ITM 100 Ethical and Social Issues in Information Systems PDF

Summary

This document covers ethical and social issues in information systems, focusing on the dark side of big data, privacy concerns, and other ethical dilemmas. The relationship between ethical & social issues, and political issues are also included. It looks at potential solutions and different types of ethical issues.

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ITM 100
Class 12
Ethical and Social Issues in Information Systems

adapted from
Kenneth C. Laudon, Jane P. Laudon, Management Information Systems: Managing the Digital Firm, 17th Edition
 The Dark Side of Big Data
▪ A double edge sword
▪ Stories
Predictive policing
▪ Using big data and algorithms to forecast where crimes are likely to occur or who might commit
them.
▪ It can perpetuate biases in the data, leading to unfair targeting of certain communities.
Insurance Rate
▪ Insurance companies often use big data to determine premiums based on various factors,
including driving history, location, and even unrelated personal information like credit scores.
▪ This practice can lead to discriminatory pricing, where individuals with lower socioeconomic
status are charged higher premiums.
▪ Lack of transparency in how rates are calculated leaves consumers at a disadvantage.

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 The Dark Side of Big Data
▪ Problem
Opportunities from new technology
Undeveloped legal environment
▪ Solutions
Develop big data strategy
Develop privacy policies
Develop big data predictive models
Develop big data mining technology
Develop big data analytics tools and predictive modeling systems
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 Understanding Ethical and Social Issues Related to Systems

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 More recently
▪ Volkswagen cheats emissions tests.
▪ Could cost the company as much as $87 billion
Diesel-engine VW models sold in the United States had software
installed allowing the cars to falsely pass emissions tests

▪ http://www.forbes.com/sites/davidschrieberg1/2016/09/16/how-does-corporate-
culture-fuel-fraud-start-with-volkswagen-and-wells-fargo/#73faecda52d6
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 Ethics and Information Systems
▪ Ethics
Principles of right and wrong that individuals, acting as free moral
agents, use to make choices to guide their behaviors
▪ Information systems raise new ethical questions because they create
opportunities for:
Intense social change, threatening existing distributions of power,
money, rights, and obligations
New kinds of crime

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 The Relationship Between Ethical, Social, and Political Issues in
an Information Society

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 Layers of Issues
Ethical Issues:
Concern individual and collective behavior regarding what is right or wrong when using information systems.
Examples:
Privacy concerns (how personal data is collected, stored, and used).
Transparency in algorithmic decision-making.
Social Issues:
Focus on the broader societal impacts of IT, such as changes in communication, economic structures, and
relationships.
Examples:
Digital divide: unequal access to technology.
Social media's role in influencing public opinion.
Political Issues:
Involve governance, laws, and regulations to manage the ethical and social impacts of IT.
Examples:
Intellectual property rights.
Cybersecurity and national defense.

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 Key Topics

Information Rights and Obligations:
Who has the right to access, own, and control information?
Example: Data ownership and privacy rights.
Property Rights and Obligations:
How intellectual property is protected in a digital age.
Example: Software piracy and copyright enforcement.
Accountability and Control:
Determining who is responsible for the consequences of using IT systems.
Example: Liability in case of data breaches or AI failures.
System Quality:
Ensuring IT systems meet standards of accuracy, reliability, and security.
Example: Avoiding critical errors in financial or medical systems.
Quality of Life:
Examining how IT affects individuals’ well-being and societal standards of living.
Example: Impact of excessive screen time or loss of jobs due to automation.

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 Technology Trends that Raise Ethical Issues
▪ Computing power doubles every 18 months
Critical operations are done using computer systems
▪ Data storage costs rapidly decline
Detailed databases on individuals are easily maintained
▪ Data analysis advances
Develop detailed profiles of individual behavior
▪ Networking advances
Access personal data remotely
▪ Mobile device growth impact
Tracking individual cell phones without user consent

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 Internet Challenges to Privacy
▪ Cookies
Identify browser and track visits to site
Super cookies (Flash cookies)
▪ Web beacons (web bugs)
Tiny graphics embedded in e-mails and web pages
Monitor who is reading e-mail message or visiting site
▪ Spyware
Surreptitiously installed on user’s computer
May transmit user’s keystrokes or display unwanted ads
▪ Google services and behavioral targeting (DoubleClick)
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 How Cookies Identify Web Visitors

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 Internet Challenges to Privacy (Cont.)
▪ The United States allows businesses to gather transaction information and
use this for other marketing purposes.
▪ Opt-out vs. opt-in model
Opt-out: allows collection of personal information unless the consumer
requests otherwise
Opt-in: the consumer must take action to approve collection and use of
personal information

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 Technical Solutions
▪ Solutions include
E-mail encryption
Anonymity tools
Anti-spyware tools
▪ Overall, technical solutions have failed to protect users from being
tracked from one site to another
Browser features
▪ “Private” browsing
▪ “Do not track” options

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 Other Real-World Ethical Dilemmas
▪ Using technology to reduce workforce
Computerized questions
▪ Selling subscriber information to advertisers
Facebook monitors users and sells information to advertisers and app
developers
▪ Employees using corporate IT for personal use
▪ Using IT to monitor employees

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 Advances in Data Analysis Techniques
▪ Profiling
Combining data from multiple sources to create dossiers of detailed
information on individuals
▪ Nonobvious relationship awareness (NORA)
Combining data from multiple sources to find obscure hidden
connections that might help identify criminals or terrorists

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 Nonobvious Relationship Awareness (NORA)

▪ Example:
https://www.youtube.co
m/watch?v=F7pYHN9iC9
I#t=17

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 Ethics in an Information Society: Basic Concepts
▪ Responsibility
Accepting the potential costs, duties, and obligations for decisions
▪ Accountability
Mechanisms for identifying responsible parties
▪ Liability
Permits individuals (and firms) to recover damages done to them
▪ Due process
Laws are well-known and understood, with an ability to appeal to
higher authorities

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 Ethical Analysis
▪ Five-step process for ethical analysis:
1. Identify and clearly describe the facts.
2. Define the conflict or dilemma and identify the higher-order values
involved.
3. Identify the stakeholders.
4. Identify the options that you can reasonably take.
5. Identify the potential consequences of your options.

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 Candidate Ethical Principles
▪ Golden Rule
Do unto others as you would have them do unto you
Application: For example, when handling customer data, a company should consider how it would
feel if its own personal information were mishandled.
▪ Immanuel Kant’s Categorical Imperative
If an action is not right for everyone to take, it is not right for anyone
Application: A business should avoid deceptive practices (e.g., false advertising) because if
everyone did so, trust in markets would erode.
▪ Descartes’ Rule of Change
If an action cannot be taken repeatedly, it is not right to take at all
Application: A company considering short-term environmental exploitation (e.g., excessive
pollution) should refrain, as repeated actions would lead to unsustainable outcomes.

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 Candidate Ethical Principles (Cont.)
▪ Utilitarian Principle
Take the action that achieves the higher or greater value
Application: For example, when deciding on deploying a new AI tool, a company would assess its
overall benefits to society (e.g., efficiency and productivity) versus potential drawbacks (e.g., job
displacement).
▪ Risk Aversion Principle
Take the action that produces the least harm or potential cost
Application: In cybersecurity, a firm might choose a highly secure, albeit costlier, solution to avoid
the risk of data breaches.
▪ Ethical “No Free Lunch” Rule
Assume that virtually all tangible and intangible objects are owned by someone unless there is a
specific declaration otherwise
Application: When using software or digital content, businesses should ensure they have the
appropriate licenses or permissions rather than assuming free usage.
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 Examples Applying Ethical Principles
▪ “I’m against high level officials being able to park in no-parking zones. Why can’t I do it
and they can.”
Kant’s Categorical Imperative: (not right for me, not right for them).
▪ “I am careful when extending the deadlines of assignments. Someone can rightfully ask
‘you did it for this assignment, why not do it for that. The problem is that I can’t extend
the last assignment; the final exam”
Descartes’ rule-of-change.
▪ “Allowing one group to present for more than 10 minutes even if something goes wrong is
tricky. If you do it for one group, you have to do it for all.”
Kant’s Categorical Imperative.
▪ “To get the same grade as your group for group assignments, you must contribute to
group work”
No-free lunch.

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 Information Rights: Privacy and Freedom in the Internet Age
▪ Privacy
Claim of individuals to be left alone, free from surveillance or
interference from other individuals, organizations, or state;
Claim to be able to control information about yourself

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 Information Rights: Privacy and Freedom in the Internet Age
▪ Fair Information Practices
Set of principles governing the collection and use of information
▪ Basis of most U.S. and European privacy laws
Used to drive changes in privacy legislation
▪ COPPA
–Parental permission before collecting children information
▪ Do-Not-Track Online Act of 2011
–To have an opt-in capability

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 Information Rights: Privacy and Freedom in the Internet Age
▪ FTC FIP principles
Notice/awareness (core principle): Web sites must disclose practices
before collecting data
Choice/consent (core principle): Consumers must be able to choose
how information is used for secondary purposes
Access/participation: Consumers must be able to review, contest
accuracy of personal data
Security: Data collectors must take steps to ensure accuracy, security
of personal data
Enforcement: Must be mechanism to enforce FIP principles
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 European Directive on Data Protection
▪ Use of data requires informed consent of customer
Informed consent: consent given with knowledge of all the facts
needed to make a rational decision.
▪ EU member nations cannot transfer personal data to countries without
similar privacy protection
▪ Stricter enforcements under consideration:
Right of access
Right to be forgotten
▪ Safe harbor framework
▪ Edward Snowden
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 Safe Harbour
▪ A private, self-regulating policy and enforcement mechanism that meets
the objectives of government regulators and legislation but does not
involve government regulation or enforcement.
▪ Businesses would be allowed to use personal data from EU countries if
they develop privacy protection policies that meet EU standards.
Enforcement would occur in the United States (or Canada) using self-
policing, regulation, and government enforcement of fair trade statutes.

▪ Not anymore!
http://www.cbc.ca/news/business/safe-harbour-data-deal-thrown-out-
by-european-court-1.3258334
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 Property Rights: Intellectual Property
▪ Intellectual property
Intangible/tangible property of any kind created by individuals or
corporations
▪ Three main ways that intellectual property is protected:
Trade secret: intellectual work or product belonging to business, not
in the public domain
Copyright
▪ Statutory grant protecting intellectual property from being copied for
the life of the author, plus 70 years
Patents
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 Patents
▪ Grants creator of invention an exclusive monopoly on ideas behind
invention for 20 years

▪ Patent law grants a monopoly on underlying concepts and ideas of
software

▪ Originality, novelty, and invention are key concepts

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 Challenges to Intellectual Property Rights
▪ Digital media different from physical media
Ease of replication
Ease of transmission (networks, Internet)
Ease of alteration
Difficulties in establishing uniqueness

▪ Digital Millennium Copyright Act (DMCA)
Makes it illegal to circumvent technology-based protections of copyrighted
materials

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 Computer-Related Liability Problems
▪ If software fails, who is responsible?
If seen as part of a machine that injures or harms, software producer
and operator may be liable.
If seen as similar to book, difficult to hold author/publisher
responsible.
If seen as a service? Would this be similar to telephone systems not
being liable for transmitted messages?

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 System Quality: Data Quality and System Errors
▪ What is an acceptable, technologically feasible level of system quality?
Flawless software is economically unfeasible
▪ Three principal sources of poor system performance
Software bugs, errors
Hardware or facility failures
Poor input data quality (most common source of business system
failure)

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 Quality of Life: Equity, Access, Boundaries
▪ Negative social consequences of systems
▪ Balancing power: center versus periphery
▪ Rapidity of change: reduced response time to competition
▪ Maintaining boundaries: family, work, and leisure
▪ Dependence and vulnerability
▪ Computer crime and abuse

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 Quality of Life: Equity, Access, Boundaries (Cont.)
▪ Computer crime and abuse
Computer crime
Computer abuse
Spam
▪ CAN-SPAM Act of 2003
▪ Employment
Trickle-down technology
Reengineering job loss

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 Quality of Life: Equity, Access, Boundaries (Cont.)
▪ Health risks
Repetitive stress injury (RSI)
Carpal tunnel syndrome (CTS)
Computer vision syndrome (CVS)
Technostress

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 ITM 100
Class 11
Information Systems, Organizations, and Strategy

adapted from
Kenneth C. Laudon, Jane P. Laudon, Management Information Systems: Managing the Digital Firm, 17th Edition

Copyright © 2017, 2014, 2011 Pearson Education, Inc. All Rights Reserved.
 Learning Objectives
▪ 3.3 How do Porter’s competitive forces model, the value chain model,
synergies, core competencies, and network economics help companies
develop competitive strategies using information systems?
▪ 3.4 What are the challenges posed by strategic information systems,
and how should they be addressed?
 Porter’s Competitive Forces Model (1 of 3)
▪ Why do some firms become leaders in their industry?
▪ Michael Porter’s competitive forces model
Provides general view of firm, its competitors, and environment
▪ Five competitive forces shape fate of firm:
Traditional competitors
New market entrants
Substitute products and services
Customers
Suppliers
 Porter’s Competitive Forces Model (2 of 3)
▪ Traditional competitors
All firms share market space with competitors who are
continuously devising new products, services, efficiencies, and
switching costs
▪ New market entrants
Some industries have high barriers to entry, for example,
computer chip business
New companies have new equipment, younger workers, but
little brand recognition
 Porter’s Competitive Forces Model (3 of 3)
▪ Substitute products and services
Substitutes products customers might use if your prices
become too high, for example, iTunes substitutes for CD s
▪ Customers
Can customers easily switch to competitor's products? Can they
force businesses to compete on price alone in transparent
marketplace?
▪ Suppliers
Market power of suppliers when firm cannot raise prices as fast
as suppliers
Figure 3.8 Porter’s Competitive Forces Model
7iley & Sons, Inc.

Application of five competitive forces model.

Competitive Force IT Influence on Competitive Force
Threat of New Entrants Can be lowered if there are barriers to entry.
Sometimes IS can be used to create barriers to entry

Bargaining Power of Buyers Can be high if it’s easy to switch. Switching costs are
increased by giving buyers things they value in
exchange such as lower costs, effort, or time; or useful
information
Bargaining Power of Suppliers Strongest when there are few firms to choose from,
quality of inputs is crucial, or the volume of purchases
is insignificant to the supplier

Threat of Substitute Products Depends on buyers’ willingness to substitute and the
level of switching costs buyer’s face

Industrial Competitors Rivalry is high when it is expensive to leave an
industry, the industry’s growth rate is declining, or
products have lost differentiation

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 Copyright © 2022,
– Foundations 2020, 2018
of Management Pearson Education,
Information Systems Inc. All Rights Reserved
8iley & Sons, Inc.

Five competitive forces with potential
strategic use of information resources

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 Copyright © 2022,
– Foundations 2020, 2018
of Management Pearson Education,
Information Systems Inc. All Rights Reserved
Information System Strategies for Dealing with Competitive
Forces (1 of 3)

▪ Four generic strategies for dealing with competitive forces,
enabled by using I T:
Low-cost leadership
Product differentiation
Focus on market niche
Strengthen customer and supplier intimacy
Information System Strategies for Dealing with Competitive
Forces (2 of 3)
▪ Low-cost leadership
Offering products and services at a lower price than
competitors
Example: Walmart’s efficient customer response system
▪ Product differentiation
Enable new products or services, greatly change customer
convenience and experience
Example: Google Nike
Mass customization; customer experience management
Information System Strategies for Dealing with Competitive
Forces (3 of 3)
▪ Focus on market niche
Use information systems to enable a focused strategy on a
single market niche; specialize
Example: Hilton Hotels’ O n Q system
▪ Strengthen customer and supplier intimacy
Use information systems to develop strong ties and loyalty with
customers and suppliers
Increase switching costs
Examples: Toyota, Amazon
 The Internet’s Impact on Competitive Advantage

▪ Transformation or threat to some industries
Examples: travel agency, printed encyclopedia, media
▪ Competitive forces still at work, but rivalry more intense
▪ Universal standards allow new rivals, entrants to market
▪ New opportunities for building brands and loyal customer
bases
 Smart Products and the Internet of Things
▪ Internet of Things (I o T)
Growing use of Internet-connected sensors in products
▪ Smart products
Fitness equipment, health trackers
▪ Expand product differentiation opportunities
Increasing rivalry between competitors
▪ Raise switching costs
▪ Inhibit new entrants
▪ May decrease power of suppliers
 The Business Value Chain Model
▪ Firm as series of activities that add value to products or services
▪ Highlights activities where competitive strategies can be applied
Primary activities – relate directly to the value created in a
product or service.
Support activities – make it possible for the primary activities to
exist and remain coordinated.
▪ At each stage, determine how information systems can improve
operational efficiency and improve customer and supplier intimacy
▪ Utilize benchmarking, industry best practices
Figure 3.9 The Value Chain Model
 Extending the Value Chain: The Value Web
▪ Firm’s value chain is linked to value chains of suppliers,
distributors, customers
▪ Industry value chain
▪ Value web
Collection of independent firms using highly synchronized I T to
coordinate value chains to produce product or service
collectively
More customer driven, less linear operation than traditional
value chain
Figure 3.10 The Value Web
 Synergies
▪ When output of some units are used as inputs to others, or
organizations pool markets and expertise
▪ Example: Merger of Bank of NY and JP Morgan Chase
▪ Purchase of YouTube by Google
 Core Competencies

▪ Activity for which firm is world-class leader
▪ Relies on knowledge, experience, and sharing this across
business units
▪ Example: Procter & Gamble’s intranet and directory of subject
matter experts
 Network-Based Strategies

▪ Take advantage of firm’s abilities to network with one another
▪ Include use of:
Network economics
Virtual company model
Business ecosystems
 Network Economics

▪ Marginal cost of adding new participant almost zero, with
much greater marginal gain
▪ Value of community grows with size
▪ Value of software grows as installed customer base grows
▪ Compare to traditional economics and law of diminishing
returns
 Virtual Company Model
▪ Virtual company
Uses networks to ally with other companies
Creates and distributes products without being limited by
traditional organizational boundaries or physical locations
▪ Example: Li & Fung
Manages production, shipment of garments for major fashion
companies
Outsources all work to thousands of suppliers
 Business Ecosystems and Platforms
▪ Industry sets of firms providing related services and products
▪ Platforms
Microsoft, Facebook
▪ Keystone firms
▪ Niche firms
▪ Individual firms can consider how IT will help them become
profitable in larger ecosystems
Figure 3.11 An Ecosystem Strategic Model
The digital firm era requires a
more dynamic view of the
boundaries among industries,
firms, customers, and
suppliers, with competition
occurring among industry
sets in a business ecosystem.
In the ecosystem model,
multiple industries work
together to deliver value to
the customer. IT plays an
important role in enabling a
dense network of interactions
among the participating
firms.
 Challenges Posed by Strategic Information Systems
▪ Sustaining competitive advantage
Competitors can retaliate and copy strategic systems
Systems may become tools for survival

▪ Aligning IT with business objectives
Performing strategic systems analysis
▪ Structure of industry
▪ Firm value chains
 ITM 100
Class 10
Emerging Technologies & AI

adapted from
Kenneth C. Laudon, Jane P. Laudon, Management Information Systems: Managing the Digital Firm, 17th Edition
 Hardware Platform Trends
▪The mobile digital platform
▪Consumerization of IT and BYOD
▪Virtualization
▪Cloud computing
▪Green computing
▪Quantum computing

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 The Mobile Digital Platform

▪ The mobile digital platform
Smartphones
Netbooks
Tablet computers
Digital e-book readers (Kindle)
Wearable devices

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 Wearable devices
▪ Transform the way we live!
Fitness, wellness & Healthcare
Infotainment (Information and Entertainment): smart
glasses
Fashion and Military
▪Montreal-based fashion designer
(https://vimeo.com/yinggao/cant_wont)

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 Consumerization of IT and BYOD

▪ Consumerization
Technology emerges in the consumer
market and then spreads into business
organizations
▪ BYOD: Bring Your Own Device
Forces businesses and IT departments to
rethink how IT equipment and services
are acquired and managed
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 Virtualization

▪ Presents computing resources so that they can be accessed in
ways that are not restricted by configuration
▪ Allows single physical resource to act as multiple resources
(i.e., run multiple instances of OS)
▪ Reduces hardware and power expenditures
▪ Facilitates hardware centralization
▪ Software-defined storage (SDS)

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 VMware

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 Cloud Computing
▪ Off-load peak demand for computing power to remote, large-scale data
processing centers
▪ Pay only for the computing power they use, as with an electrical utility
▪ Excellent for firms with spiked demand curves caused by seasonal
variations in consumer demand, e.g. holiday shopping
▪ Saves firms from purchasing excessive levels of infrastructure
▪ Data permanently stored in remote servers, accessed and updated over
the Internet by users

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 Cloud Computing Services
▪ Infrastructure as a service (Iaas)
Customers use processing, storage, networking resources to run their
information systems
They pay for only the computing capacity they use
▪ Platform as a service (PaaS)
Customers use infrastructure and programming tools to develop their
own applications; Bluemix
▪ Software as a service (SaaS)
Customers use software hosted on a vendor’s cloud
Google Apps
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Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 10
 Cloud Computing
▪ A cloud can be private or public
A public cloud is owned and maintained by a service provider
▪ Amazon Web Service (AWS)
A private cloud is operated only for an organization
▪ Concerns include
Security
Availability
Users become dependent on the cloud provider

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 Green Computing
▪ Practices and technologies for manufacturing, using, disposing of
computing and networking hardware

▪ Reducing power consumption a high priority

▪ Data centers use as much energy as the output of 30 nuclear power
plants

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 Quantum computing
▪ Uses quantum physics to represent and operate on data
▪ Dramatic increases in computing speed

▪ While conventional computers handle bits of data either
as 0 or 1 but not both, quantum computing can process
bits as 0,1, or both simultaneously
It allows to solve business and scientific problems
millions of times faster

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 Software Platform Trends
▪ Open-source software

▪ Software for the web: Java, HTML, and HTML5

▪ Web services and service-oriented architecture

▪ Software outsourcing and cloud services

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 Open-source software
Open-source software is free and can be modified by users
Developed and maintained by a worldwide network of
programmers and designers under the management of user
communities

▪ Examples
Apache web server, Mozilla Firefox browser, OpenOffice
Linux is the most widely used open-source software
program. Linux is an operating system derived from Unix
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 Software for the web: building web applications
▪ Java: One of the most prominent OO languages, both for PC and mobile
environments
Java Virtual Machine
▪ Used to convert Java code to the native language of a computer
▪ Python
Used for building cloud computing applications
▪ Objective-C
Predecessor to Swift
▪ Swift
One of the most popular mobile app languages for iOS
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 Software for the Web
Hypertext Markup Language (HTML)
The language used to create or build a web page
Markup language
A language that uses tags to annotate the information in a document
Tag
The syntactic element in a markup language that annotate the
information in a document

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 HTML

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 Apps and Mashups
▪ Apps
Small pieces of software that run on the Internet, on your computer,
or on your smart phone
Generally delivered over the Internet
▪ Mashups
Combinations of two or more online applications, such as combining
mapping software (Google Maps) with local content

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 19
 Web services and service-oriented architecture
▪ Service-Oriented Architecture (SOA)
Set of self-contained services that communicate with each other to
create a working software application
Software developers reuse these services in other combinations to
assemble other applications as needed
▪ Web Services: software components that exchange information using
Web standards and languages
XML: Extensible Markup Language
▪ More powerful and flexible than HTML
▪ Tagging allows computers to process data automatically
Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 20
 XML
Extensible Markup Language
(XML)
A language that allows the
user to describe the content
of a document
HTML describes how a
document should look
XML describes a document's
meaning

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 21
 How Dollar Rent A Car uses web services

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 22
 Software outsourcing and cloud services
▪ Three external sources for software
1. Software packages and enterprise software
▪ Prewritten commercially available set of software
2. Software outsourcing
3. Cloud-based software services and tools
▪ Salesforce.com
▪ Service Level Agreements (SLAs): formal agreement
with service providers

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 23
 Changing Sources of Firm Software

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 24
 ARTIFICIAL INTELLIGENCE

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 25
 What Is Artificial Intelligence? (1 of 3)

▪ Grand vision
Computer hardware and software systems that are as “smart” as humans
So far, this vision has eluded computer programmers and scientists

▪ Realistic vision
Systems that take data inputs, process them, and produce outputs (like all
software programs) and that can perform many complex tasks that would
be difficult or impossible for humans to perform.

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 What Is Artificial Intelligence? (2 of 3)

▪ Examples:
Recognize millions of faces in seconds
Interpret millions of CT scans in minutes
Analyze millions of financial records
Detect patterns in very large Big Data databases
Improve their performance over time (“learn”)
Navigate a car in certain limited conditions
Respond to questions from humans (natural language); speech
activated assistants like Siri, Alexa, and Cortana

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 What Is Artificial Intelligence? (3 of 3)

▪ Major Types of AI
Expert systems
Machine learning
Neural networks and deep learning networks
Natural language Processing
Computer vision
Robotics

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 Intelligent Systems
▪ Expert systems
An intelligent technique for capturing tacit
knowledge in a very specific and limited domain
of human expertise.

▪ Capture the knowledge of skilled employees in the
form of a set of rules in a software system that
can be used by others in the organization.

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 Expert Systems
Knowledge-based system
Software that uses a specific set of information, from which it extracts and processes
particular pieces

Expert system
A software system based on the knowledge of human experts; it is a
Rule-based system A software system based on a set of if-then rules
Inference engine The software that processes rules to draw conclusions

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 Rules in an Expert System

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 31
 Inference Engines in Expert Systems

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 Machine Learning

▪ How computer programs improve performance without
explicit programming
Recognizing patterns
Experience
Prior learnings (database)
Supervised vs. unsupervised learning
▪ Contemporary examples
Google searches
Recommender systems on Amazon, Netflix

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 Neural Networks
▪ Find patterns and relationships in massive amounts of data too complicated
for humans to analyze
▪ “Learn” patterns by searching for relationships, building models, and
correcting over and over again
▪ Humans “train” network by feeding it data inputs for which outputs are
known, to help neural network learn solution by example from human
experts.
▪ Used in medicine, science, and business for problems in pattern classification,
prediction, financial analysis, and control and optimization

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 Artificial Neural Networks
Each processing element in an artificial neural net is analogous to a
biological neuron
An element accepts a certain number of input values (dendrites)
and produces a single output value (axon) of either 0 or 1
Associated with each input value is a numeric weight (synapse)

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 35
 How a Neural Network Works

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 Artificial Neural Networks
The effective weight of the element is the sum of the weights
multiplied by their respective input values
v1 * w1 + v2 * w2 + v3 * w3
Each element has a numeric threshold value
If the effective weight exceeds the threshold, the unit produces an
output value of 1
If it does not exceed the threshold, it produces an output value of 0

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 37
 Artificial Neural Networks
Training
The process of adjusting the weights and threshold values in a neural net
How does this all work?
Train a neural net to recognize a cat in a picture
Given one output value per pixel, train network to produce an output
value of 1 for every pixel that contributes to the cat and 0 for every one
that doesn't

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 38
 Natural Language Processing
▪ Understand, and speak in natural language. Read natural language and
translate
▪ Typically today based on machine learning, aided by very large databases of
common phrases and sentences in a given language
▪ Example: Google Translate
▪ Spam filtering systems
▪ Customer call center interactions: What is the customer’s problem? What
solutions worked in the past?
▪ Digital assistances: Sire, Alexa, Cortana, Google Assistant
▪ Not useful for an ordinary common sense human conversation but can be very
useful in limited domains, e.g. interacting with your car’s heating system.
Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 Computer Vision Systems
▪ Digital image systems that create a digital map of an image (like a face, or a street
sign), and recognize this image in large data bases of images in near real time
▪ Every image has a unique pattern of pixels
▪ Facebook’s DeepFace can identify friends in photos across their system, and the
entire web
▪ Autonomous vehicles can recognize signs, road markers, people, animals, and
other vehicles with good reliability
▪ Industrial machine (robot) vision
▪ Passport control at airports
▪ Identifying people in crowds

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 Robotics

▪ Design, construction, and operation of machines that can substitute for humans in
many factory, office, and home applications (home vacuums).
▪ Generally programmed to perform specific and detailed actions in limited
domains, e.g. robots spray paint autos, and assemble certain parts, welding, heavy
assembly movement.
▪ Used in dangerous situations like bomb disposal
▪ Surgical robots are expanding their capabilities

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 Intelligent Agents
▪ Work without direct human intervention to carry out repetitive, predictable
tasks
Deleting junk e-mail
Finding cheapest airfare
▪ Use limited built-in or learned knowledge base
Some are capable of self-adjustment, for example: Siri
▪ Chatbots
▪ Agent-based modelling applications:
Model behaviour of consumers, stock markets, and supply chains; used to
predict spread of epidemics

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 ITM 100
Class 9
Securing Information Systems

adapted from
Kenneth C. Laudon, Jane P. Laudon, Management Information Systems: Managing the Digital Firm, 17th Edition
 Real World Example - TJX
▪ In 2006, TJX Co. experienced a computer system security breach. As many as 94 million
customers were affected.
▪ In 2010 Albert Gonzalez was sentenced for 20 years in prison for this incident.
▪ If the government calculated the potential loss at $500 per card (per federal guidelines)
the impact of the intrusion would exceed $400 million.
▪ The string of hacks began in 2005 when Gonzalez and accomplices conducted war-
driving expeditions in search of poorly protected wireless networks.
▪ Once inside a local TJX outlet’s network, the hackers forged their way upstream to its
corporate network in Massachusetts. Gonzalez installed a packet sniffer on the TJX
network to siphon transaction data in real time.
▪ Authorities found 16.3 million stolen card numbers on Gonzalez’s leased Latvian server,
and another 27.5 million stolen numbers were found on the server in Ukraine.

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 2
 Real World Example - Heartland Payment Systems
▪ Date: March 2008
▪ Impact: 134 million credit cards exposed
▪ A federal grand jury indicted Albert Gonzalez and two unnamed Russian
accomplices in 2009. Gonzalez was alleged to have masterminded the
international operation that stole the credit and debit cards. In 2010 he
was sentenced to 20 years in prison.
▪ The vulnerability to SQL injection was well understood and security
analysts had warned retailers about it for several years.

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Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 4
 System Security
▪ Information systems are mission critical for many organizations
Failed computer systems can lead to significant or total loss of business
function
▪ Information and systems are very vulnerable:
Confidential personal and financial data, trade secrets, new products,
strategies
▪ Without proper security measures, these systems would be next to
impossible to use and benefit from
A security breach may cut into a firm’s market value almost immediately
Inadequate security also brings forth issues of liability
Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 5
 Why Systems Are Vulnerable
▪ Hardware problems
Breakdowns, configuration errors, damage from improper use or
crime
▪ Software problems
Programming errors, installation errors, unauthorized changes
▪ Physical damage to infrastructure
▪ Use of networks/computers outside of firm’s control

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 6
 Software Vulnerability
▪ Commercial software contains flaws that create security vulnerabilities
Bugs (program code defects)
Zero defects cannot be achieved because complete testing is not
possible with large programs
Flaws can open networks to intruders, e.g. buffer overflow defect
that could cause a system to crash and leave the user with heightened
privileges

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 7
 Computer Crime
▪ Violation of criminal law that involves a knowledge of technology for
perpetration, investigation, or prosecution
▪ Computer as a target of crime
Breaching confidentiality of protected computerized data
Accessing a computer system without authority
▪ Computer as an instrument of crime
Theft of trade secrets
Using e-mail for threats or harassment

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 8
 Internet Vulnerabilities
▪ Network open to anyone: Network communication is intercepted in an
attempt to obtain key data, i.e. person-in-the-middle
▪ Size of Internet means abuses can have wide impact
▪ Use of fixed Internet addresses with cable / DSL modems creates fixed
targets for hackers
▪ Unencrypted VOIP
▪ E-mail, P2P, IM
Interception
Attachments with malicious software
Transmitting trade secrets
Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 9
 Wireless Security Challenges
▪ Radio frequency bands easy to scan
▪ SSIDs (service set identifiers)
Identify access points, broadcast multiple times, can be identified by
sniffer programs
▪ War driving
Eavesdroppers drive by buildings and try to detect SSID and gain
access to network and resources
Once access point is breached, intruder can gain access to networked
drives and files

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 10
 Malicious Software
▪ Commonly known as malware
Brings harm to a computer
▪ Computer Viruses
▪ Worms
▪ Trojan Horses
▪ SQL Injection, Spyware

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 11
 Computer Viruses
▪ Rogue software programs
Attempts to bypass appropriate authorization and/or perform unauthorized
functions
Attach to other programs in order to be executed
Usually without user knowledge or permission
▪ Deliver a “payload”
Copy themselves from one computer to another sometimes through email
attachments
May steal data or files
Permit eavesdropping access
Destroy data
Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 12
 Worms
▪ Programs that copy themselves from one computer to another over
networks
▪ Virus vs Worms?
Viruses require an active host program
An already-infected and active operating system

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 Trojan Horses
▪ A software program that appears to be benign, but then does
something unexpected

▪ Often “transports” a virus into a computer system

▪ Name is based on Greek ruse during Trojan war
Troy Movie
▪ https://www.youtube.com/watch?v=Td1uPq9K--E

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 SQL Injection, Spyware
▪ SQL injection attacks
Hackers submit data to Web forms that sends rogue SQL query to
database to perform malicious acts (e.g. delete segments of the
database)
▪ Spyware
Key loggers
Other types
▪ Reset browser home page
▪ Redirect search requests
▪ Slow computer performance by taking up memory
Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 15
 Hackers and Computer Crime
▪ Hackers
Individuals who attempt to gain unauthorized access to a computer
system
▪ Cracker
A hacker with criminal intent

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 16
 Computer Crime (Cont.)
▪ Identity theft: A crime in which the imposter obtains key pieces of
personal information
▪ Password guessing: Obvious
▪ Phishing: setting up fake Web sites or sending email messages that look
legitimate, and using them to ask for confidential data
▪ Pharming: redirecting users to a bogus web site
▪ Back door: Unauthorized access to anyone who knows it exists
▪ Cyberterrorism and Cyberwarfare: exploitation of systems by terrorists

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 17
 Spoofing and Sniffing
▪ Spoofing
Masquerading as someone else, or redirecting a Web link to an
unintended address
▪ Sniffing
An eavesdropping program that monitors information travelling over
a network
Enables hackers to steal proprietary information such as e-mail,
company files, and so on

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 18
 Denial of Service (DoS) Attacks
▪ DoS
Hackers flood a server with false communications in order to crash
the system
▪ Distributed DoS
Uses numerous computers to launch a DoS
▪ Often use Botnets
Deliver 90% of world spam, 80% of world malware
▪ Pushdo spamming botnet infected computers sent as many as 7.7
billion spam messages per day

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 19
 What DDOS attack looks like

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 20
 Internal Threats: Employees
▪ Security threats often originate inside an organization
▪ Inside knowledge
▪ Sloppy security procedures
User lack of knowledge
▪ Social engineering
Tricking employees into revealing their passwords by pretending to
be legitimate members of the company in need of information
▪ Both end users and information systems specialists are sources of risk

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 21
 Contemporary Security Challenges and Vulnerabilities

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 Security and Controls
▪ What is Security?
Policies, procedures, and technical measures used to prevent
unauthorized access, alteration, theft, or physical damage to
information systems

▪ Security measures are a special case of organizational controls
Methods, policies, and organizational procedures that ensure safety
of organization’s assets; accuracy and reliability of its accounting
records; and operational adherence to management standards

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 23
 Information Systems Controls
▪ General controls
Govern design, security, and use of computer programs and security
of data files in general throughout organization
Software controls, hardware controls, computer operations controls,
data security controls, system development controls, administrative
controls,
▪ Application controls
Controls unique to each computerized application
Input controls, processing controls, output controls

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 24
 CIA Triad of Information Security

Ensuring
that data
can be
modified
only by
appropriate Ensuring that data is
mechanisms protected from
unauthorized access

The degree to which authorized
users can access information for
legitimate purposes

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 25
 Tools and Technologies for Safeguarding Information Systems
▪ Software Patches
Small pieces of software to repair flaws
Exploits often created faster than patches can be released and
implemented

▪ Identity management software
Automates keeping track of all users and privileges
Authenticates users, protecting identities, controlling access

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 26
 Tools and Technologies for Safeguarding Information Systems
▪ Authentication
Password systems
Tokens
Smart cards: A card with an embedded memory chip used for identification
Biometric authentication: Human characteristics such as fingerprints, retina
or voice patterns
Two-factor authentication

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 27
 Preventing Unauthorized Access
Guidelines for passwords
Easy to remember, hard to guess
Don’t use family or pet names
Don’t make it accessible
Use combination uppercase/lowercase letters, digits and special characters
Don’t leave computer when logged in
Don’t ever tell anyone
Don’t include in an email
Don’t use the same password in lots of places

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 28
 Preventing Unauthorized Access
Fingerprint analysis – a stronger level of
verification than username and password
iPhone Touch ID

What if
somebody
steals your
digitized
fingerprint?

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 29
 Tools and Technologies for Safeguarding Information Systems
▪ Firewall
Combination of hardware and software that prevents unauthorized
users from accessing private networks
Technologies include Packet Filtering

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 30
 A Corporate Firewall

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 31
 Tools and Technologies for Safeguarding Information Systems
▪ Intrusion detection system
Monitors hot spots on corporate networks to detect and deter
intruders
▪ Antivirus and antispyware software
Checks computers for presence of malware and can often eliminate it
as well
Requires continual updating

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 32
 Cryptography
Cryptography
The field of study related to encoded information (comes from Greek
word for "secret writing")
Encryption
The process of converting plaintext into ciphertext
Decryption
The process of converting ciphertext into plaintext

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 33
 Cryptography

Encryption

plaintext ciphertext
message message
Decryption

Encrypted(Information) cannot be read
Decrypted(Encrypted(Information)) can be

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 34
 Cryptography
Cipher
An algorithm used to encrypt and decrypt text
Key
The set of parameters that guide a cipher

Neither is any good without the other

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 35
 Cryptography
Substitution cipher
A cipher that substitutes one character with another

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
D E F G H I J K L M N O P Q R S T U V W X Y Z A B C
Substitute the letters in the second row for the letters in the top row to encrypt a
message
Encrypt(COMPUTER) gives FRPSXWHU
Substitute the letters in the first row for the letters in the second row to decrypt
a message
Decrypt(Encrypt(COMPUTER)) gives COMPUTER

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 36
 Public/Private Keys
Public-key cryptography
An approach in which each user has two related keys, one public and one
private
One’s public key is distributed freely
A person encrypts an outgoing message, using the receiver’s public key.
Only the receiver’s private key can decrypt the message

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 37
 Protecting Online Information
Be smart about information you make available!!!!!
▪ 25% of Facebook users don’t make use of its privacy controls or don’t
know they exist
▪ 40% of social media users post their full birthday, opening themselves
up to identity theft
▪ 9% of social media users become victims of information abuse

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 38
 Securing Wireless Networks
▪ WEP security
Static encryption keys are relatively easy to crack
Improved if used in conjunction with VPN
▪ WPA2 specification
Replaces WEP with stronger standards
Continually changing, longer encryption keys

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 39
 Security in the Cloud
▪ Responsibility for security resides with company owning the data
▪ Firms must ensure providers provide adequate protection:
Where data are stored
Meeting corporate requirements, legal privacy laws
Segregation of data from other clients
Audits and security certifications
▪ Service level agreements (SLAs)

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 40
 Risk Assessment
▪ Determines level of risk to firm if specific activity or process is not properly
controlled
▪ Types of threat
▪ Probability of occurrence during year
▪ Potential losses, value of threat
▪ Expected annual loss
▪ Goal is to minimize vulnerability to threats that put a system at the most risk

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 Online Order Processing Risk Assessment

EXPOSURE PROBABILITY OF LOSS RANGE EXPECTED
OCCURRENCE (AVERAGE) ($) ANNUAL LOSS ($)
Power failure 30% $5,000 - $200,000 $30,750
($102,500)
Embezzlement 5% $1,000 - $50,000 $1275
($25,500)
User error 98% $200 - $40,000 ($20,100) $19,698

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 42
 Security Policy
▪ Ranks information risks, identifies acceptable security goals, and
identifies mechanisms for achieving these goals
▪ Drives other policies
Acceptable use policy (AUP)
▪ Defines acceptable uses of firm’s information resources and
computing equipment
▪ Identity management
Identifying valid users
Controlling access

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 43
 Disaster Recovery Planning and Business Continuity Planning
▪ Disaster recovery planning
Devises plans for restoration of disrupted services

▪ Business continuity planning
Focuses on restoring business operations after disaster

▪ Both types of plans needed to identify firm’s most critical systems
Business impact analysis to determine impact of an outage
Management must determine which systems restored first

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 44
 The Role of Auditing
▪ Information systems audit
Examines firm’s overall security environment as well as controls
governing individual information systems
▪ Security audits
Review technologies, procedures, documentation, training, and
personnel
May even simulate disaster to test responses
▪ List and rank control weaknesses and the probability of occurrence
▪ Assess financial and organizational impact of each threat

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 45
 Sample Auditor’s List of Control Weaknesses

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 46
 ITM 100
Class 8
E-commerce, Digital Markets and Digital Goods

adapted from
Kenneth C. Laudon, Jane P. Laudon, Management Information Systems: Managing the Digital Firm, 17th Edition
 Learning Objectives
▪ What are the unique features of e-commerce, digital markets, and
digital goods?
▪ What are the principal e-commerce business and revenue models?
▪ How has e-commerce transformed marketing?
▪ How has e-commerce affected business-to-business transactions?
▪ What is the role of m-commerce in business, and what are the most
important m-commerce applications?
▪ What issues must be addressed when building an e-commerce
presence?

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 E-commerce Today
▪ E-commerce
Use of the Internet and web to transact business
▪ Began in 1995 and grew exponentially
Still stable even in a recession
▪ The new e-commerce
Social, mobile, local
Desktop to smartphone

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 E-commerce Today (Cont.)

Online consumer sales were more than $700 billion in 2018

Number of individuals of all ages online in the United States was more than
270 million in 2018

96 million households have broadband access to the internet in 2017

223 million Americans access the Internet by using a smartphone

B2B e-commerce expanded to more than $7 trillion

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 4
 The Growth of E-commerce

E-commerce revenues grew 15 percent to 25 percent a year until the recession of 2008–2009, when
they slowed measurably to around 3 percent in 2009.
This was much better than traditional retail commerce which actually shrank in this recession.
E-commerce began growing again after 2009 at more than 10 percent.
In 2016, e-commerce revenues grew at an estimated 15 percent annually.

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 The Growth of E-commerce: Technology Foundations
▪ Wireless Internet connections
Wi-Fi, 4G smartphones
▪ Powerful smartphones and tablet
Web surfing, streaming, …
▪ Wearable computers
Fitbit, Apple Watch
▪ Social networking apps
1.65 billion users
▪ Cloud Computing, SaaS
Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 6
 The Growth of E-commerce: New Business Models
▪ Traditional advertising industry is
disrupted
Google, Yahoo, and Facebook display
nearly 1 trillion ads a year
▪ Traditional newspaper vs digital news
media
▪ Uber and Airbnb (sharing economy)
▪ Online entertainment business models
YouTube, Netflix, …

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 7
The 2022 Tech Crash
Supplement to Chapter 10
 During the global pandemic eCommerce grew substantially and is
expected to continue growing, but more slowly
E-commerce as share of total retail sales worldwide 2015-2021, with forecasts to 2026
30%

After the Pandemic 24%
25%
23%
21.9%
Pandemic 20.8%
19.7%
20% 18.8%
17.8%
Share of retail sales

15% 13.8%
12.2%
10.4%
10% 8.6%
7.4%

5% Approx. double in 6 years from 2017 to
2022
0%
2015 2016 2017 2018 2019 2020 2021 2022* 2023 2024 2025 2026

Note(s): Worldwide; 2015 to 2022
Further information regarding this statistic can be found on page 8.
2 2017,
Copyright © 2018, Source(s): eMarketer;
2016 Pearson ID 534123
Education, Inc. ITM 100 – Foundations of Management Information Systems
 eCommerce companies are showing the strain of slower growth – in
2022, share prices tumble

Sharprice decrease % Nov 1 2021 to Oct 31 2022

Snap, -81% Snap

Door Dash, -78% Door Dash

Spotify, -73% Spotify

Meta (facebook), -70% Meta (facebook)

Netflix, -58% Netflix

Uber, -10% Uber

-90% -80% -70% -60% -50% -40% -30% -20% -10% 0%
Sharprice decrease % Nov 1 2021 to Oct 31 2022

Source: The Economist, October 31, 2022, “What went wrong with Snap, Netflix and Uber?
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 In Canada…

Shopify to lay off 10% of workforce after pandemic growth bet ‘didn’t pay off’: CEO.. the Canadian e-commerce giant that was once the country’s most valuable company, is laying off
roughly 1,000 employees as its explosive pandemic growth stalls.

Shares of Shopify sank roughly 16 per cent on the Toronto Stock Exchange on Tuesday in reaction to
the news it will cut 10 per cent of its staff. By market close the company’s stock price had recovered
slightly to $40.69, a decline of 13.6 per cent on the day.
CEO Tobi Lütke said in a letter to employees made public Tuesday that the company made a bet that
the global retail transition to e-commerce, which picked up during the COVID-19 pandemic, would
continue to accelerate.
…the company effectively doubled its headcount over the course of the pandemic

Source: Craig Lloyd, Global News, July 26, 2022.
https://globalnews.ca/news/9015970/shopify-layoffs-july-2022-pandemic/

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 Three challenges for the eCommerce business model

1. Diminishing returns of the “network effects” model
2. Low barriers to entry
3. Dependence on some else’s platform (such as Apple, or
Android, apps)

Source: The Economist, October 31, 2022, “What went wrong with Snap, Netflix and Uber?
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 WHAT ARE SOME OF THE UNIQUE
FEATURES OF E-COMMERCE?

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems 13
 Unique Features of E-commerce
▪ Ubiquity
Internet/Web technology available everywhere: work, home, etc., and anytime
▪ Global reach
Transactions cross cultural and national boundaries
▪ Universal standards
One set of technology standards: Internet standards
▪ Richness
Supports video, audio, and text messages
▪ Interactivity
Using a chat window to interact with technical support at Bell

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 Unique Features of E-commerce(Cont.)
▪ Information density
Vast increases in information density - the total amount
and quality of information available to all participants
Greater price and cost transparency
▪ Personalization/customization
Technology permits modification of messages, goods
▪ Social technology
Promotes user content generation and social
networking
▪ E.g., Uploading videos to YouTube

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 Key Concepts in E-commerce

Copyright © 2018, 2017, 2016 Pearson Education, Inc. ITM 100 – Foundations of Management Information Systems
 Key Concepts in E-commerce
▪ Information asymmetry reduced
One party possesses greater knowledge than the other
▪ Costs reduced
Menu costs: Merchants’ costs of changing prices
Search costs: The effort to find suitable products
Transaction costs: The cost of participating in a market
▪ Switching cost reduced
▪ Dynamic pricing enabled
▪ Disintermediation enabled
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 The Benefits of Disintermediation to the Consumer

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