Professional Skills: Ethics For The Information Age PDF

Summary

This document provides an outline for a course on ethical implications of computing and computer science. It details course objectives, and chapter topics, including topics like, introduction to informatics and computing, ethical behaviour, and privacy topics. It also describes course evaluation details.

Full Transcript

PROFESSIONAL
SKILLS
Ethics for the Information Age
8th Edition
by
Michael J. Quinn
Chapter 1:
Catalysts for
Change
Introduction
to Computing
 Course Description

This course offers students a balanced exploration of the social, legal, philosophical, ethical,
political, constitutional, and economic implications of computing and the controversies they raise.

From the computer science perspective, it also covers issues that students will face as members of
a technological society and as professionals in computer-related fields.

A primary goal is to develop computer professionals who understand the implications of
computer science and how it generally fits into society.

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 Course Objectives

∙ to increase awareness and interest in legal, social, ethical, and professional issues;

∙ to equip students with a range of academic, professional, personal, technical, transferable, and
employability skills;

∙ to improve analytical skills that are essential for algorithm design in solving various computer
problems;

∙ to provide an understanding of the techniques and skills needed to develop more usable secure
interactive computer systems;

to deliver subject-specific fundamental concepts, such as artificial intelligence, machine learning,
big data systems, and cyber security.

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 Course Outline

1. Introduction to Informatics and Computing Concepts
2. Introduction to Ethics; Technological Diversity; Theories of Ethics and Behavior Codes.
3. Networked Communications: Social Media and Online Advertising, Surveillance of Internet
Content; Freedom of expression.
4. Intellectual property: Rights of intellectual property; Peer-to-peer networks; Software protection;
Legitimacy of intellectual property
5. Privacy: Perspectives; Benefits and harms; Disclosing information; Public records, Data mining;
Identity Theft; Encryption.
6. Privacy and Government
7. Computer and Network Security: Hacking and Malware.
8. Midterm Exam

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 Course Outline
9. Computer Reliability
10. Cyber Crime and Cyber Attacks: Privacy vs. cybersecurity and ethical hacking. Inside
cybersecurity businesses.
11. Professional Ethics: Concepts and inside - Ethical codes, professional behavior, authorship,
open-source, licenses, privacy, and GDPR.
12. Introduction to Artificial Intelligence (AI), machine learning, and Big Data. How to Develop
and Use AI in a Responsible Way
13. Research skills
14. Work and Wealth
15. Plagiarism and Argumentation: Academic Writing; Plagiarism awareness
16. Final Exam
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 Course Evaluation

Type of Evaluation Quantity Percentage
Midterm Exam 1 30
Quizzes - -
Homework(s) - -
Projects - -
Presentation 5 10
Laboratory work 5 10
Attendance and Participation 1 10
Other - -
Final Exam 1 40
Total 100
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Objectives

Thinking about how social conditions can
lead to the development of new
technologies and how the adoption of
new technologies can lead to social
change;
To provide an introduction to the history
of computing, networking, and
information storage and retrieval;
To help students to understand how the
introduction of information technology
has raised some new ethical issues.
Outline
Introduction
Milestones in Computing
Milestones in Networking
Milestones in Information Storage and
Retrieval
Contemporary Information Technology Issues
Introduction
WE ARE LIVING IN THE INFORMATION AGE!!!
Two principal catalysts for the Information
Age: low-cost computers and high-speed
communication networks development of
new technologies (smartphones, video
streaming services, voice-activated digital
assistants, low-cost drones, and self-driving
cars) Transformation!

Examples of advances in past two decades???
Some of the transformations are physical. The neural pathways and
synapses in our brains demonstrate neuroplasticity: literally changing
with our experiences!!!
Different ways people are affected by technology
Physical changes (e.g., pains accompany the use of laptops)
Psychological changes (e.g., smartphones make you feel safer)

Technologies can solve problems, create new problems
Automobile
Refrigerator and the Ozone Layer
Low-cost international communication (low wages of programmers in India made
pressure on American programmers)
Nuclear weapons and radiation to the Ozone Layer
 The Amish
The adoption of a new technology can affect
the way people relate to each other.
Amish bishops meet twice a year to discuss
matters of importance to the church,
including whether any new technologies
should be allowed.
“Does it bring us together, or draw us apart?”
You can visit an “Old Order” Amish home and find
a gas barbecue on the front porch but no
telephone inside, because they believe gas
barbecues bring people together while telephones
interfere with face-to-face conversations.
We may not be able to prevent a new
technology from being invented, but we
do have control over whether to adopt it!
1983: Nuclear power moratorium
Nuclear power advances in rest of world

People can influence rate at which
technologies are developed
Intellectual property laws (make money
from creativity)
Tax structure (accumulate great wealth)
Milestones in Computing

Aids to manual Mechanical Punched card
Cash register
calculating calculators tabulation

Precursors of First Programming Transistor and
commercial commercial languages and integrated
computers computers time-sharing circuit

IBM Personal
Microprocessor
System/360 computer
Aids to Manual
Calculating
~By the late Middle Ages: Europeans used
erasable slates.

Illustration (Gregor Reisch’s Margarita
Philosophica, 1503: two aids to manual
calculating. The person on the left is using a
tablet; the person on the right is adding
numbers using a counting board, a type of
abacus.

Library of Congress Prints and Photographs Division [LC-USZ62-95297]
 Aids to Manual Calculating

The three important aids to manual calculating are:
Mathematical tables
Tablet Abacus Tables of logarithms (17 th century)
Income tax tables (today).

However, even with them manual calculating is slow, tedious,
and error-prone.
 1640

Early Mechanical Calculators
Leibniz's Stepped Reckoner …IT IS BENEATH THE DIGNITY of excellent men to waste their time in
Hanover, Germany calculation when any peasant could do the work just as accurately with
the aid of a machine.” — Gottfried Wilhelm von Leibniz
Early Mechanical Calculators

Calculators (from 17th – 19th century)

Social Change → Market for Calculators
Gilded Age (late 19th century America)
Rapid industrialization
Economic expansion
Concentration of corporate power
New, larger corporations
Multiple layers of management
Multiple locations
Needed up-to-date, comprehensive, reliable, and affordable information
Early Mechanical Calculators

Calculator Adoptions → Social Change
Fierce competition in calculator market
Continuous improvements in size, speed,
ease of use
Sales increased rapidly

“Deskilling” and feminization of bookkeeping
People of average ability quite productive
Calculators 6× faster than adding by hand
Wages dropped
Women replaced men
Cash Register
Store owners of late 1800s faced problems
Keeping accurate sales records for department stores
Preventing embezzlement from clerks

Response to problems: cash register
Created printed, itemized receipts
Maintained printed log of transactions
Rang bell every time drawer was opened
An NCR cash register in Miller’s Shoe Shine Parlor, Dayton, Ohio (1904).
(The NCR Archive at Dayton History)
Tabulators → Data-processing Systems

Punched cards (late 19th century)
One record per card
Cards could be sorted into groups, allowing
computation of subtotals by categories
Early adopters
U.S. Bureau of the Census
Railroads
Retail organizations
Heavy industries
Data-processing system
Receives input data
Performs one or more calculations
Produces output data
IBM and Holocaust
Death’s calculator!
First Commercial Computers
Precursors of Commercial Computers
Small-Scale Experimental Machine: CRT ( cathode ray tubes) memory. A fully
electronic computer system that had both program and data stored in its
memory. It successfully executed its first program in 1948.

Remington-Rand
Completed UNIVAC in 1951
Delivered to U.S. Bureau of the Census
Predicted winner of 1952 Pres. Election

IBM (entered the commercial market in 1953)
Larger base of customers
Far superior sales and marketing organization
Greater investment in research and development
Dominated mainframe market by mid-1960s
1946: ENIAC (electronic numerical integrator and computer)
FIRST Commercial Computer

1951: Ferranti Ltd. (British
Co.) Ferranti Mark 1
Descendant of research
computers University of
Manchester
Until 1957 9 Computers in
association with Cambridge
University
 Elections
prediction!
1946: UNIVAC (Universal Automatic
Computer) First commercial digital
computer. Agreement: The
Eckert-Mauchly Computer Corporation
and the National Bureau of Standards
(representing the Census Bureau).
Huge costs 1950 bankruptcy.
Remington Rand bought them out and
UNIVAC I to the US Bureau of the Census
in 1951.
1952: Remington Rand + CBS UNIVAC for
election predictions the outcome of the
1952 presidential election.
Photo source: CBS News.
Programming Languages
Assembly language
Symbolic representations of machine instructions
Programs just as long as machine language programs
FORTRAN (1957)
First higher-level language (shorter programs)
Designed for scientific applications
COBOL (1959)
U.S. Department of Defense standard
Designed for business applications
a common business-oriented
all manufacturers would support
 Time-Sharing
Systems and
BASIC
BASIC (In the early 1960s)
Developed at Dartmouth College
Simple, easy-to-learn programming
language
Popular language for teaching
programming
Time-Sharing Systems (In the early 1960s)
Divide computer time among multiple
users
Users connect to computer via
terminals
Cost of ownership spread among more
people
Gave many more people access to
computers
 Other Advances
Transistor
Replacement for vacuum tube
Invented at Bell Labs (1948)
Semiconductor
Faster
Cheaper
More reliable
More energy-efficient
Integrated Circuit : Semiconductor containing
transistors, capacitors, and resistors
Advantages over parts they replaced
Smaller
Faster
More reliable
Less expensive
The eight founders of
Fairchild Semiconductor
on the factory floor.
Gordon Moore is second
from the left and Robert
Noyce is on the right

Moore’s law: roughly
every two years, the
number of transistors on
microchips will double.
computational progress
will become significantly
faster, smaller, and more
efficient over time.
IBM
System/360
Before System/360
IBM dominated mainframe market
in 1960s
IBM computers were incompatible
Switch computers → rewrite
programs

System/360 (1964)
Series of 19 computers with varying
levels of power
All computers could run same
programs - Compatible
Upgrade without rewriting programs
 Microprocessor and
Personal Computer
Microprocessor: Computer inside a single
semiconductor chip
Invented in 1970 at Intel
Made personal computers practical
Example of first PCs
Altair 8800 (1975)
Personal computers become popular
Apple Computer: Apple II
Developments draw businesses to personal
computers
IBM launches IBM PC
Milestones in
Networking
A semaphore telegraph tower on the first line from
Paris to Lille (1794) :
A message initiated at one tower would be
seen by another tower within viewing distance. The
receiving tower would then repeat the
message for the next tower in the network, and so
on
Milestones in Networking
Discoveries in electromagnetism (early 1800s)
Telegraph (1844)
A telegraph is a machine used to transmit messages in the form of
electrical impulses that can be converted into data
Telephone (1876)
Typewriter and teletype (1873, 1908)
In 1908 a typewriter was modified to print a message transmitted over a telegraph line; the
inventors called the invention, a teletype

Radio (1895)
Television (1927)
 Other Milestones in Networking
Remote computing (1940)
ARPANET - Advanced Research Projects Agency Network (1969)
Email (1972)
Internet: January 1 (1983)
network of networks communicating using TCP/IP
Broadband (2000)
Broadband
High-speed Internet connection
At least 10x faster than dial-up connection
Enhanced by fiber optic networks
South Korea, with an average speed of 28.6 megabits per second;
World Leaders: Norway, broadband networking at 23.5 megabits per second; Sweden, at
22.5 megabits per second; United States ranks tenth, 18.7 megabits.
 Other Milestones in Networking
Newspapers

Graphical User Interface

World Wide Web (1990)
Protocols based on TCP/IP → general
Later browsers
Mosaic
Netscape Navigator
Netscape Mozilla
Microsoft Internet Explorer (most popular)

Search Engines - Google, AltaVista, MSN

Information Technology
Information Technology

Definition: Devices used in creation, storage, manipulation, dissemination
of data, sound, and/or images
Examples: Computers, telephones, video cameras, music players
People making greater use of IT
Costs keep falling
Capabilities keep rising
 IT Issues
Easy way to keep in touch
Email Spam has become a real problem

Free access to huge amounts of information
Web Harmful consequences of some sites

CDs, MP3s, Free or cheap copies readily available
May be unfair to musicians
MP4s
Convenience over cash and checks
Credit cards Increases possibility of identity theft
Who owns information about transactions?
IT Issues (cont.)

Telecommuting
Saves time, allows more flexible work hours
Can lead to longer work hours
May result in fewer chances for promotion
Improved global communication network
Allow companies to sell to entire world
Allow companies to move jobs out of their home countries.
World Wide Web
A conduit for democratic ideas?
Another tool for totalitarian governments?
Conclusions
Revolutionary discoveries
are rare
Information technology has
long history
Rate of technological change
accelerating

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 Wrong question: “What will the computer do to us?”
Right question: “What will we make of the computer?”

Conclusions https://www.youtube.com/watch?v=-M6lANfzFsM
Thank you!