Web Science Course 2014 - Lecture: Social Networks - * Dr. Stefan Siersdorfer 1 * Figures from Easley and Kleinberg 2010 (http://www.cs.cornell.edu/home/kleinber/networks-book/)
Web Science Course 2014 - Lecture : Social Networks - *
Feb 16, 2016
Web Science Course 2014 - Lecture : Social Networks - *. Dr. Stefan Siersdorfer. * Figures from Easley and Kleinberg 2010 ( http://www.cs.cornell.edu/home/kleinber/networks-book /). What is a Social Network ? . Entities ( persons , companies , organizations ) - PowerPoint PPT Presentation
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Web Science Course 2014- Lecture: Social Networks - *
Dr. Stefan Siersdorfer
* Figures from Easley and Kleinberg 2010 (http://www.cs.cornell.edu/home/kleinber/networks-book/)
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What is a Social Network ?
• Entities (persons, companies, organizations)• Connections between entities (friendship,
collaboration)
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Examples of Social Networks
• „Real World“ relationships between people (friends, colleagues, relatives, …)
• Online Networks: Facebook, Flickr, Twitter …• Trading Networks between companies or
countries• Collaborations and rivalries beween persons,
organizations, and countries• Extension: Technological Networks (WWW, Road
Networks, Power Grids, ...)
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Example 1: Karate Club
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Example 2: Communication in Organization (HP)
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Example 3: Trade between Countries
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Example 4: Medieval Trading in Europe
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Example 5: World Wide Web (Blogs on Presidental Election in 2004)
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Research Questions
• How do social networks form and how can we model the structure of Social Networks?
• How does information and innovation propagate in Social Networks?
• How do diseases propagate in Social Networks?• How does trade and buisiness work in Social
Networks? • How to detect communities within Social Networks? • ….
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Topics of this Lecture
• Homophily and Segregation• Friends and Foes• The Small World Phenomenon
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PART I: Homophily and Segregation
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Properties of Nodes and Homophily
• Properties: age, gender, education, location, profession, political opinion, …
• Homophily: Similar nodes are more likely to form links.
• Reasons for homophily: – Selection of similar persons as contacts– Becoming more similar to contacts
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Example: School Network
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Segregation Example: Chicago
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Segregation: Schelling Model (1)
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Segregation: Schelling Model (2)
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Segregation: Schelling Model (3)
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Segregation: Schelling Model (4)
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Segregation: Schelling Model (5)
Vacant slot
Example: Linear Schelling (-like) Model
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PART II: Friends and Foes
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Positive and Negative RelationshipsNegative Relationships: – “Real Life”: people you don’t like, rivals, enemies– Online: Slashdot, Epinions– Economy: competitors– Countries: enemies
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Structural BalanceBalanced Unbalanced
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Structural Balance: Global Consequences
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Weak Structural Balance• In addition to triangles in Structural Balance: – Allow: triangles with 3 negative edges
• Global consequences:
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Further Generalizations
• Incomplete networks: Structural Balance iff can be extended to complete balanced network by adding signed edges
• Approximate Balanced Networks: Balance property can be violated for fraction of triangles
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International Relations (1)
USRR
USA
Pakistan
India
China
North Vietnam
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+-
----
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International Relations (2)
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PART III: The Small World Phenomenon
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Small World and „Six Degrees of Separation“
• Small Word Phenomenon: Paths connecting two people in a social network are short(Pop Culture: „Six Degrees of Separation“)
• Milgram Experiment (1960s): – Ask set of „starters“ to forward a letter to „target“
person– „starters“ are given some information, e.g. address,
occupation– Rule: forward letter to person‘s you know on a first-
name basis
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Milgram Experiment: Results
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Small Wold: MS Instant Messenger
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Modelling the Small World Phenomenon (1)
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Model (2): Watts-Strogatz
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Model (2): Watts-Strogatz contd.
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Decentralized Search
• Watts-Strogatz model does not explain feasibility of decentralized search
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Modelling Decentralized Search• Idea: probability of random edge beteen
nodes v and w decay with distance: ~ d(v,w)q
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What‘s the best q for decentralized search?
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Decentralized Search: Explaination
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Generalization of Distance Decay: Rank Decay
Idea: probability of random edge beteen nodes v and w decay with rank of distance: ~ rank(w)p
Optimal p: -1
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Empirical Evidence: LiveJournal Experiment
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Seminar Papers
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Papers (1): Small World Phenomenon
• Jeffrey Travers, Stanley Milgram: An experimental study of the small world problem. Sociometry, 1969, 32(4): 425-443
• Jure Leskovec, Eric Horvitz: Planetary-scale views on a large instant-messaging network. WWW 2008: 915-924.
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Papers (2): Friends and Foes
• Jure Leskovec, Daniel Huttenlocher, Jon Kleinberg: Signed networks in social media. CHI 2010: 1361-1370.
• Jérôme Kunegis, Andreas Lommatzsch, Christian Bauckhage: The slashdot zoo: mining a social network with negative edges. WWW 2009: 741-750.
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