Fundamentals of Database Systems Chapter 1 PDF

Summary

This document is a chapter from a textbook on Fundamentals of Database Systems, focusing on Databases and Database Users. It covers various aspects of database systems, from their basic principles to more complex topics. Also noted are several different types of databases.

Full Transcript

Chapter 1 Databases and Database Users Copyright © 2011 Pearson Education, Inc. Publishing as Pearson Addison-Wesley Chapter 1 Outline  Introduction  An Example  Characteristics of the Database Approach  Actors on the Scene  Workers behind the Scene ...

Chapter 1 Databases and Database Users Copyright © 2011 Pearson Education, Inc. Publishing as Pearson Addison-Wesley Chapter 1 Outline  Introduction  An Example  Characteristics of the Database Approach  Actors on the Scene  Workers behind the Scene  Advantages of Using the DBMS Approach  A Brief History of Database Applications  When Not to Use a DBMS Copyright © 2011 Ramez Elmasri and Shamkant Navathe Overview  Traditional database applications  Store textual or numeric information  Multimedia databases  Store images, audio clips, and video streams digitally  Geographic information systems (GIS)  Store and analyze maps, weather data, and satellite images Copyright © 2011 Ramez Elmasri and Shamkant Navathe Overview (cont'd.)  Data warehouses and online analytical processing (OLAP) systems  Extract and analyze useful business information from very large databases  Support decision making  Real-time and active database technology  Control industrial and manufacturing processes Copyright © 2011 Ramez Elmasri and Shamkant Navathe Introduction  Database  Collection of related data  Known facts that can be recorded and that have implicit meaning  Miniworld or universe of discourse (UoD)  Represents some aspect of the real world  Logically coherent collection of data with inherent meaning  Built for a specific purpose Copyright © 2011 Ramez Elmasri and Shamkant Navathe Introduction (cont'd.)  Example of a large commercial database  Amazon.com  Database management system (DBMS)  Collection of programs  Enables users to create and maintain a database  Defining a database  Specify the data types, structures, and constraints of the data to be stored Copyright © 2011 Ramez Elmasri and Shamkant Navathe Introduction (cont'd.)  Meta-data  Database definition or descriptive information  Stored by the DBMS in the form of a database catalog or dictionary  Manipulating a database  Query and update the database miniworld  Generate reports Copyright © 2011 Ramez Elmasri and Shamkant Navathe Introduction (cont'd.)  Sharing a database  Allow multiple users and programs to access the database simultaneously  Application program  Accesses database by sending queries to DBMS  Query  Causes some data to be retrieved Copyright © 2011 Ramez Elmasri and Shamkant Navathe Introduction (cont'd.)  Transaction  May cause some data to be read and some data to be written into the database  Protection includes:  System protection  Security protection  Maintain the database system  Allow the system to evolve as requirements change over time Copyright © 2011 Ramez Elmasri and Shamkant Navathe An Example  UNIVERSITY database  Information concerning students, courses, and grades in a university environment  Data records  STUDENT  COURSE  SECTION  GRADE_REPORT  PREREQUISITE Copyright © 2011 Ramez Elmasri and Shamkant Navathe An Example (cont'd.)  Specify structure of records of each file by specifying data type for each data element  String of alphabetic characters  Integer  Etc. Copyright © 2011 Ramez Elmasri and Shamkant Navathe Copyright © 2011 Ramez Elmasri and Shamkant Navathe An Example (cont'd.)  Construct UNIVERSITY database  Store data to represent each student, course, section, grade report, and prerequisite as a record in appropriate file  Relationships among the records  Manipulation involves querying and updating Copyright © 2011 Ramez Elmasri and Shamkant Navathe An Example (cont'd.)  Examples of queries:  Retrieve the transcript  List the names of students who took the section of the ‘Database’ course offered in fall 2008 and their grades in that section  List the prerequisites of the ‘Database’ course Copyright © 2011 Ramez Elmasri and Shamkant Navathe An Example (cont'd.)  Examples of updates:  Change the class of ‘Smith’ to sophomore  Create a new section for the ‘Database’ course for this semester  Enter a grade of ‘A’ for ‘Smith’ in the ‘Database’ section of last semester Copyright © 2011 Ramez Elmasri and Shamkant Navathe An Example (cont'd.)  Phases for designing a database:  Requirements specification and analysis  Conceptual design  Logical design  Physical design Copyright © 2011 Ramez Elmasri and Shamkant Navathe Copyright © 2011 Ramez Elmasri and Shamkant Navathe Characteristics of the Database Approach  Traditional file processing  Each user defines and implements the files needed for a specific software application  Database approach  Single repository maintains data that is defined once and then accessed by various users Copyright © 2011 Ramez Elmasri and Shamkant Navathe Characteristics of the Database Approach (cont'd.)  Main characteristics of database approach  Self-describing nature of a database system  Insulation between programs and data, and data abstraction  Support of multiple views of the data  Sharing of data and multiuser transaction processing Copyright © 2011 Ramez Elmasri and Shamkant Navathe Self-Describing Nature of a Database System  Database system contains complete definition of structure and constraints  Meta-data  Describes structure of the database  Database catalog used by:  DBMS software  Database users who need information about database structure Copyright © 2011 Ramez Elmasri and Shamkant Navathe Insulation Between Programs and Data  Program-data independence  Structure of data files is stored in DBMS catalog separately from access programs  Program-operation independence  Operations specified in two parts: Interface includes operation name and data types of its arguments Implementation can be changed without affecting the interface Copyright © 2011 Ramez Elmasri and Shamkant Navathe Data Abstraction  Data abstraction  Allows program-data independence and program-operation independence  Conceptual representation of data  Does not include details of how data is stored or how operations are implemented  Data model  Type of data abstraction used to provide conceptual representation Copyright © 2011 Ramez Elmasri and Shamkant Navathe Copyright © 2011 Ramez Elmasri and Shamkant Navathe Support of Multiple Views of the Data  View  Subset of the database  Contains virtual data derived from the database files but is not explicitly stored  Multiuser DBMS  Users have a variety of distinct applications  Must provide facilities for defining multiple views Copyright © 2011 Ramez Elmasri and Shamkant Navathe Sharing of Data and Multiuser Transaction Processing  Allow multiple users to access the database at the same time  Concurrency control software  Ensure that several users trying to update the same data do so in a controlled manner Result of the updates is correct  Online transaction processing (OLTP) application Copyright © 2011 Ramez Elmasri and Shamkant Navathe Sharing of Data and Multiuser Transaction Processing (cont'd.)  Transaction  Central to many database applications  Executing program or process that includes one or more database  Isolation property Each transaction appears to execute in isolation from other transactions  Atomicity property Either all the database operations in a transaction are executed or none are Copyright © 2011 Ramez Elmasri and Shamkant Navathe Actors on the Scene  Database administrators (DBA) are responsible for:  Authorizing access to the database  Coordinating and monitoring its use  Acquiring software and hardware resources  Database designers are responsible for:  Identifying the data to be stored  Choosing appropriate structures to represent and store this data Copyright © 2011 Ramez Elmasri and Shamkant Navathe Actors on the Scene (cont'd.)  End users  People whose jobs require access to the database  Types Casual end users Naive or parametric end users Sophisticated end users Standalone users Copyright © 2011 Ramez Elmasri and Shamkant Navathe Actors on the Scene (cont'd.)  System analysts  Determine requirements of end users  Application programmers  Implement these specifications as programs Copyright © 2011 Ramez Elmasri and Shamkant Navathe Workers behind the Scene  DBMS system designers and implementers  Design and implement the DBMS modules and interfaces as a software package  Tool developers  Design and implement tools  Operators and maintenance personnel  Responsible for running and maintenance of hardware and software environment for database system Copyright © 2011 Ramez Elmasri and Shamkant Navathe Advantages of Using the DBMS Approach  Controlling redundancy  Data normalization  Denormalization Sometimes necessary to use controlled redundancy to improve the performance of queries  Restricting unauthorized access  Security and authorization subsystem  Privileged software Copyright © 2011 Ramez Elmasri and Shamkant Navathe Advantages of Using the DBMS Approach (cont'd.)  Providing persistent storage for program objects  Complex object in C++ can be stored permanently in an object-oriented DBMS  Impedance mismatch problem Object-oriented database systems typically offer data structure compatibility Copyright © 2011 Ramez Elmasri and Shamkant Navathe Advantages of Using the DBMS Approach (cont'd.)  Providing storage structures and search techniques for efficient query processing  Indexes  Buffering and caching  Query processing and optimization Copyright © 2011 Ramez Elmasri and Shamkant Navathe Advantages of Using the DBMS Approach (cont'd.)  Providing backup and recovery  Backup and recovery subsystem of the DBMS is responsible for recovery  Providing multiple user interfaces  Graphical user interfaces (GUIs)  Representing complex relationships among data  May include numerous varieties of data that are interrelated in many ways Copyright © 2011 Ramez Elmasri and Shamkant Navathe Advantages of Using the DBMS Approach (cont'd.)  Enforcing integrity constraints  Referential integrity constraint Every section record must be related to a course record  Key or uniqueness constraint Every course record must have a unique value for Course_number  Business rules  Inherent rules of the data model Copyright © 2011 Ramez Elmasri and Shamkant Navathe Advantages of Using the DBMS Approach (cont'd.)  Permitting inferencing and actions using rules  Deductive database systems Provide capabilities for defining deduction rules Inferencing new information from the stored database facts  Trigger Rule activated by updates to the table  Stored procedures More involved procedures to enforce rules Copyright © 2011 Ramez Elmasri and Shamkant Navathe Advantages of Using the DBMS Approach (cont'd.)  Additional implications of using the database approach  Reduced application development time  Flexibility  Availability of up-to-date information  Economies of scale Copyright © 2011 Ramez Elmasri and Shamkant Navathe A Brief History of Database Applications  Early database applications using hierarchical and network systems  Large numbers of records of similar structure  Providing data abstraction and application flexibility with relational databases  Separates physical storage of data from its conceptual representation  Provides a mathematical foundation for data representation and querying Copyright © 2011 Ramez Elmasri and Shamkant Navathe A Brief History of Database Applications (cont'd.)  Object-oriented applications and the need for more complex databases  Used in specialized applications: engineering design, multimedia publishing, and manufacturing systems  Interchanging data on the Web for e- commerce using XML  Extended markup language (XML) primary standard for interchanging data among various types of databases and Web pages Copyright © 2011 Ramez Elmasri and Shamkant Navathe A Brief History of Database Applications (cont'd.)  Extending database capabilities for new applications  Extensions to better support specialized requirements for applications  Enterprise resource planning (ERP)  Customer relationship management (CRM)  Databases versus information retrieval  Information retrieval (IR) Deals with books, manuscripts, and various forms of library-based articles Copyright © 2011 Ramez Elmasri and Shamkant Navathe When Not to Use a DBMS  More desirable to use regular files for:  Simple, well-defined database applications not expected to change at all  Stringent, real-time requirements that may not be met because of DBMS overhead  Embedded systems with limited storage capacity  No multiple-user access to data Copyright © 2011 Ramez Elmasri and Shamkant Navathe Summary  Database  Collection of related data (recorded facts)  DBMS  Generalized software package for implementing and maintaining a computerized database  Several categories of database users  Database applications have evolved  Current trends: IR, Web Copyright © 2011 Ramez Elmasri and Shamkant Navathe

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