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Chapter 1
Database Systems
 Learning Objectives

After completing this chapter, you will be able to:
Define the difference between data and information
Describe what a database is, various types, and why they are
valuable assets for decision making
Explain the importance of database design
See how modern databases evolved from file systems
Understand flaws in file system data management
Outline the main components of the database system
Describe the main functions of a database management system
(DBMS)

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otected website for classroom use.
 Why Databases?

Characteristics of data in today’s world
Ubiquitous (i.e., abundant, global, and everywhere)
Pervasive (i.e., unescapable, prevalent, and persistent)
Databases make data persistent and shareable in a secure way
Specialized structures that allow computer-based systems to store,
manage, and retrieve data very quickly

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otected website for classroom use.
 Data versus Information

Data consists of raw facts
Not yet processed to reveal meaning to the end user
Building blocks of information
Information results from processing raw data to reveal meaning
Requires context
Bedrock of knowledge
Should be accurate, relevant, and timely

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otected website for classroom use.
 Introducing the Database

Shared, integrated computer structure that stores data
End-user data: raw facts of interest to end user
Metadata: data about data, through which the end-user data is
integrated and managed
- Describes data characteristics and relationships

Database management system (DBMS)
Collection of programs
Manages the database structure
Controls access to data stored in the database

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 Role and Advantages of the DBMS (1 of 2)

Database management system (DBMS): intermediary between
the user and the database
Enables data to be shared
Presents the end user with an integrated view of data
Provides more efficient and effective data management
Improves sharing, security, integration, access, decision-making,
productivity, etc.

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Role and Advantages of the DBMS (2 of 2)

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otected website for classroom use.
 Types of Databases (1 of 5)

Single-user database: supports one user at a time
Desktop database: single-user database on a personal computer
Multiuser database: supports multiple users at the same time
Workgroup databases: supports a small number of users or a specific
department
Enterprise database: supports many users across many departments

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otected website for classroom use.
 Types of Databases (2 of 5)

Classification by location
Centralized database: data located at a single site
Distributed database: data distributed across different sites
Cloud database: created and maintained using cloud data services
that provide defined performance measures for the database

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otected website for classroom use.
 Types of Databases (3 of 5)

Classification by data type
General-purpose database: contains a wide variety of data used in
multiple disciplines
Discipline-specific database: contains data focused on specific
subject areas
Operational database: designed to support a company’s day-to-day
operations

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 Types of Databases (4 of 5)

Analytical database: stores historical data and business metrics
used exclusively for tactical or strategic decision making
Data warehouse: stores data in a format optimized for decision
support
Online analytical processing (OLAP): tools for retrieving, processing,
and modeling data from the data warehouse
Business intelligence: captures and processes business data to
generate information that support decision making

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 Types of Databases (5 of 5)

Databases can be classified to reflect the degree to which the
data is structured
Unstructured data exists in its original (raw) state
Structured data results from formatting
- Structure is applied based on type of processing to be performed
Semistructured data: processed to some extent
Extensible Markup Language (XML)
Represents data elements in textual format

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otected website for classroom use.
 Why Database Design Is Important

Focuses on design of database structure that will be used to
store and manage end-user data
Well-designed database: facilitates data management and generates
accurate and valuable information
Poorly designed database: causes difficult-to-trace errors that may
lead to poor decision making

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otected website for classroom use.
 Evolution of File System Data Processing (1 of 3)

Manual file systems
Accomplished through a system of file folders and filing cabinets
Computerized file systems
Data processing (DP) specialist created a computer-based system to
track data and produce required reports
File system redux: modern end-user productivity tools
Includes spreadsheet programs such as Microsoft Excel

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Evolution of File System Data Processing (2 of 3)

Table 1.2 Basic File Terminology

TERM DEFINITION
Data Raw facts, such as a telephone number, a birth date, a customer name, and a year-to-date
(YTD) sales value. Data has little meaning unless it has been organized in some logical
manner.

Field A character or group of characters (alphabetic or numeric) that has a specific meaning. A field
is used to define and store data.

Record A logically connected set of one or more fields that describes a person, place, or thing. For
example, the fields that constitute a record for a customer might consist of the customer’s
name, address, phone number, date of birth, credit limit, and unpaid balance.

File A collection of related records. For example, a file might contain data about the students
currently enrolled at Gigantic University.

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Evolution of File System Data Processing (3 of 3)

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 Problems with File System Data Processing

Problems with file systems challenge the types of information
that can be created from data as well as information accuracy
Lengthy development times
Difficulty of getting quick answers
Complex system administration
Lack of security and limited data sharing
Extensive programming

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otected website for classroom use.
 Structural and Data Dependence (1 of 2)

Structural dependence
Access to a file is dependent on its own structure
All file system programs are modified to conform to a new file
structure
Structural independence
File structure is changed without affecting the application’s ability to
access the data

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 Structural and Data Dependence (2 of 2)

Data dependence
Data access changes when data storage characteristics change
Data independence
Data storage characteristics are changed without affecting the
program’s ability to access the data
Practical significance of data dependence is the difference
between logical and physical format

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 Data Redundancy (1 of 2)

Unnecessarily storing the same data at different places
Islands of information (i.e., scattered data locations)
Increases the probability of having different versions of the same
data

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 Data Redundancy (2 of 2)

Possible results of uncontrolled data redundancy
Poor data security
Data inconsistency
Data-entry errors
Data integrity problems

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 Data Anomalies

Develop when not all of the required changes in the redundant
data are made successfully
Update anomalies
Insertion anomalies
Deletion anomalies

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 Database Systems (1 of 2)

Logically related data stored in a single logical data repository
Physically distributed among multiple storage facilities
DBMS eliminates most of file system’s data inconsistency, data
anomaly, data dependence, and structural dependence problems
Current generation DBMS software
- Stores data structures, relationships between structures, and access paths
- Defines, stores, and manages all access paths and components

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Database Systems (2 of 2)

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otected website for classroom use.
 The Database System Environment (1 of 2)

Database system: organization of components that define and
regulate the collection, storage, management, and use of data
within a database environment
Hardware
Software
People
Procedures
Data

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The Database System Environment (2 of 2)

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 DBMS Functions (1 of 3)

Data dictionary management
Data dictionary: stores definitions of data elements and their
relationships
Data storage management
Performance tuning ensures efficient performance
Data transformation and presentation
Data is formatted to conform to logical expectations
Security management
Enforces user security and data privacy

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otected website for classroom use.
 DBMS Functions (2 of 3)

Multiuser access control
Sophisticated algorithms ensure that multiple users can access the
database concurrently without compromising its integrity
Backup and recovery management
Enables recovery of the database after a failure
Data integrity management
Minimizes redundancy and maximizes consistency

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otected website for classroom use.
 DBMS Functions (3 of 3)

Database access languages and application programming
interfaces
Query language: lets the user specify what must be done without
having to specify how
Structured Query Language (SQL): de facto query language and data
access standard supported by the majority of DBMS vendors
Database communication interfaces
Accept end-user requests via multiple, different network
environments

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 Managing the Database System: A Shift in Focus

Disadvantages of database systems
Increased costs
Management complexity
Maintaining currency
Vendor dependence
Frequent upgrade/replacement cycles

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Preparing for Your Database Professional Career
TABLE 1.3 DATABASE CAREER OPPORTUNITIES

JOB TITLE DESCRIPTION SAMPLE SKILLS REQUIRED
Database Developer Create and maintain database-based Programming, database fundamentals, SQL
applications
Database Designer Design and maintain databases Systems design, database design, SQL

Database Manage and maintain DBMS and Database fundamentals, SQL, vendor courses
Administrator databases
Database Analyst Develop databases for decision support QL, query optimization, data warehouses
reporting
Database Architect Design and implementation of database DBMS fundamentals, data modeling, SQL,
environments (conceptual, logical, and hardware knowledge, etc.
physical)

Database Consultant Help companies leverage database Database fundamentals, data modeling,
technologies to improve business database design, SQL, DBMS, hardware,
processes and achieve specific goals vendor-specific technologies, etc.

Database Security Implement security policies for data DBMS fundamentals, database administration,
Officer administration SQL, data security technologies, etc.

Cloud Computing Design and implement the infrastructure Internet technologies, cloud storage
Data Architect for next-generation cloud database technologies, data security, performance tuning,
systems large databases, etc.
Data Scientist Analyze large amounts of varied data to Data analysis, statistics, advanced mathematics,
generate insights, relationships, and SQL, programming, data mining, machine
predictable behaviors learning, data visualization

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otected website for classroom use.
 Summary

Data consists of raw facts and is usually stored in a database
Database design defines the database structure
- Can be classified according to the number of users, location, as well as data
usage and structure
Databases evolved from manual and computerized file systems
- There are some limitations of file system data management
- DBMSs were developed to address the file system’s inherent weaknesses

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© 2019 Cengage. May not be copied, scanned, or duplicated, in whole or in part, except for use as permitted in a license distributed with a certain product or service or otherwise on a password-pr
otected website for classroom use.