Electr. Eng., King Mongkut´´s Univ. of Technol. North Bangkok, Bangkok, Thailand
Abstract :
In bit-patterned media recording (BPMR) channels at ultra high areal densities, the inter-track interference (ITI) is extremely severe, which significantly degrades the system performance. The partial-response maximum-likelihood (PRML) technique that uses a one-dimensional (1D) partial response target might not be able to cope with this severe ITI, especially in the presence of media noise and track mis-registration (TMR). This paper proposes a two-dimensional (2D) cross-track asymmetric target, based on a minimum mean-squared error approach, for high-density BPMR channels. Result indicates that the proposed 2D target performs better than previously proposed 2D targets especially when media noise and TMR is severe.
Keywords :
least mean squares methods; magnetic recording; maximum likelihood estimation; 1D partial response target; 2D cross-track asymmetric target; ITI; PRML technique; high-density BPMR channels; high-density bit-patterned media recording; intertrack interference; media noise; minimum mean-squared error approach; one-dimensional partial response target; partial-response maximum-likelihood technique; track misregistration; two-dimensional cross-track asymmetric target design; ultrahigh-areal densities; Detectors; Heating; Noise; Viterbi algorithm; 2D Target and equalizer design; Bit-patterned media recording (BPMR); Inter-track interference (ITI); Media noise; Track mis-registration (TMR);
Conference_Titel :
Intelligent Signal Processing and Communications Systems (ISPACS), 2011 International Symposium on
Conference_Location :
Chiang Mai
Print_ISBN :
978-1-4577-2165-6
DOI :
10.1109/ISPACS.2011.6146119
