Abstract
The potential advantages of volume optical storage were recognized almost 30 years ago, and since that time many research efforts have focused on improving the underlying materials and devices for use in such systems. Recent progress in these supporting technologies has made possible several systemlevel demonstrations of volume optical storage. These recent demonstrations have verified the feasibility of volume memory systems for offering large volumetric storage capacities, fast access times, and very high data transfer rates realized via the parallel two-dimensional (2-D) nature of the stored data. The success of these volume storage testbeds has served to ignite additional research into supporting two-dimensional or page-oriented interface technologies such as parallel 2-D data detection and error correction [1–14]. This application therefore provides a strong impetus to study traditional communication theoretic topics such as signaling, equalization, and coding in the context of highly parallel 2-D channels. In this chapter we will focus specifically on 2-D interleaving and error correction strategies and their impact on the capacity of volume holographic memory (VHM).
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Neifeld, M.A., Chou, WC. (2000). Interleaving and Error Correction for Holographic Storage. In: Coufal, H.J., Psaltis, D., Sincerbox, G.T. (eds) Holographic Data Storage. Springer Series in Optical Sciences, vol 76. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-47864-5_18
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DOI: https://doi.org/10.1007/978-3-540-47864-5_18
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