[SOLVED] concurrency database algorithm file system data structure Java ER Privacy-Aware Location-Aided Routing in Mobile Ad-hoc Networks

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Privacy-Aware Location-Aided Routing in Mobile Ad-hoc Networks

1/23/2018

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CS430/630

Database Management Systems

Spring 2018

Gabriel Ghinita

University of Massachusetts at Boston

People & Contact Information

Instructor:Gabriel Ghinita

Email: Gabriel.Ghinita AT umb DOT edu (preferred contact)

Web: http://www.cs.umb.edu/~gghinita

Phone: (617) 287-6479

Office: Science Building, 3rd Floor, Room 88 (S-3-88)

TA:Mohammad Hadianpour

Email: Mohammad.Hadian001 AT umb DOT edu

Office: S-3-124A

Course-related emails (for instructor and for TA)

Subject line MUST BEGIN with [CS430] or [CS630]

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Course Info

Lecture Hours

Tue and Thu , 7:00-8:15pm

Office Hours

Tue & Thu 5:30-7:00pm

By appointment (send email)

Class URL

http://www.cs.umb.edu/~gghinita/cs430/

http://www.cs.umb.edu/~gghinita/cs630/

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Textbook & Recommended Readings

Textbook

Database Management Systems, 3rd Edition

by Ramakrishnan and Gehrke

Other recommended texts

Database System Concepts, Silberschatz, Korth and Sudarshan,

6th Edition

Database Principles, Programming, and Performance, P. E. ONeil

and E. J. ONeil

Other resources will be posted in the links section of the site

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Prerequisites

Data Structures and Algorithms

CS310

Programming

CS240

Discrete Math

Familiarity with UNIX OS

Exercises will be executed on Oracle 12G server running on a

Unix machine in the CS dept (DBS3 Machine)

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Grading

Final exam (40%) open book

Midterm (30%) open book (Thu March 22nd)

Open book does NOT include electronic devices!

6 homework assignments

5% each

Assignments for CS630 will have additional questions

Assignments are individual submit your own work only!

No plagiarism! See student code of conduct

Lecture attendance is mandatory

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http://www.cs.umb.edu/~gghinita
http://www.cs.umb.edu/~gghinita/cs430/
http://www.cs.umb.edu/~gghinita/cs630/

1/23/2018

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Course Materials

Class URL

http://www.cs.umb.edu/~gghinita/cs430/

http://www.cs.umb.edu/~gghinita/cs630/

Blackboard

Discussion forums

Make sure you create Unix course accounts, and that you

enroll these accounts for 630 (apply procedure)

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University Policies

Student Conduct: Students are required to adhere to the University

Policy on Academic Standards and Cheating, to the University Statement

on Plagiarism and the Documentation of Written Work, and to the Code

of Student Conduct as delineated in the University Catalog and Student

Handbook.The Code is available online at:

https://www.umb.edu/editor_uploads/images/life_on_campus/

Accommodations: Section 504 of the Americans with Disabilities Act

of 1990 offers guidelines for curriculum modifications and adaptations

for students with documented disabilities. If applicable, students may

obtain adaptation recommendations from the Ross Center for Disability

Services, CC-UL Room 211, (617-287-7430). The student must present

these recommendations and discuss them with each professor within a

reasonable period, preferably by the end of Drop/Add period.

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Course Overview

Relational Data Model

Relational Algebra

Structured Query Language

The most important part of the course

Conceptual design the ER model

Database application development

Java, PL/SQL

Design Theory

Database Security

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What is a DBMS?

Specialized software that provides:

Uniform and transparent access to data

Application-independence

Application/user is oblivious to internal data organization

Data organization may change, but applications need not change

Efficient access to data

Fast search capabilities, indexing

Data consistency

E.g., cannot delete student record if grade records still in DBMS

Concurrent access to data

Persistent storage and recovery from failure

Security

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Why study databases?

Databases are ubiquitous

Behind all web service providers there is a DBMS

Most often a very large-scale one

Corporations use DBMS for business processes, HR, etc

Scientific computing relies on very large amounts of data

Humane genome data

Biochemistry data (protein sequences)

Astronomy data

High-energy physics

DBAs are very wellpaid!

And even in other IT areas, DBMS skills are a must

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A bit of history

First data stores were file systems

Does not conform to transparency and uniformity desiderata

Search (within file) most often linear

Not portable

Doesnt handle concurrency properly

Sequential access only

Early DBMS appeared in the 60s

Driven by banking and airline industry

Relatively small record size, and many concurrent accesses

Two prominent models: hierarchical model (tree) and network

model (graph)

Lack of support for high-level query languages

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http://www.cs.umb.edu/~gghinita/cs430/
http://www.cs.umb.edu/~gghinita/cs630/
callto:+1617-287-7430

1/23/2018

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A bit of history (contd.)

Relational Databases

Major breakthrough, paper written by Codd (1970)

Relations (tables) with rows (records) and columns (fields)

Relationships and constraints among tables

Structured Query Language (SQL): high-level, declarative

Data definition/ manipulation language

Fast search use of index structures

Data access language independent from internal organization

Newer paradigms

Object-oriented and multimedia DB

Data Stream Management Systems (DSMS)

MapReduce

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Levels of Abstraction

Data

Physical Schema

Conceptual Schema

View 1 View 2 View 3

Database Management Systems 3rd ed, Ramakrishnan and Gehrke

Describes files

and indexes used

Defines logical

data structure

Views define how

users see data

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The Relational Model

Data Model

Structure of data

Relational model uses tables

Programming languages deal with arrays, collections, etc

Operations on the data

Queries: operations that retrieve information

Modifications: operations that change data

Constraints

Domain constraints (the simplest): e.g., age must be numeric

Other constraints: each student has unique matriculation #

Prominent Data Models

Relational model

Object-relational model, semi-structured model (XML), E-R

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Relational Model

Relational database: a set of relations

Relation:

two-dimensional table, with rows and columns

#Rows = cardinality

#Columns= degree (or arity)

Each row represents an entity

A student, a course, a movie

Each column represents a property of the entity

Student age, student matriculation #, student gpa

Column values are atomic (e.g., integer or string) within
given domain

Rows are also called tuples or records; columns are also
called fields or attributes

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Students Relation or Table

sid name login age gpa

53666 Jones jones@cs 18 3.4

53688 Smith smith@eecs 18 3.2

53650 Smith smith@math 19 3.8

Cardinality = 3, Degree = 5

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Relational Schema

Schema: specifies name of relation, plus name and domain
of each column

Students ( sid: integer,

name: string,

login: string,

age: integer,

gpa: real )

Each relation must have a schema
Similar to a data type in programming languages

Relational database schema = collection of relations
schemas

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More about Relations

Relations are sets of tuples
Sets are NOT ordered

Do NOT retrieve by order number, but by content!

Relation Instance
Contents of a relation may change over time

Tuples are added/deleted/modified

E.g., Students join or leave the university

Instance represents set of tuples at a certain point in time

Schemas may change too
Although this is not frequent in practice

Changing schema is very expensive

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Instance of Students Relation

sid name login age gpa

53666 Jones jones@cs 18 3.4

53688 Smith smith@eecs 18 3.2

53650 Smith smith@math 19 3.8

Cardinality = 3, Degree = 5

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Another Instance of Students

sid name login age gpa

53666 Jones jones@cs 18 3.4

53688 Smith smith@eecs 18 3.2

53650 Smith smith@math 19 3.8

53660 Korth korth@math 22 3.6

Cardinality = 4, Degree = 5

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Keys

A key of a relation is a set of fields K such that:

1. No two distinct tuples in ANY relation instance have same

values in all key fields, and

2.No subset of K is a key (otherwise K is a superkey)

Key may not be unique

Multiple candidate keys may exist

One of the keys is chosen (by DBA) to be the primary key

Keys are shown underlined in schema

In the relational model, duplicate tuples do not exist!

But most DBMS implementations do allow duplicates

Keys constraints must be set by DBA to avoid duplicates

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Example of Keys

Students(sid: string, name: string, login: string, age: integer, gpa: real)

sid is a key;{sid, name} is a superkey

In practice, it is not easy to know when there exists a

unique attribute combination in the data (e.g., names)

artificial keys are created: student ID, customer ID, etc.

SSN is also often used for keys

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sid name login age gpa

53666 Jones jones@cs 18 3.4

53688 Smith smith@eecs 18 3.2

53650 Smith smith@math 19 3.8

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[SOLVED] concurrency database algorithm file system data structure Java ER Privacy-Aware Location-Aided Routing in Mobile Ad-hoc Networks
$25