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Enhanced Data Models for Advanced Database Applications

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for large amounts of current only, complex, volatile, structured data, available ... Other objects may have dynamic qualities: e.g., ambulances and other vehicles. ... – PowerPoint PPT presentation

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Title: Enhanced Data Models for Advanced Database Applications


1
Enhanced Data Models for Advanced Database
Applications
  • CS 95 Advanced Database Systems
  • Handout 8

2
Conventional databases
  • for large amounts of current only, complex,
    volatile, structured data, available within an
    organization
  • e.g., Relational Databases
  • Enhanced Data Models
  • Active
  • Temporal
  • Spatial
  • Multimedia
  • Statistical
  • Information retrieval

3
Active Databases
  • contain a set of active rules
  • Rule is triggered when a particular event occurs.
    eg. on an Update operation on a certain table
  • The rule may initiate other, or even replacement
    operations to be performed on the database

4
Active Databases
  • Usually implemented with triggers, a rule
    implementation found in many relational products.
  • Such rules may be used to
  • notify (someone) whenever a particular condition
    occurs
  • create audit trails
  • enforce integrity constraints
  • maintenance of derived data
  • maintain consistency of views whenever the base
    table structures are modified.

5
Active Databases
  • Syntax summary for specifying triggers in the
    Oracle System
  • lttriggergt CREATE TRIGGER lttrigger namegt
  • (AFTERBEFORE) lttriggering eventsgt ON lttable
    namegt
  • FOR EACH ROW
  • WHEN ltconditiongt
  • lttrigger actionsgt
  • lttriggering eventsgt lttrigger eventgt OR
    lttrigger eventgt
  • lttrigger eventgt INSERTDELETEUPDATE OF
    ltcolumn namegt, ltcolumn namegt
  • lttrigger actiongt ltPL/SQL blockgt
  • Even PostgreSQL supports triggers. See the
    PostgreSQL Help for more information.

6
Temporal databases
  • conventional databases without the 'current only'
    constraint
  • 'remembers' every value, i.e., when an update
    occurs, old value, new value and time of change
    all have to be stored in the DB.
  • Different systems implement temporal data
    differently
  • as a minimum a timestamp column is added to each
    relation and forms part of the key

7
Temporal databases
  • Applications include
  • Healthcare where the history of a patient is
    important
  • Insurance
  • Reservation systems
  • Scientific databases
  • SQL (usually) is extended so a query can provide
    an answer from the database at any specified
    time. eg What was the status of supplier S1 on
    April 1, 1990?

8
Temporal databases
  • TSQL standard specifies the TIME PERIOD as a the
    standard domain measurement
  • A query over a time PERIOD may return many rows
    for the same piece of information - one row for
    every set of values the information held within
    the time period.
  • New SQL operations are like CONTAINS, PRECEDES,
    SUCCEEDS, OVERLAPS
  • Problems DB grows very big very quickly, which
    adversely affects performance - dramatically.

9
Spatial databases
  • conventional databases with spatial features,
    such as support for 3-dimensional objects
  • applications
  • CAD/CAM
  • cartographic (mapping) - 2-D maps plus a
    description behind each object (road, bridge,
    house etc.)
  • meteorological - weather patterns occur in 3-D
  • drawing, drafting, etc.

10
Spatial databases
  • Some objects may be static e.g., bridge, road
    etc. Other objects may have dynamic qualities
    e.g., ambulances and other vehicles.
  • Even a simple task, such as the distance between
    two objects or determining whether two objects
    overlap, are difficult SQL queries so new
    operators are included to perform these tasks
  • hence, spatial databases are often OODBMS

11
Spatial databases
  • Types of queries particular to spatial database
    are
  • Range query e.g., find all hospitals within a
    particular distance from a given location.
  • Nearest neighbor query e.g., find an object of a
    given type closest to a given point.
  • Spatial joins or overlays Joins the objects of
    two type. e.g., find all cities on a particular
    road OR find all homes near a given river.
  • PostgreSQL supports many spatial objects,
    including point, line, box, circle etc.

12
Multimedia databases
  • Multimedia databases store data such as images,
    audio and video clips and documents.
  • Support content-based queries, e.g., retrieve all
    video clips with a certain person, or all clips
    containing a drag race won by a certain Pro Stock
    driver

13
Multimedia databases
  • Two methods of identifying such content
  • Automatic analysis - involves mathematical
    analysis and pattern matching of data within the
    clip. A different approach is required for video,
    audio, image and text. Obviously, this is a very
    computative intensive process.
  • Manual identification - manual preprocessing
    phase obtains such information which is stored
    with the clips and can also be used to build
    indexes.

14
Statistical databases
  • for large amounts of simple, non-volatile,
    structured data
  • access is via aggregate statements only - SUM,
    COUNT, MAX, MIN, AVERAGE, STANDARD DEVIATION etc.
  • they protect the identity of the individual
  • problems with compromise of the DB.
  • i.e., a set of queries that may determine the
    identity of an individual.
  • Often solved by not allowing results that are
    computed from a return of less than n rows.

15
Information Retrieval databases
  • Read-only, very large databases
  • heavily indexed - indexes take a long time to
    update, so the data is not updated in real time.
    New data snapshots with their indexes are built
    periodically
  • e.g., phone lists and search engines
  • e.g., AltaVista indexes every word on every web
    page in its database
  • index consists of word, location within page, URL
  • size is ??? GB (200GB in 1998)
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