SODA

Modeling Epidemic Spread in Synthetic Populations - Virtual Plagues in Massively Multiplayer Online Games

Boman, Magnus and Johansson, Stefan J. (2007) Modeling Epidemic Spread in Synthetic Populations - Virtual Plagues in Massively Multiplayer Online Games. In: Third Digital Games Research Association International Conference (DiGRA 2007), 24-28 Sept 2007, Tokyo, Japan.

Full text not available from this repository.

Abstract

A virtual plague is a process in which a behavior-affecting property spreads among characters in a Massively Multiplayer Online Game (MMOG). The MMOG individuals constitute a synthetic population, and the game can be seen as a form of interactive executable model for studying disease spread, albeit of a very special kind. To a game developer maintaining an MMOG, recognizing, monitoring, and ultimately controlling a virtual plague is important, regardless of how it was initiated. The prospect of using tools, methods and theory from the field of epidemiology to do this seems natural and appealing. We will address the feasibility of such a prospect, first by considering some basic measures used in epidemiology, then by pointing out the differences between real world epidemics and virtual plagues. We also suggest directions for MMOG developer control through epidemiological modeling. Our aim is understanding the properties of virtual plagues, rather than trying to eliminate them or mitigate their effects, as would be in the case of real infectious disease.

Item Type:Conference or Workshop Item (Paper)
ID Code:2695
Deposited By:Vicki Carleson
Deposited On:25 Feb 2008
Last Modified:18 Nov 2009 16:13

Repository Staff Only: item control page