Title :
A Communication-Theoretic Framework for 2-DMR Channel Modeling: Performance Evaluation of Coding and Signal Processing Methods
Author :
Srinivasa, Shayan Garani ; Yiming Chen ; Dahandeh, Shafa
Author_Institution :
Dept. of Electron. Syst. Eng., Indian Inst. of Sci., Bangalore, India
Abstract :
We develop a communication theoretic framework for modeling 2-D magnetic recording channels. Using the model, we define the signal-to-noise ratio (SNR) for the channel considering several physical parameters, such as the channel bit density, code rate, bit aspect ratio, and noise parameters. We analyze the problem of optimizing the bit aspect ratio for maximizing SNR. The read channel architecture comprises a novel 2-D joint self-iterating equalizer and detection system with noise prediction capability. We evaluate the system performance based on our channel model through simulations. The coded performance with the 2-D equalizer detector indicates ~ 5.5 dB of SNR gain over uncoded data.
Keywords :
encoding; magnetic recording; signal processing; telecommunication channels; 2-D joint self-iterating equalizer; 2-D magnetic recording channels; 2-DMR channel modeling; bit aspect ratio; channel bit density; code rate; coding; communication-theoretic framework; detection system; noise parameters; noise prediction capability; performance evaluation; signal processing; signal-to-noise ratio; Detectors; Jitter; Magnetic heads; Media; Signal to noise ratio; 2-D magnetic recording (2-DMR) channel modeling; 2-D noise prediction; joint self-iterating 2-D equalization and detection;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2290007
