Entry Schnase:EPODD-6-1-35 from epodd.bib

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BibTeX entry

@Article{Schnase:EPODD-6-1-35,
  author =       "John L. Schnase and John J. Leggett and David L. Hicks
                 and Peter J. Nuernberg and J. Alfredo S{\'a}nchez",
  title =        "Design and Implementation of the {HB1} hyperbase
                 management system",
  journal =      j-EPODD,
  volume =       "6",
  number =       "1",
  pages =        "35--63",
  month =        mar,
  year =         "1993",
  CODEN =        "EPODEU",
  ISSN =         "0894-3982",
  bibdate =      "Thu Jun 2 10:04:26 1994",
  bibsource =    "http://www.math.utah.edu/pub/tex/bib/epodd.bib",
  abstract =     "Hypermedia systems manage interconnected information
                 residing within a potentially wide range of data types,
                 including text, graphics, animations, and digitized
                 sound and images. Effective database support for
                 hypermedia-based computing environments is essential.
                 In order to be effective, this support must provide a
                 variety of capabilities that are not offered by the
                 current generation of database management systems. We
                 report on a prototypic system called HB1 that has been
                 designed to meet the storage needs of advanced
                 hypermedia system architectures. HB1 is referred to as
                 a hyperbase management system (HBMS) because it stores
                 and manipulates information and the connectivity data
                 that link information together to form hypermedia. HB1
                 is composed of three subsystems: the Object Manager
                 (OM), Association Set Manager (ASM), and Storage
                 Manager (SM). OM and ASM are both server processes
                 accessible to distributed client processes via IPC
                 interfaces. OM is an object server. ASM manages
                 structural data applicable to the objects within OM's
                 repository that are involved in hypermedia connections.
                 Physical storage is managed by SM which, in this
                 implementation, is a semantic network database
                 management system. HB1 instantiates a conceptual model
                 of hypermedia that is distinctly computational, has a
                 strong notion of anchor and link, and abstracts
                 information, behavior, and structure from hypermedia.
                 It has been used as a back-end for an open,
                 object-based hypermedia system that implements
                 distributed, inter-application linking. HB1 is proving
                 to be an effective vehicle for research on HBMS
                 organization.",
  keywords =     "Hyperbase management system, Hypermedia, Hypertext,
                 Open hypermedia system, Architecture, Inter-application
                 linking, Semantic object-oriented database management
                 system",
}

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