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Fundamentals, Design, and Implementation, 9/e SI654 Database Application Design Instructor: Dragomir R. Radev Winter 2005.

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Presentation on theme: "Fundamentals, Design, and Implementation, 9/e SI654 Database Application Design Instructor: Dragomir R. Radev Winter 2005."— Presentation transcript:

1 Fundamentals, Design, and Implementation, 9/e SI654 Database Application Design Instructor: Dragomir R. Radev Winter 2005

2 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/2 Copyright © 2004 Administrivia  Instructor: Dragomir R. Radev (radev@umich.edu), 3080 West Hall Connector, (734) 615-5225  Office hours: TBD  Course page: http://www.si.umich.edu/~radev/654  Class time: Fridays, 10am-1pm, 409 WH

3 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/3 Copyright © 2004 Book information  Database Processing by David Kroenke (9th Edition, Prentice Hall, ISBN 0-13-065551-1) : http://www.prenhall.com/kroenke  Managing and Using MySQL by Reese, Yarger, and King (O'Reilly, ISBN 0-596-00211-4) : http://www.oreilly.com/catalog/msql2/  Optional reading: Database Management Systems by Ramakrishnan and Gerhke (McGraw- Hill, ISBN 0-07-245052-5) : http://www.cs.wisc.edu/~dbbook/  Optional reading: Data Mining by Han and Kamber (Morgan Kaufmann, ISBN 1-55860-489- 8): http://www.cs.sfu.ca/~han/dmbook

4 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/4 Copyright © 2004 Syllabus - I  DK Ch. 1. Introduction to Database Processing  DK Ch. 2. Entity-relationship data modeling: tools and techniques  DK Ch. 3. Entity-relationship data modeling: process and examples  DK Ch. 4. The Relational Model and Normalization  DK Ch. 5. Database Design  READING The ERWin System  DK Ch. 6. Introduction to SQL  DK Ch. 7. Using SQL in applications  RYK Ch. 1 MySQL  DK Ch. 8. Database redesign

5 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/5 Copyright © 2004 Syllabus - II  RYK Ch. 3 SQL according to MySQL  DK Ch. 9. Managing Multi-User Databases  RYK Ch. 7 Database Design  DK Ch. 10/11. Managing Databases with Oracle/SQL Server  DK Ch, 12 ODBC, OLE DB, ADO, and ASP  DK Ch. 13 XML and ADO.NET  DK Ch. 14 JDBC, Java Server pages, and MySQL  DK Ch. 15 Sharing enterprise data  READING XML and query languages for XML  READING Data Mining  DK App. A. Data Structures for Database Processing

6 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/6 Copyright © 2004 Assignments  Assignment 1: Entity-Relationship Model, Relational Model, SQL  Assignment 2: Database design using ERWin and Oracle  Assignment 3: Database design using MySQL  Assignment 4: XML, Data Mining, and other advanced topics

7 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/7 Copyright © 2004 Final project  Proposal  Database design  Progress report  Project  Final presentation

8 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/8 Copyright © 2004 Grading  Four assignments: 40% (10% each)  Project + presentation: 30%  Final exam: 25%  Class participation: 5%

9 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/9 Copyright © 2004 Policies  Class participation counts as 5% of the grade  Timely submission of assignments is important  Syllabus can be amended during the semester  Honors Code

10 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/10 Copyright © 2004 Notes on programming  All students will do some programming as part of the assignments.  For the final project, teams will be formed in ways to include students with diverse backgrounds.

11 Fundamentals, Design, and Implementation, 9/e Chapter 1 Introduction to Database Processing

12 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/12 Copyright © 2004 Why Use A Database?  The purpose of a database is to help people and organizations keep track of things  Problems of using list to store data –Data inconsistencies –Data privacy: The departments want to share some, but not all, of their data  Databases store data in single-theme tables  Tables are related through primary and foreign keys

13 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/13 Copyright © 2004 Components of A Database System

14 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/14 Copyright © 2004 Application Programs  Functions: –Create and process forms –Create and transmit queries –Create and process reports –Execute application logic –Control application

15 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/15 Copyright © 2004 DBMS  DBMS: Database Management System  Functions: –Create database, tables, and supporting structures –Read and update database data –Maintain database structures –Enforce rules –Control concurrency –Provide security –Perform backup and recovery  Example: Oracle, DB2, Microsoft Access, SQL Server

16 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/16 Copyright © 2004 Database  Database is a self-describing collection of related records or tables  Components: –User Data –Metadata: data about the structure of a database –Indexes and related structures –Stored procedures: program modules stored within the database –Triggers: a procedure that is executed when a particular data activity occurs –Application metadata: data describing application elements such as forms and reports

17 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/17 Copyright © 2004 Types of Database  Personal database –1 user; < 10 MB  Workgroup database –< 25 users; < 100 MB  Organizational database –Hundreds to thousands users –>1 Trillion bytes, possibly several databases

18 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/18 Copyright © 2004 Example: Organizational Database

19 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/19 Copyright © 2004 Building a Database System  3 Phases  Requirements phase: a data model is developed –Data model is a logical representation of the database structure  Design phase: the data model is transformed into tables and relationships  Implementation phase: –Tables, relationships, and constraints are created –Stored procedures and triggers are written –The database is filled and systems are tested  Database and its applications will be modified (through these same three phases) to meet new requirements

20 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/20 Copyright © 2004 Example: Data Model

21 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/21 Copyright © 2004 Application Development  Application development proceeds in parallel with database development

22 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/22 Copyright © 2004 History of Database Processing

23 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/23 Copyright © 2004 Early Database Models  Before mid-1960s, only sequential file processing using magnetic tape was possible  In mid-1960s, disk storage enabled hierarchical and network database –IBM’s DL/I (Data Language One) –CODAYSL’s DBTG (Data Base Task Group) model  the basis of current DBMSs

24 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/24 Copyright © 2004 The Relational Model  E.F. Codd introduced the relational model in 1970  DB2 from IBM is the first DBMS product based on the relational model  Other DBMS based on the relational model were developed in the late 1980s  Today, DB2, Oracle, and SQL Server are the most prominent commercial DBMS products based on the relational model

25 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/25 Copyright © 2004 Personal Computer DBMS  The advent of microcomputer increases popularity of personal databases  Graphical User Interface (GUI) make it easy to use –Examples of early DBMS products: dBase, R:base, and Paradox

26 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/26 Copyright © 2004 Object Oriented DBMS (OODBMS)  Object-oriented programming started in the mid-1980s  Goal of OODBMS is to store object-oriented programming objects in a database without having to transform them into relational format  Object-relational DBMS products, such as Oracle 8i and 9i, allow both relational and object views of data on the same database  Currently, OODBMS have not been a commercial success due to high cost of relational to object- oriented transformation

27 Database Processing: Fundamentals, Design and Implementation, 9/e by David M. KroenkeChapter 1/27 Copyright © 2004 Recent History  Success story of the Microsoft Access –Microsoft Office suite and Windows integration –Easy-to-use and powerful personal DBMS  Internet database  XML and database integration

28 Fundamentals, Design, and Implementation, 9/e Chapter 1 Introduction to Database Processing


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