Lecture 1 On Fundamentals Of Database Systems PDF

Summary

This introductory lecture provides a foundational view of database systems concepts. It covers traditional and modern database applications and their diverse uses in various sectors. Emphasizes important database concepts like mini-world, DBMS and related components.

Full Transcript

Faculty Of Computer Science
Mohamed Ghoneimy , Ph.D.
[email protected]

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About me.. And you.

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Simple Agreements

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Fundamentals Of Database
Systems
CS 215

Lecturer1: Introduction
Fundamental Database Concepts

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Fundamentals of Database Systems
Seventh Edition

Chapter 1
Databases and Database
Users

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Types of Databases and Database Applications

Traditional Applications:
– Numeric and Textual Databases

More Recent Applications:
– Multimedia Databases
– Geographic Information Systems (GIS)
– Biological and Genome Databases
– Data Warehouses
– Mobile databases
– Real-time and Active Databases

In this course we focus on traditional applications

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Recent Developments (1 of 2)

Social Networks started capturing a lot of information
about people and about communications among people-
posts, tweets, photos, videos in systems such as:
– Facebook
– Twitter
– Linked-In
All of the above constitutes data
Search Engines- Google, Bing, Yahoo : collect their own
repository of web pages for searching purposes

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Basic Definitions
Database:
– A collection of related data.
Data:
– Known facts that can be recorded and have an implicit meaning.

Mini-world:
– Some part of the real world about which data is stored in a database.
For example, student grades and transcripts at a university.

Database Management System (DBMS):
– A software package/ system to facilitate the creation and maintenance
of a computerized database.

Database System:
– The DBMS software together with the data itself. Sometimes, the
applications are also included.
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Impact of Databases and Database Technology

Businesses: Banking, Insurance, Retail, Transportation,
Healthcare, Manufacturing
Service Industries: Financial, Real-estate, Legal,
Electronic Commerce, Small businesses
Education: Resources for content and Delivery
More recently: Social Networks, Environmental and
Scientific Applications, Medicine and Genetics
Personalized Applications: based on smart mobile
devices

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Figure 1.1 Simplified database system environment

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Typical DBMS Functionality
Define a particular database in terms of its data types, structures,
and constraints
Construct or Load the initial database contents on a secondary
storage medium
Manipulating the database:
– Retrieval: Querying, generating reports
– Modification: Insertions, deletions and updates to its content
– Accessing the database through Web applications
Processing and Sharing by a set of concurrent users and
application programs – yet, keeping all data valid and consistent

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Application Activities Against a Database

Applications interact with a database by generating
– Queries: that access different parts of data and
formulate the result of a request
– Transactions: that may read some data and “update”
certain values or generate new data and store that in
the database
Applications must not allow unauthorized users to access
data
Applications must keep up with changing user
requirements against the database

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Additional DBMS Functionality

DBMS may additionally provide:
– Protection or Security measures to prevent
unauthorized access
– “Active” processing to take internal actions on data
– Presentation and Visualization of data
– Maintenance of the database and associated
programs over the lifetime of the database application
▪ Called database, software, and system
maintenance

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Example of a Database (with a Conceptual
Data Model) (1 of 2)
Mini-world for the example:
– Part of a UNIVERSITY environment.
Some mini-world entities:
– STUDENTs
– COURSEs
– SECTIONs (of COURSEs)
– (academic) DEPARTMENTs
– INSTRUCTORs

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Example of a Database (with a Conceptual
Data Model) (2 of 2)
Some mini-world relationships:
– SECTIONs are of specific COURSEs
– STUDENTs take SECTIONs
– COURSEs have prerequisite COURSEs
– INSTRUCTORs teach SECTIONs
– COURSEs are offered by DEPARTMENTs
– STUDENTs major in DEPARTMENTs
Note: The above entities and relationships are typically
expressed in a conceptual data model, such as the
ENTITY-RELATIONSHIP data model (see Chapters 3, 4)

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Figure 1.2 Example of a simple database (1 of 4)

COURSE

Course_name Course_number Credit_hours Department
Intro to Computer CS1310 4 CS
Science
Data Structures CS3320 4 CS
Discrete Mathematics MATH2410 3 MATH
Database CS3380 3 CS

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Figure 1.2 Example of a simple database (2 of 4)

SECTION

Section_identifier Course_number Semester Year Instructor
85 MATH2410 Fall 07 King
92 CS1310 Fall 07 Anderson
102 CS3320 Spring 08 Knuth
112 MATH2410 Fall 08 Chang
119 CS1310 Fall 08 Anderson
135 CS3380 Fall 08 Stone

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Figure 1.2 Example of a simple database (3 of 4)

GRADE_REPORT

Student_number Section_identifier Grade
17 112 B
17 119 C
8 85 A
8 92 A
8 102 B
8 135 A

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Figure 1.2 Example of a simple database (4 of 4)

PREREQUISITE

Course_number Prerequisite_number
CS3380 CS3320
CS3380 MATH2410
CS3320 CS1310

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Main Characteristics of the Database
Approach (1 of 3)
Self-describing nature of a database system:
– A DBMS catalog stores the description of a particular database
(e.g. data structures, types, and constraints)
– The description is called meta-data*.
– This allows the DBMS software to work with different database
applications.
Insulation between programs and data:
– Called program-data independence.
– Allows changing data structures and storage organization
without having to change the DBMS access programs.

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Figure 1.3 Example of a simplified
database catalog (1 of 2)
RELATIONS

Relation_name No_of_columns
STUDENT 4
COURSE 4
SECTION 5
GRADE_REPORT 3
PREREQUISITE 2

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Figure 1.3 Example of a simplified
database catalog (2 of 2)
COLUMNS

Column_name Data_type Belongs_to_relation
Name Character (30) STUDENT
Student_number Character (4) STUDENT
Class Integer (1) STUDENT
Major Major_type STUDENT
Course_name Character (10) COURSE
Course_number XXXXNNNN COURSE
…. …. ….
…. …. ….
…. …. ….
Prerequisite_number XXXXNNNN PREREQUISITE

Note: Major_type is defined as an enumerated type with all known majors. XXXXNNNN is
used to define a type with four alphabetic characters followed by four numeric digits.
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Main Characteristics of the Database
Approach (2 of 3)
Data Abstraction:
– A data model is used to hide storage details and
present the users with a conceptual view of the
database.
– Programs refer to the data model constructs rather
than data storage details
Support of multiple views of the data:
– Each user may see a different view of the database,
which describes only the data of interest to that user.

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Main Characteristics of the Database
Approach (3 of 3)
Sharing of data and multi-user transaction
processing:
– Allowing a set of concurrent users to retrieve from and to
update the database.
– Concurrency control within the DBMS guarantees that
each transaction is correctly executed or aborted
– Recovery subsystem ensures each completed transaction
has its effect permanently recorded in the database
– OLTP (Online Transaction Processing) is a major part of
database applications. This allows hundreds of concurrent
transactions to execute per second.

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Database Users

Users may be divided into
– Those who actually use and control the database
content, and those who design, develop and maintain
database applications (called “Actors on the Scene”),
and
– Those who design and develop the DBMS software
and related tools, and the computer systems
operators (called “Workers Behind the Scene”).

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Database Users – Actors on the Scene (1of 2)
Actors on the scene
– Database administrators:
▪ Responsible for authorizing access to the database, for
coordinating and monitoring its use, acquiring software
and hardware resources, controlling its use and
monitoring efficiency of operations.
– Database Designers:
▪ Responsible to define the content, the structure, the
constraints, and functions or transactions against the
database. They must communicate with the end-users
and understand their needs.

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Database End Users (1 of 2)
Actors on the scene
– End-users: They use the data for queries, reports and some of
them update the database content. End-users can be
categorized into:
▪ Casual: access database occasionally when needed
▪ Naïve or Parametric: they make up a large section of the
end-user population.
– They use previously well-defined functions in the form of
“canned transactions” against the database.
– Users of Mobile Apps mostly fall in this category
– Bank-tellers or reservation clerks are parametric users
who do this activity for an entire shift of operations
– Social Media Users post and read information from
websites
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Database End Users (2 of 2)
Sophisticated:
– These include business analysts, scientists, engineers,
others thoroughly familiar with the system capabilities.
– Many use tools in the form of software packages that work
closely with the stored database.
Stand-alone:
– Mostly maintain personal databases using ready-to-use
packaged applications.
– An example is the user of a tax program that creates its
own internal database.
– Another example is a user that maintains a database of
personal photos and videos.
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Database Users – Actors on the Scene (2 of 2)
System Analysts and Application Developers
This category currently accounts for a very large proportion of
the IT work force.
– System Analysts: They understand the user requirements of
naïve and sophisticated users and design applications
including canned transactions to meet those requirements.
– Application Programmers: Implement the specifications
developed by analysts and test and debug them before
deployment.
– Business Analysts: There is an increasing need for such
people who can analyze vast amounts of business data and
real-time data (“Big Data”) for better decision making related
to planning, advertising, marketing etc.

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Database Users – Actors behind the Scene
System Designers and Implementors: Design and implement
DBMS packages in the form of modules and interfaces and test
and debug them. The DBMS must interface with applications,
language compilers, operating system components, etc.
Tool Developers: Design and implement software systems
called tools for modeling and designing databases, performance
monitoring, prototyping, test data generation, user interface
creation, simulation etc. that facilitate building of applications and
allow using database effectively.
Operators and Maintenance Personnel: They manage the
actual running and maintenance of the database system
hardware and software environment.

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Advantages of Using the Database Approach (1 of 2)

Controlling redundancy in data storage and in
development and maintenance efforts.
– Sharing of data among multiple users.

Restricting unauthorized access to data. Only the DBA
staff uses privileged commands and facilities.

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Advantages of Using the Database Approach (2 of 2)

Providing optimization of queries for efficient processing.
Providing backup and recovery services.
Providing multiple interfaces to different classes of users.
Representing complex relationships among data.
Enforcing integrity constraints on the database.
Drawing inferences and actions from the stored data
using deductive and active rules and triggers.

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Additional Implications of Using the
Database Approach (1 of 2)
Potential for enforcing standards:
– This is very crucial for the success of database
applications in large organizations. Standards refer
to data item names, display formats, screens, report
structures, meta-data (description of data), Web page
layouts, etc.
Reduced application development time:
– Incremental time to add each new application is
reduced.

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Additional Implications of Using the
Database Approach (2 of 2)
Flexibility to change data structures:
– Database structure may evolve as new requirements
are defined.
Availability of current information:
– Extremely important for on-line transaction systems
such as shopping, airline, hotel, car reservations.
Economies of scale:
– Wasteful overlap of resources and personnel can be
avoided by consolidating data and applications across
departments.

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