Gaming & Game Theory (1.0 Credit in Computer Technology)
FEE: $95
COMPONENT ONE:: Game Theory
INSTRUCTOR: Matthew O Jackson
SPONSOR-HOST: Stanford University; University of British Columbia
DESCRIPTION: Popularized by movies such as "A Beautiful Mind," game theory is the mathematical modeling of strategic interaction among rational (and irrational) agents. Beyond what we call `games' in common language, such as chess, poker, soccer, etc., it includes the modeling of conflict among nations, political campaigns, competition among firms, and trading behavior in markets such as the NYSE. How could you begin to model keyword auctions, and peer to peer file-sharing networks, without accounting for the incentives of the people using them? The course will provide the basics: representing games and strategies, the extensive form (which computer scientists call game trees), Bayesian games (modeling things like auctions), repeated and stochastic games, and more. We'll include a variety of examples including classic games and a few applications.
COMPONENT TWO: Serious Gaming
INSTRUCTOR: Jeroen Jansz
SPONSOR-HOST: Erasmus University Rotterdam
DESCRIPTION: Have you ever wondered how playing games can help us to train people, deal with societal challenges or raise awareness of contemporary social issues? You will learn the ins and outs of games that are designed with exactly those purposes in mind: serious games. We will define serious games and discuss the different types that have been developed. We will explain why people like to play them and what impact they may have. State of the art theories from game studies, philosophy and media psychology will be used to help you understand how serious games work and how they appeal to players. The potential impact of gaming is addressed in detail by discussing persuasive games, which aim at changing the player's attitude.
INSTRUCTOR: Matthew O Jackson
SPONSOR-HOST: Stanford University; University of British Columbia
DESCRIPTION: Popularized by movies such as "A Beautiful Mind," game theory is the mathematical modeling of strategic interaction among rational (and irrational) agents. Beyond what we call `games' in common language, such as chess, poker, soccer, etc., it includes the modeling of conflict among nations, political campaigns, competition among firms, and trading behavior in markets such as the NYSE. How could you begin to model keyword auctions, and peer to peer file-sharing networks, without accounting for the incentives of the people using them? The course will provide the basics: representing games and strategies, the extensive form (which computer scientists call game trees), Bayesian games (modeling things like auctions), repeated and stochastic games, and more. We'll include a variety of examples including classic games and a few applications.
COMPONENT TWO: Serious Gaming
INSTRUCTOR: Jeroen Jansz
SPONSOR-HOST: Erasmus University Rotterdam
DESCRIPTION: Have you ever wondered how playing games can help us to train people, deal with societal challenges or raise awareness of contemporary social issues? You will learn the ins and outs of games that are designed with exactly those purposes in mind: serious games. We will define serious games and discuss the different types that have been developed. We will explain why people like to play them and what impact they may have. State of the art theories from game studies, philosophy and media psychology will be used to help you understand how serious games work and how they appeal to players. The potential impact of gaming is addressed in detail by discussing persuasive games, which aim at changing the player's attitude.