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Advances in Information Recording
 
Edited by: Paul H. Siegel University of California, San Diego, La Jolla, CA
Emina Soljanin Bell Laboratories, Murray Hill, NJ
Adriaan J. van Wijngaarden Bell Laboratories, Murray Hill, NJ
Bane Vasić University of Arizona, Tucson, AZ
A co-publication of the AMS and DIMACS
Front Cover for Advances in Information Recording
Available Formats:
Hardcover ISBN: 978-0-8218-3752-8
Product Code: DIMACS/73
165 pp 
List Price: $92.00
MAA Member Price: $82.80
AMS Member Price: $73.60
Electronic ISBN: 978-1-4704-4030-5
Product Code: DIMACS/73.E
165 pp 
List Price: $86.00
MAA Member Price: $77.40
AMS Member Price: $68.80
Bundle Print and Electronic Formats and Save!
This product is available for purchase as a bundle. Purchasing as a bundle enables you to save on the electronic version.
List Price: $138.00
MAA Member Price: $124.20
AMS Member Price: $110.40
Front Cover for Advances in Information Recording
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  • Front Cover for Advances in Information Recording
  • Back Cover for Advances in Information Recording
Advances in Information Recording
Edited by: Paul H. Siegel University of California, San Diego, La Jolla, CA
Emina Soljanin Bell Laboratories, Murray Hill, NJ
Adriaan J. van Wijngaarden Bell Laboratories, Murray Hill, NJ
Bane Vasić University of Arizona, Tucson, AZ
A co-publication of the AMS and DIMACS
Available Formats:
Hardcover ISBN:  978-0-8218-3752-8
Product Code:  DIMACS/73
165 pp 
List Price: $92.00
MAA Member Price: $82.80
AMS Member Price: $73.60
Electronic ISBN:  978-1-4704-4030-5
Product Code:  DIMACS/73.E
165 pp 
List Price: $86.00
MAA Member Price: $77.40
AMS Member Price: $68.80
Bundle Print and Electronic Formats and Save!
This product is available for purchase as a bundle. Purchasing as a bundle enables you to save on the electronic version.
List Price: $138.00
MAA Member Price: $124.20
AMS Member Price: $110.40
  • Book Details
     
     
    DIMACS - Series in Discrete Mathematics and Theoretical Computer Science
    Volume: 732008
    MSC: Primary 68; 92; Secondary 37; 93; 94;

    This book comprises a collection of articles stemming from a DIMACS Working Group and DIMACS Workshop on Theoretical Advances in Information Recording held at Rutgers University, Piscataway, NJ. Written by leading researchers in information theory and data storage technology, the articles address problems related to the efficient and reliable storage of information in devices based upon novel optical, magnetic, and biological recording mechanisms.

    The primary focus of the articles is on signal processing and coding techniques applicable to exploratory technologies being considered for future generations of storage devices, including two-dimensional optical storage (TwoDOS), heat-assisted magnetic recording (HAMR), and volumetric macro-molecular data storage. Specific topics addressed include channel equalization, timing recovery, data detection, modulation coding, and error control coding. Several articles explore the emerging connections between data storage, information theory, and the storage and processing of genetic information in living cells. Articles in the volume also illustrate the broader applicability of fundamental advances in information theory that have arisen in the context of information storage technology.

    The volume is suitable for graduate students and research scientists interested in applications of information theory, communication theory, and coding theory to man-made and natural data storage systems.

    Readership

    Graduate students and research mathematicians interested in mathematical problems of information theory and data storage.

  • Table of Contents
     
     
    • Chapters
    • Modulation coding for a two-dimensional optical storage channel
    • Characterization of heat-assisted magnetic recording channels
    • Cramér-Rao bound for timing recovery on channels with inter-symbol interference
    • Macro-molecular data storage with petabyte/cm$^3$ density, highly parallel read/write operations, and genuine 3D storage capability
    • Can we explain the faithful communication of genetic information?
    • Data storage and processing in cells: An information theoretic approach
    • Ghostbusting: Coding for optical communications
  • Additional Material
     
     
  • Request Review Copy
Volume: 732008
MSC: Primary 68; 92; Secondary 37; 93; 94;

This book comprises a collection of articles stemming from a DIMACS Working Group and DIMACS Workshop on Theoretical Advances in Information Recording held at Rutgers University, Piscataway, NJ. Written by leading researchers in information theory and data storage technology, the articles address problems related to the efficient and reliable storage of information in devices based upon novel optical, magnetic, and biological recording mechanisms.

The primary focus of the articles is on signal processing and coding techniques applicable to exploratory technologies being considered for future generations of storage devices, including two-dimensional optical storage (TwoDOS), heat-assisted magnetic recording (HAMR), and volumetric macro-molecular data storage. Specific topics addressed include channel equalization, timing recovery, data detection, modulation coding, and error control coding. Several articles explore the emerging connections between data storage, information theory, and the storage and processing of genetic information in living cells. Articles in the volume also illustrate the broader applicability of fundamental advances in information theory that have arisen in the context of information storage technology.

The volume is suitable for graduate students and research scientists interested in applications of information theory, communication theory, and coding theory to man-made and natural data storage systems.

Readership

Graduate students and research mathematicians interested in mathematical problems of information theory and data storage.

  • Chapters
  • Modulation coding for a two-dimensional optical storage channel
  • Characterization of heat-assisted magnetic recording channels
  • Cramér-Rao bound for timing recovery on channels with inter-symbol interference
  • Macro-molecular data storage with petabyte/cm$^3$ density, highly parallel read/write operations, and genuine 3D storage capability
  • Can we explain the faithful communication of genetic information?
  • Data storage and processing in cells: An information theoretic approach
  • Ghostbusting: Coding for optical communications
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