MAS348 Game Theory
|Semester 1, 2018/19||10 Credits|
|Lecturer:||Dr Moty Katzman||Home page||Reading List|
|Teaching Methods||Assessment||Full Syllabus|
The module will give students an opportunity to apply previously acquired mathematical skills to the study of Game Theory and to some of its applications in Economics.
Prerequisites: MAS211 (Advanced Calculus and Linear Algebra)
No other modules have this module as a prerequisite.
- Formal definition of games both in strategic for and in sequential form.
- Solution of games by elimination of dominated strategies.
- Pure and mixed Nash equilibria of games.
- Nash Bargaining.
- Application of game theoretical techniques to solve real-life problems, e.g., in Economics.
- Solution of sequential games using backward induction.
- Translation games in normal form to sequential form and viceversa applying the concept of information sets and sub-game perfect Nash equilibria.
- Repeated games and their Nash equilibria.
- Bayesian games and their equilibria.
There will be two formal lectures per week, which will involve the formulation of new theory and worked examples. Students will work through set exercises, and also submit homework for marking, although this will not be part of the formal assessment.
20 lectures, no tutorials
One 2.5 hour exam.
Cooperative games- pure strategies (3 lectures)
Nash equilibria in Economics: monopolies, duopolies and oligopolies (2 lectures)
Cooperative games- mixed strategies (3 lectures)
Sequential games (5 lectures)
Repeated games (4 lectures)
Bayesian games (3 lectures)
|B||K. Binmore||Playing for Real: Game Theory||519.3 (B)||Blackwells||Amazon|
|B||M. J. Osborne||An introduction to game theory||519.3 (O)||Blackwells||Amazon|
(A = essential, B = recommended, C = background.)
Most books on reading lists should also be available from the Blackwells shop at Jessop West.