100% satisfaction guarantee Immediately available after payment Both online and in PDF No strings attached
logo-home
Summary Cyber Threats (Bsc Security Studies, Leiden University) $10.98   Add to cart

Summary

Summary Cyber Threats (Bsc Security Studies, Leiden University)

 39 views  3 purchases
  • Course
  • Institution

A comprehensive summary of the course Cyber Threats that is taught in the second year of the bachelor Security Studies

Preview 4 out of 37  pages

  • December 4, 2022
  • 37
  • 2019/2020
  • Summary
avatar-seller
Leiden University


Cyber Threats

Lecture 1: Introduction


In computer security, a threat is a possible danger that might exploit a vulnerability to breach security and therefore cause possible
harm. A threat can be either "intentional" or "accidental" or otherwise a circumstance, capability, action, or event. A cyber or
cybersecurity threat is a malicious act that seeks to damage data, steal data, or disrupt digital life in general. Cyber (in)security can be a
threat to individuals, groups/organisations, nations and the international community. Some examples of cyber threats include:
* Millennium Bug: coding error
* Cambridge Analytica: profiling
* Strava: publishing data
* OPCW: hack attempt
* Diginotar: trust issue
* Maastricht university: ransomware
* Grindr: selling data
* Stuxnet: sabotage — attack on physical property and people
* Schiphol: fuelling problem
* Banks: DDoS attacks


What is cyberspace?
“Cyberspace is composed of all the computerised networks in the world, as well as of all computerised end points, including
telecommunications networks, special purpose networks, the internet, computer systems, and computer-based systems. The concept
also includes the information stored, processed, and transmitted on the devices and between these networks.”


What is cybersecurity?
“Cyber security comprises technologies, processes and controls that are designed to protect systems, networks and data from cyber
attacks.” — “Effective cyber security reduces the risk of cyber attacks, and protects organisations and individuals from the
unauthorised exploitation of systems, networks and technologies.”


If it works, nothing happens. Is there a threat or are actors not interested? How can we tell? Focus on measurable outcomes. “A lot of
people still seem to think that you can solve the problem of cyber security with a couple of boxes, a bit of electronics and some clever
programming.”


But why do we care?
- Protection of critical national infrastructure (clean drinking water, electricity, internet, etc.)
- Privacy and sensitive data
- Financial reasons

Three-layer model:
- Outer layer — Governance
- In between — Socio-technical: people interacting with that technology
- Middle — Technical

Protection of data: CIA triad
- Confidentiality: information only available to authorised entities. Not only through hacking.
This could also be for instance wrong attachment in an email, data screens in public
displays, materials not removed correctly (e.g. secure bins), Grindr and Strava
- Integrity: can we trust the data, the whole data and noting but the data? No changes made
to data without detection. This includes changing data, adding data and deleting data. e.g.
millennium bug
- Availability: data available when needed. Systems up and running, people who should have
access have access and others not. e.g. Maastricht University ransomware attack



1

, Leiden University


Data backup: a copy of computer data taken and stored elsewhere so that it may be used to restore the original after a data loss
event. Primary data failures can be the result of hardware or software failure, data corruption, or a human-caused event, such as a
malicious attack (virus or malware), or accidental deletion of data. —> 3-2-1 (3 copies, 2 local, 1 in a galaxy far far away. e.g. DropBox,
TimeMachine, USB storage.


Multi-factor authentication: Multi-factor authentication is an authentication method in which a computer user is granted access only
after successfully presenting two or more pieces of evidence to an authentication mechanism: knowledge, possession, and inherence.
Something you know (e.g. password) have (e.g. a token, bank card) and are (e.g. fingerprint, iris, facial recognition).
- Upside: increased security
- Downside: often a bit more fuss

VPN: A virtual private network extends a private network across a public network, and enables users to send and receive data across
shared or public networks as if their computing devices were directly connected to the private network. It is a secure connection over
an insecure network. When would you want one? What might the dangers be? (e.g. your data can be sold).


Encryption is the process of encoding a message or information in such a way that only authorised parties can access it and those who
are not authorised cannot. Encryption itself does not prevent interference but denies the intelligible content to a would-be interceptor.
Not just messages, but files as well. Helps with the CIA triad. Also helps in starting a cyber attack(!).


End-to-end encryption: End-to-end encryption is a system of communication where only the communicating users can read the
messages. An example can be found within WhatsApp. But do we want it? Think about the issue with the FBI.


Public-key encryption: a cryptographic system that uses two pairs of keys: 1) public keys which may be disseminated widely, and 2)
private keys only for the owner. Share the public key, keep your private key secret! Used to encrypt/ decrypt messages.


Lecture 2: what is the Internet and how does it work?


The Advanced Research Projects Agency Network (ARPANET) was an early packet-switching network and the first network to
implement the TCP/IP protocol. It was created to make it easier for people to access computers and to have a more effective
communication method for the military as a response to Sputnik I (1957). Also for the protection of critical infrastructure. ARPA's goal
was to link different computers together, both to increase overall computer power and to decentralise information storage. As the
network development progressed, protocols for inter-networking were developed by which multiple separate networks could be joined
into a network of networks. ARPANET has three aspects:
1. Formulating technological problems and solutions
2. Sense of relevance of community of users
3. Open architecture of system, so that anyone can build on this


Architecture and rst steps
- Packet switching versus circuit switching (Leonard Kleinrock)
- Joseph Licklider envisioned a network in three ways:
1. Combination of hardware and software
2. Interaction between man and machine
3. Network of people (everyone can bring their expertise to the table)
- 1965: packet switching used for first message between two computers

‘Long’ distance connections: End of 60’s, most of the technology had been invented, but no centralisation — 1969: first link between
UCLA and SRI. They tried to send a message, this message came to be “LO” (they tried to say login, but the system crashed).


Mainstream use of Internet
- 1991: First webpage (CERN) — 1993: Mosaic, first popular browser, UN/US websites
- Cambridge develops webcam for critical process supervision as early as in 1991 (coffee machine)
- Hotmail starts in 1996, Google starts in 1998
Further developments and WWW:
- 1983: later on, they started implementing TCP/IP — 1984: public introduction of cyberspace
- 1989: Tim Berners-Lee proposed the World Wide Web

2




fi

, Leiden University


Social media and mobile internet: 2004: Facebook, beginning of social media — 2006: Twitter — 2007: iPhone — 2008: First Android


So how does it work?
- Packets of information
- Transmitting packets via various routes
- TCP/IP model

Advantages and disadvantages:

Pros Cons

Faster services Privacy

Connectivity Accumulation of data

Availability of information Dark Web



TCP/IP model has different layers. They work together to send the message:


1) Link layer 2) Internet layer 3) Transport layer 4) Application layer

Encode information Router to router pathfinder: Speed Networked applications, e.g.
the packages goes through the World Wide Web
different cables

Local data transmission Best guess approach: which Delivery check Server/client communication
general direction are you
going — send a package into a
general direction and later on
look at the specifics

Order of data transmission: More specific as you move Window size Application protocol
what data is send first? along different hops

CSMA/CD: want to avoid that Infrastructure problems Matching limitations of
all computers talk at the same network + net-neutrality
time — it makes sure that
when you send a package the
other person is not using the
same line to send a package as
well (packages don’t collide)

Covering a single hop Trade-off: packages start small
and then you can send a
bigger one

e.g.: e.g.: e.g.: e.g.: HTTP, IMAP



Case study: Cambridge Analytica was a British political consulting firm which combined misappropriation of digital assets, data
mining, data brokerage, and data analysis with strategic communication during the electoral processes. The Facebook–Cambridge
Analytica data scandal was a major political scandal in early 2018 when it was revealed that Cambridge Analytica had harvested the
personal data of millions of people's Facebook profiles without their consent and used it for political advertising purposes.
- We made Brexit/ Trump happen
- Targeted advertising
- Facebook personality test
- Data of 50,000,000 users



3

, Leiden University


The case in short:


Facebook insisted that
Cambridge was not a
data breach, because it
routinely allows
researchers to have
access to user data for
academic purposes and
users consent to this. NB:
stealing someone’s data
is copying the data.


History
- David Stillwell & Michal Kosinski
- University of Cambridge Psychometrics Centre
- MyPersonality project
- Aleksandr Kogan based his work on Stillwel and Kosinski
- ThisIsYourDigitalLife-app


Personality
- Big five personality traits: OCEAN
1. Openness to new experiences
2. Conscientiousness
3. Extraversion
4. Agreeableness
5. Neuroticism


After data collection
- Machine learning
• Using computers to detect patterns in data
- For example weather predictions, possible risks or mapping spreading of
diseases
• Use these patterns to create algorithms
• Algorithms to make predictions on ‘new’ data
• Training and testing the algorithm
- Divide data in ‘training data’ and ‘test data’ to assess the quality of
algorithm
- Creating algorithms to predict
• Demographics, personality, interests, etc.
- More data collection and algorithm improvement/ extension

Consequences
- Anything you do online is tracked, collected and stored
- Just because you don’t actively share data, doesn’t mean your friends don’t either
- Algorithms allow for prediction of ‘hidden’ information
- Targeted advertising, but who knows?
- How much would you charge for your data?
- What about future technology that is applied to current data?


What happened to Cambridge Analytica?
- Public outcry over company’s action lead to the shut down in May 2018
- Emerdata ltd
- Data Propria (US 2020 elections) — but where is the data now?


4

The benefits of buying summaries with Stuvia:

Guaranteed quality through customer reviews

Guaranteed quality through customer reviews

Stuvia customers have reviewed more than 700,000 summaries. This how you know that you are buying the best documents.

Quick and easy check-out

Quick and easy check-out

You can quickly pay through credit card or Stuvia-credit for the summaries. There is no membership needed.

Focus on what matters

Focus on what matters

Your fellow students write the study notes themselves, which is why the documents are always reliable and up-to-date. This ensures you quickly get to the core!

Frequently asked questions

What do I get when I buy this document?

You get a PDF, available immediately after your purchase. The purchased document is accessible anytime, anywhere and indefinitely through your profile.

Satisfaction guarantee: how does it work?

Our satisfaction guarantee ensures that you always find a study document that suits you well. You fill out a form, and our customer service team takes care of the rest.

Who am I buying these notes from?

Stuvia is a marketplace, so you are not buying this document from us, but from seller summariesforyou. Stuvia facilitates payment to the seller.

Will I be stuck with a subscription?

No, you only buy these notes for $10.98. You're not tied to anything after your purchase.

Can Stuvia be trusted?

4.6 stars on Google & Trustpilot (+1000 reviews)

67096 documents were sold in the last 30 days

Founded in 2010, the go-to place to buy study notes for 14 years now

Start selling
$10.98  3x  sold
  • (0)
  Add to cart