סילבוס הקורס תורת המשחקים האלגוריתמית - תשע"ט, פקולטה למדעים מדויקים, אוניברסיטת ת"א

שנה"ל תשע"ט

תורת המשחקים האלגוריתמית
Algorithmic Game Theory

0368-4483

מדעים מדויקים

קבוצה 01

סמ' ב'	1400-1700	'ד	007	שיעור ות	פרופ פלדמן מיכל

D:\Inetpub\shared\yedion\syllabus\03\2018\0368\0368448301_desc.txt סילבוס מקוצר Syllabus (tentative) Introduction: games, mechanism design, inefficiency of equilibrium and equilibrium computation Nash equilibrium and Nash’s theorem Zero-sum games: normal form and extensive form, minmax theorem, Yao’s principle Congestion games and potential games, pure NE existence and computation, best-response dynamics Inefficiency of equilibria: price of anarchy, price of stability, smoothness framework (extension to correlated equilibrium and regret minimization) Mechanism design basics: single-item auctions, Myerson’s lemma Algorithmic mechanism design: Multi-unit auctions: computation and communication VCG mechanisms Market models, equilibium, Welfare theorems, computational aspects Course Requirements Class attendance is mandatory. Scribe notes (latex template, latex tutorial) Problem sets: 2-3 problem sets will be given during the semeter. You should submit them in pairs. Final exam. Course description Algorithmic Game Theory Instructor: Prof. Michal Feldman Time & Place: Wednesday, 2-5pm (place TBA) Prerequisites: probability theory, algorithms, complexity Tentative list of topics: Introduction to algorithms and games Two-player zero-sum games (Minmax theorem) Regret minimization and correlated equilibrium Nash equilibrium Mixed equilibrium and Nash theorem Pure equilibrium Equilibrium existence Congestion games Quality of equilibrium: price of anarchy and smoothness Social choice and Mechanism Design Introduction to social choice Mechanism design without money (and approximation) Social welfare maximization (VCG) Combinatorial auctions Revenue maximization (optimal mechanisms) Markets and pricing Walrasian equilibrium First and second welfare theorems Ascending price auctions Course requirements and grading: Problem sets (possibly including grading) Final project (either a research project or a survey) – max 10 pages (possibly including presentation) Scribe notes Some references Nisan/Roughgarden/Tardos/Vazirani (eds), Algorithmic Game Theory, Cambridge University, 2007. http://www.cambridge.org/journals/nisan/downloads/Nisan_Non-printable.pdf Shoham and Leyton-Browm, Multiagent systems, Cambridge, 2008. http://www.masfoundations.org/ Surveys: Roughgarden, Algorithmic game theory (2012), http://theory.stanford.edu/~tim/papers/cacm.pdf Roughgarden, An algorithmic game theory primer (2008) http://theory.stanford.edu/~tim/papers/tcs08.pdf Shoham, Communications of the ACM, Computer Science and Game Theory, http://robotics.stanford.edu/~shoham/www%20papers/CSGT-CACM080417.pdf Halpern. Computer science and game theory: a brief survey http://www.cs.cornell.edu/home/halpern/papers/csgt.pdf

ש"ס: 3.0

סילבוס מקוצר

Syllabus (tentative)

Introduction: games, mechanism design, inefficiency of equilibrium and equilibrium computation
Nash equilibrium and Nash’s theorem
Zero-sum games: normal form and extensive form, minmax theorem, Yao’s principle
Congestion games and potential games, pure NE existence and computation, best-response dynamics
Inefficiency of equilibria: price of anarchy, price of stability, smoothness framework (extension to correlated equilibrium and regret minimization)
Mechanism design basics: single-item auctions, Myerson’s lemma
Algorithmic mechanism design: Multi-unit auctions: computation and communication
VCG mechanisms
Market models, equilibium, Welfare theorems, computational aspects

Course Requirements

Class attendance is mandatory.
Scribe notes (latex template, latex tutorial)
Problem sets: 2-3 problem sets will be given during the semeter. You should submit them in pairs.
Final exam.

Course description

Algorithmic Game Theory

Instructor: Prof. Michal Feldman

Time & Place: Wednesday, 2-5pm (place TBA)

Prerequisites: probability theory, algorithms, complexity

Tentative list of topics:

Introduction to algorithms and games

Two-player zero-sum games (Minmax theorem)

Regret minimization and correlated equilibrium

Nash equilibrium

Mixed equilibrium and Nash theorem

Pure equilibrium

Equilibrium existence

Congestion games

Quality of equilibrium: price of anarchy and smoothness

Social choice and Mechanism Design

Introduction to social choice

Mechanism design without money (and approximation)

Social welfare maximization (VCG)

Combinatorial auctions

Revenue maximization (optimal mechanisms)

Markets and pricing

Walrasian equilibrium

First and second welfare theorems

Ascending price auctions

Course requirements and grading:

Problem sets (possibly including grading)

Final project (either a research project or a survey) – max 10 pages (possibly including presentation)

Scribe notes

Some references

Nisan/Roughgarden/Tardos/Vazirani (eds), Algorithmic Game Theory, Cambridge University, 2007. http://www.cambridge.org/journals/nisan/downloads/Nisan_Non-printable.pdf
Shoham and Leyton-Browm, Multiagent systems, Cambridge, 2008. http://www.masfoundations.org/
Surveys:
- Roughgarden, Algorithmic game theory (2012), http://theory.stanford.edu/~tim/papers/cacm.pdf

Roughgarden, An algorithmic game theory primer (2008) http://theory.stanford.edu/~tim/papers/tcs08.pdf

Shoham, Communications of the ACM, Computer Science and Game Theory, http://robotics.stanford.edu/~shoham/www%20papers/CSGT-CACM080417.pdf

Halpern. Computer science and game theory: a brief survey
http://www.cs.cornell.edu/home/halpern/papers/csgt.pdf

להצהרת הנגישות