Design for layer jump in optical disc drives using internal state manipulation

Soo Yong Kim; Keunhwi Koo; Jung Rae Ryoo; Sang Woo Kim

doi:10.1109/TCE.2012.6414989

Design for layer jump in optical disc drives using internal state manipulation

Soo Yong Kim, Keunhwi Koo, Jung Rae Ryoo, Sang Woo Kim

Dept. of Electrical and Information Engineering

Pohang University of Science and Technology

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Layer jump operation is a vertical seek operation of an actuator between adjacent data layers in an optical disc. As a number of the data layers are raised for high capacity data, the layer jump gradually gains importance for fast playing and recording. Therefore, a systematic design methodology for the layer jump is required to guarantee layer pull-in stability and robustness of model uncertainty. In this paper, a layer jump strategy is proposed for minimizing transient motion and overcoming the effect of model uncertainty by estimating the current velocity of the actuator. The proposed algorithm has been implemented in a system-on-chip for a multi-layered Bluray disc drive. The experimental results show the notable performance of the proposed algorithm.

Original language	English
Article number	6414989
Pages (from-to)	1225-1231
Number of pages	7
Journal	IEEE Transactions on Consumer Electronics
Volume	58
Issue number	4
DOIs	https://doi.org/10.1109/TCE.2012.6414989
State	Published - 2012

Keywords

Blu-raydisc (BD)
Model Uncertainty
Pull-in Stability
System-on-Chip (SoC)

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10.1109/TCE.2012.6414989

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title = "Design for layer jump in optical disc drives using internal state manipulation",

abstract = "Layer jump operation is a vertical seek operation of an actuator between adjacent data layers in an optical disc. As a number of the data layers are raised for high capacity data, the layer jump gradually gains importance for fast playing and recording. Therefore, a systematic design methodology for the layer jump is required to guarantee layer pull-in stability and robustness of model uncertainty. In this paper, a layer jump strategy is proposed for minimizing transient motion and overcoming the effect of model uncertainty by estimating the current velocity of the actuator. The proposed algorithm has been implemented in a system-on-chip for a multi-layered Bluray disc drive. The experimental results show the notable performance of the proposed algorithm.",

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AU - Kim, Soo Yong

AU - Koo, Keunhwi

AU - Ryoo, Jung Rae

AU - Kim, Sang Woo

PY - 2012

Y1 - 2012

N2 - Layer jump operation is a vertical seek operation of an actuator between adjacent data layers in an optical disc. As a number of the data layers are raised for high capacity data, the layer jump gradually gains importance for fast playing and recording. Therefore, a systematic design methodology for the layer jump is required to guarantee layer pull-in stability and robustness of model uncertainty. In this paper, a layer jump strategy is proposed for minimizing transient motion and overcoming the effect of model uncertainty by estimating the current velocity of the actuator. The proposed algorithm has been implemented in a system-on-chip for a multi-layered Bluray disc drive. The experimental results show the notable performance of the proposed algorithm.

AB - Layer jump operation is a vertical seek operation of an actuator between adjacent data layers in an optical disc. As a number of the data layers are raised for high capacity data, the layer jump gradually gains importance for fast playing and recording. Therefore, a systematic design methodology for the layer jump is required to guarantee layer pull-in stability and robustness of model uncertainty. In this paper, a layer jump strategy is proposed for minimizing transient motion and overcoming the effect of model uncertainty by estimating the current velocity of the actuator. The proposed algorithm has been implemented in a system-on-chip for a multi-layered Bluray disc drive. The experimental results show the notable performance of the proposed algorithm.

KW - Blu-raydisc (BD)

KW - Model Uncertainty

KW - Pull-in Stability

KW - System-on-Chip (SoC)

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Design for layer jump in optical disc drives using internal state manipulation

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Keywords

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