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Route Guidance Systems: Getting it Right from the Driver's Perspective

Published online by Cambridge University Press:  21 October 2009

Gary Burnett  and
Sue Joyner
Gary Burnett
Affiliation:
(HUSAT Research Institute, Loughborough University of Technology)
Sue Joyner
Affiliation:
(HUSAT Research Institute, Loughborough University of Technology)
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Abstract

This paper presents a brief overview of current human factors research into route guidance systems. A short description of different interface styles is given and a review of two road-based studies of three existing route guidance systems is provided. A general discussion then highlights a range of issues of relevance to driver-system interfaces, drawing on results both from the studies carried out, and other research. Specific aspects addressed include the content and means of presenting route guidance information, and the potential effect of interface design on driver visual behaviour and performance.

Keywords

1. Land navigation2. Display of information3. Route guidance4. Human factors
Type
Research Article
Information
The Journal of Navigation , Volume 49 , Issue 2 , May 1996 , pp. 169 - 177
Copyright
Copyright © The Royal Institute of Navigation 1996

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References

REFERENCES

Ashby, M.Fairclough, S. H. & Parkes, A. M. (1991). A comparison of two route information systems in an urban environment. CEC DRIVE I Project V1017 (BERTIE), Report no. 47, HUSAT Research Institute.Google Scholar
Burnett, G. E. & Joyner, S. M. (1996). An assessment of moving-map and symbol-based route guidance systems. To be published in Ergonomics of Intelligent Vehicle Highway Systems, Noy, I. Y. (ed), Lawrence Erlbaum Associates Inc., New Jersey.Google Scholar
Burnett, G. E.May, A. J. & Ross, T. (1994). The prediction of the effectiveness of landmarks for use within a route guidance system. CEC DRIVE II Project V2008 (HARDIE), Report no. 15, HUSAT Research Institute.Google Scholar
Department of Transport (1989). Road Accidents Great Britain 1988: The Casualty Report. Transport Statistics Publications.Google Scholar
Dicks, L.Burnett, G. E. & Joyner, S. M. (1995). An evaluation of different types and levels of route guidance information. In Robertson, (ed.) Contemporary Ergonomics, pp. 193298, Taylor and Francis, London.Google Scholar
Ekerete, K. (1993). An evaluation of different means of visually representing distance route guidance information to the driver. BSc Ergonomics Thesis, Loughborough University of Technology.Google Scholar
Kishi, H. & Suigara, S. (1993). Human factors considerations for voice route guidance. SAE Technical Paper 930553.CrossRefGoogle Scholar
Nicolle, C. A. & Stapleton, L. J. (1995). The TELAID design guidelines handbook for usability of in-vehicle systems by drivers with special needs. CEC DRIVE II Project V2032 (TELAID) Report no. 11, HUSAT Research Institute.Google Scholar
Parkes, A. M. (1991). Data capture techniques for RTI usability evaluation. In Advanced Telematics in Road Transport, Proceedings of the DRIVE Conference, vol. 2, pp. 14401456. Amsterdam, North Holland: Elsevier Science Publishers B.V.Google Scholar
Ross, T.Nicolle, C & Brade, S. (1994). An empirical study to determine guidelines for optimum timing of route guidance instructions. CEC DRIVE II Project V2008 (HARDIE), Report no. 13, HUSAT Research Institute.Google Scholar
Ross, T.Vaughan, G.Engert, A.Peters, H.Burnett, G. E. & May, A. J. (1995). Human factors guidelines for information presentation by route guidance and navigation system. CEC DRIVE II Project V2008 (HARDIE), Report no. 19, HUSAT Research Institute.Google Scholar
Rumar, K. (1988). In-vehicle information systems. International Journal of Vehicle Design, vol. 9, (4-5), PP. 548556.Google Scholar
Southall, D. (1995). A code of practice for in-vehicle information systems. In Nav gz: Mapping and the Display of Navigation Information, Proceedings of the Conference of the Royal Institute of Navigation.Google Scholar
Ward, N. J. & Parkes, A. M. (1994). Head-Up Displays and their automotive application: an overview of human factors issues affecting safety. Accident Analysis and Prevention, vol. 26, (6), pp. 703717.CrossRefGoogle ScholarPubMed
Wierwille, W. W.Antin, J. F.Dingus, T. A. & Hulse, M. C. (1988). Visual attentional demand of an in-car navigational display system. In Gale, A. G. et al. (ed.) Vision in Vehicles II, pp. 307316. Amsterdam, North Holland: Elsevier Science Publishers B.V.Google Scholar