Conceptual Modeling and Querying in Multimedia Databases

In this paper, we discuss some design principles that will aid in the design and querying of multimedia databases. We use an object-relational data model and argue that multimedia objects should normally have a special attribute called ‘core’ which stores the real object itself in contrast to the abstraction which is reflected in the rest of the attributes. We present an extension to the ER Diagram that takes advantage of the ‘core’ notion to facilitate design of multimedia databases. We discuss some desirable features in a query language for multimedia databases: simplifications like the use of path expressions and implicit use of functions (methods) as attributes, and explicit specification of the display layout and format either at the data definition level or query specification level. To materialize this last feature, we propose a display specification extension to SQL (SQL+D) that we have implemented.

[1]  Gottfried Vossen,et al.  An Extension of Path Expressions to Simplify Navigation in Object-Oriented Queries , 1993, DOOD.

[2]  V. S. Subrahmanian,et al.  Foundations of multimedia database systems , 1996, JACM.

[3]  Michael Stonebraker,et al.  Object-Relational DBMSs: The Next Great Wave , 1995 .

[4]  Michael Stonebraker,et al.  Object-Relational DBMSs, Second Edition , 1998 .

[5]  David Beech Collections of Objects in SQL3 , 1993, VLDB.

[6]  Tran Cao Son,et al.  A Multimedia display extension to SQL: Language Design and Architecture , 1997, ICDE 1997.

[7]  Jeffrey D. Ullman,et al.  Principles of Database and Knowledge-Base Systems, Volume II , 1988, Principles of computer science series.

[8]  Yannis E. Ioannidis,et al.  Incomplete path expressions and their disambiguation , 1994, SIGMOD '94.

[9]  Tom Atwood,et al.  Object Database Standard: ODMG-93, Release 1.2 , 1995 .

[10]  C. J. Date,et al.  The third manifesto , 1995, SGMD.

[11]  Christos Faloutsos,et al.  Searching Multimedia Databases by Content , 1996, Advances in Database Systems.

[12]  Michael Stonebraker,et al.  Chabot: Retrieval from a Relational Database of Images , 1995, Computer.

[13]  Clement T. Yu,et al.  Reasoning About Spatial Relationships in Picture Retrieval Systems , 1994, VLDB.

[14]  Michael Kifer,et al.  Logical foundations of object-oriented and frame-based languages , 1995, JACM.

[15]  Alberto O. Mendelzon,et al.  Querying the World Wide Web , 1996, Fourth International Conference on Parallel and Distributed Information Systems.

[16]  Rohini K. Srihari,et al.  Automatic Indexing and Content-Based Retrieval of Captioned Images , 1995, Computer.

[17]  Myron Flickner,et al.  Query by Image and Video Content , 1995 .

[18]  Jeffrey D. Uuman Principles of database and knowledge- base systems , 1989 .

[19]  Sherry MarcusO Foundations of Multimedia Information Systems , 1998 .

[20]  Alan R. Simon,et al.  Understanding the New SQL: A Complete Guide , 1993 .

[21]  Dominic M. Dousa THE UNIVERSITY OF TEXAS AT EL PASO , 2004 .

[22]  Shamkant B. Navathe,et al.  Conceptual Database Design: An Entity-Relationship Approach , 1991 .

[23]  Graciela Gonzalez Intuitive querying in object oriented databases , 1994 .

[24]  Dragutin Petkovic,et al.  Query by Image and Video Content: The QBIC System , 1995, Computer.

[25]  David Jordan,et al.  The Object Database Standard: ODMG 2.0 , 1997 .