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23 October 1998 Recurrent neural network equalization for partial response shaping of magneto-optical readback signals
Inci Ozgunes, Kadri Hacioglu, Bhagavatula Vijaya Kumar
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Proceedings Volume 3401, Optical Data Storage '98; (1998) https://doi.org/10.1117/12.327941
Event: Optical Data Storage '98, 1998, Aspen, CO, United States
Abstract
In this paper, use of recurrent neural network equalizer (RNNE) in place of linear equalizer (LE) to combat both linear and nonlinear distortions corrupting the Magneto-optical (MO) readback signal is discussed. It is shown that RNNE can outperform LE without introducing significant complexity. RNNE is used to equalize the MO recording readback signal corrupted by transition jitter, intersymbol interference (ISI) and additive white Gaussian Noise (AWGN) at a density of 50 kbpi. The MO signal is equalized to a partial response (PR) (1 + D) using either the RNNE or the LE and the equalizer's mean- squared-error (MSE) performance is compared. Then, the equalized signal is passed through a detector and it is shown that a signal equalized to a PR (1 + D) shape can be detected using either a bit-by-bit type of detector (BD) or a sequence detector implemented via Viterbi Algorithm (VA). The bit-error-rate (BER) performance of BD is compared to that of the Viterbi detector and it is shown that PR equalization of MO readback signals using RNNE improves MSE performance over linear equalizer, allowing use of BD rather than LE + Viterbi Algorithm with comparable BERs.
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Inci Ozgunes, Kadri Hacioglu, and Bhagavatula Vijaya Kumar "Recurrent neural network equalization for partial response shaping of magneto-optical readback signals", Proc. SPIE 3401, Optical Data Storage '98, (23 October 1998); https://doi.org/10.1117/12.327941
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KEYWORDS
Sensors
Molybdenum
Signal detection
Neurons
Neural networks
Detection and tracking algorithms
Interference (communication)
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