This is an archived course. A more recent version may be available at ocw.mit.edu.

Lecture Notes

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SES # TOPICS SLIDES
1

Introduction to economic, social, and communication networks

Lecture 1 (PDF - 1.0MB)
2

Graph theory and social networks

Directed and undirected graphs, paths, cycles, diameter, clustering, bipartite graphs. Applications: the web as a directed graph, graphical representation of homophily

Lecture 2 (PDF)
3-4

Branching processes and random graph models

Review of branching processes, Erdös-Renyi graphs, degree distributions, phase transitions, connectedness, and giant component. Applications: tipping, six degrees of separation, and disease transmissions

Lecture 3 (PDF)

Lecture 4 (PDF)

5-7

Rich get richer phenomena, power laws, and small worlds

Preferential attachment, degree distributions, generalized random graphs, and clustering. Applications: firm size distributions, link analysis and web search, PageRank, decentralized search, and navigation

Lecture 5 (PDF)

Lecture 6 (PDF)

Lecture 7 (PDF)

8

Epidemics and diffusion through networks

SIR (susceptible, infected, removed) and SIS (susceptible, infected susceptible) models of diffusion. Applications: spread of information and disease, and genetic inheritance

Lecture 8 (PDF)
9-11

Introduction to game theory

Games, strategies, payoffs, extensive and normal forms, and Nash equilibrium. Applications: tragedy of the commons and coordination games

Lecture 9 (PDF)

Lecture 10 (PDF)

Lecture 11 (PDF)

12

Applications of game theory to networks

Modeling network traffic, strategic network formation, negative externalities, Braess' paradox, and potential games. Application: congestion tax in London

Lecture 12 (PDF)
13-14

Evolution, learning, and myopia vs. rationality

Evolutionary stable strategies, fictitious play, emergence of Nash equilibrium from rules of thumb, limits of myopic behavior. Application: rules of thumb in traffic

Lectures 13 and 14 (PDF)
15-16

Dynamic and repeated games, and cooperation and trust in networks

Subgame perfect Nash equilibrium, repeated games, prisoners' dilemma, repeated games over networks. Application: emergence of cooperation in social networks

Lecture 15 (PDF)

Lecture 16 (PDF)

17-18

Network effects, innovation, tipping and contagion

Positive externalities, strategic complements, path dependence, diffusion of innovation, and tipping in technology, financial, and product markets. Application: the rise of Microsoft and contagion phenomena

Lectures 17 and 18 (PDF)
19-21

Games of incomplete information

Bayes rule, Bayesian Nash equilibria, first and second price auctions, and introduction to social learning. Applications: spectrum auctions, market for lemons, and keyword-based advertising

Lectures 19 to 21 (PDF)
22-23

Social learning in networks

Bayesian learning, benefits of copying, herd behavior, informational cascades. Applications: consumer behavior and financial markets

Lectures 22 and 23 (PDF)
24

Decisions in groups

Decision making in organizations and societies, social choice, Condorcet jury theorem, and political economy. Application: committee decisions

Lecture 24 (PDF)