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A Driving Simulator Based on Video Game Technology

Mikael Lebram
University of Skövde, Sweden

Henrik Engström
University of Skövde, Sweden

Henrik Gustavsson
University of Skövde, Sweden

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Ingår i: SIGRAD 2006. The Annual SIGRAD Conference; Special Theme: Computer Games

Linköping Electronic Conference Proceedings 19:8, s. 39–43

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Publicerad: 2006-11-22

ISBN:

ISSN: 1650-3686 (tryckt), 1650-3740 (online)

Abstract

This paper presents the design and architecture of a mid-range driving simulator developed at the University of Sk¨ovde. The aim is to use the simulator as a platform for studies of serious games. The usage of video game technology and software has been a central design principle. The core of the simulator is a complete car surrounded by seven screens. Each screen is handled by a standard PC; typically used for computer games; and the projection on the screens is handled by budget LCD-projectors. The use of consumer electronics; standard game technology and limited motion feedback makes this simulator relatively inexpensive. In addition; the architecture is scalable and allows for using commercial video games in the simulator.

Observations from a set of experiments conducted in the simulator are presented in this paper. In these experiments driving school students were instructed to freely explore a driving game specifically designed for the simulator platform. The result shows that the level of realism is sufficient and that the entertainment value was considered to be high. This opens the possibilities to employ and use driving simulators for a wider set of applications. Our current research focuses on its use with serious games for traffic education.

CR Categories: I.3.2 [Computing Methodologies]: Computer Graphics—Graphics Systems; I.6.3 [Computing Methodologies]: Simulation and Modeling—Applications

Nyckelord

Driving simulator; virtual reality; computer games; serious games

Referenser

AGARD; 1988. Motion cues in flight simulation and simulator induced sickness. Advisory Group for Aerospace Research & Development; Conference proceedings.

ATARI; 2006. Atari inc. Retrieved 2006-9-23; from http://www.atari.com.

BERTIN; R.; GUILLOT; A.; COLLET; C.; VIENNE; F.; ESPI´E ; S.; AND GRAF; W.; 2004. Objective measurement of simulator sickness and the role of visual-vestibular conflict situations: a study with vestibular-loss (a-reflexive) subjects. Neuroscience; San Diego; California.

BJ¨O RKLUND; P.; 2006. Chief technical officer SimBin development team AB. Personal Communication.

BLACKMAN; S. 2005. Serious games...and less! SIGGRAPH Computer Graphics 39; 1; 12–16.

CARRARO; G. U.; CORTES; M.; EDMARK; J. T.; AND ENSOR; J. R. 1998. The peloton bicycling simulator. In VRML ’98: Proceedings of the third symposium on Virtual reality modeling language; ACM Press; New York; NY; USA; 63–70.

CRUZ-NEIRA; C.; SANDIN; D. J.; DEFANTI; T. A.; KENYON; R. V.; AND HART; J. C. 1992. The cave: audio visual experience automatic virtual environment. Commun. ACM 35; 6; 64–72.

DE WAARD; D.; STEYVERS; F.; AND BROOKHUIS; K. 2005. How much visual road information is needed to drive safely and comfortably? Safety Science 42; 7; 639–655.

ESA; 2005. Entertainment software association - game player data. Retrieved 2005-04-13; from http://www.theesa.com/facts/gamer data.php.

GODLEY; S. T.; AND FILDES; B. N. Driving simulator validation for speed research. Accident analysis & prevention 34.

GREEN; P.; 2005. How driving simulator data quality can be improved. DSC 2005; Orlando.

GUITAMMER; 2005. Buttkicker. Retrieved 2006-10-02; from http://thebuttkicker.com/.

HARM; D.; 2002. Motion sickness neurophysiology; physiological correlates; and treatment. in Handbook of Virtual Environments; Stanney (edt.).

HUANG; A.; AND CHIHSIUH; C. 2003. A low-cost driving simulator for full vehicle dynamics simulation. IEEE Transactions on Vehicular Technology 52; 1; 162–172.

INRETS; 2006. Driving simulators. Retrieved 2006-10-02; from http://www.inrets.fr/ur/sara/Pg simus e.html.

ITS; 2006. Leeds advanced driving simulator. Retrieved 2006-10- 02; from http://www.its.leeds.ac.uk/facilities/lads/.

KUHL; J.; EVANS; D.; PAPELIS; Y.; ROMANO; R.; AND WATSON; G. 1995. The iowa driving simulator: An immersive research environment. Computer 28; 7; 35–41.

LOPICCOLO; P. 2004. Serious games. Computer Graphics World 27; 2.

MINE; M. R. 1995. Virtual environment interaction techniques. Tech. rep.; Chapel Hill; NC; USA. ¨O

STLUND; J.; NILSSON; L.; T¨ORNROS; J.; AND FORSMAN; A.; 2006. Effects of cognitive and visual load in real and simulated driving. VTI rapport 533A-2006; Swedish Road and Transport Research Institute (VTI); Link¨oping; Sweden.

PETERS; B.; AND ¨O STLUND; J.; 2005. Joystick controlled driving for drivers with disabilities. VTI rapport 506A-2005; Swedish Road and Transport Research Institute (VTI); Link¨oping; Sweden.

ROLFE; J.; AND STAPLES; K.; Eds. 1988. Flight Simulation. Cambridge University Press.

SIMBIN; 2006. Simbin development team. Retrieved 2006-9-23; from http://www.simbin.se.

SSI; 2006. Simulator systems international. Retrieved 2006-10-02; from http://www.simulatorsystems.com.

ZYDA; M. 2005. From visual simulation to virtual reality to games. Computer 38; 9; 25–32.

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