Abstract
Shift-by-wire gear shifters are increasing the opportunities for individualization of functions and design. Though, greater variations can make gear shifters inefficient and error prone. Research regarding these aspects is still lacking. The aim of this study was to investigate how different gear shifter concepts were perceived in terms of Perceived Ease-of-Use and Task success, depending on their level of complexity, the shape of the shifter and stability of the shifter pattern. An experimental study was conducted with participants using six types of gear shifters on three levels of complexity. Results showed that the Monostable joystick received the lowest Perceived Ease-of-Use scores. Furthermore, the Rotary Toggle shifter with monostable function, had lowest Task success, which was supposed to be a result of e.g. unfamiliar design.
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References
Lindner, M., Tille, T.: Design of highly integrated mechatronic gear selector levers for automotive shift-by-wire systems. IEEE/ASME Trans. Mechatron. 15(6), 961–968 (2010)
National Highway Traffic Security Administration: DOT NHTSA ODI Document. INCLA-EA16002-8352 (2016). https://www.autosafety.org/wp-content/uploads/2016/06/EA16-002-Chrysler-Rollaway-Closing-Resume.pdf
Gold, C., Damböck, D., Lorenz, L., Bengler, K.: “Take over!” How long does it take to get the driver back into the loop? In: Proceedings of the Human Factors and Ergonomics Society Annual Meeting, vol. 57, no. 1, pp. 1938–1942. SAGE Publications, Los Angeles, September 2013
National Highway Traffic Safety Administration: Federal automated vehicles policy: accelerating the next revolution in roadway safety. US Department of Transportation (2016)
Naujoks, F., Mai, C., Neukum, A.: The effect of urgency of take-over requests during highly automated driving under distraction conditions. In: Advances in Human Aspects of Transportation, vol. 7, Part I, p. 431 (2014)
Rasmussen, J.: Skills, rules, and knowledge; signals, signs, and symbols, and other distinctions in human performance models. IEEE Trans. Syst. Man Cybern. 3, 257–266 (1983)
Sanders, M.S., McCormick, E.J.: Human Factors in Engineering and Design. McGraw-Hill Book Company, New York (1992)
Jordan, P.W.: An Introduction to Usability. CRC Press, Boca Raton (1998)
Wickens, C.D., Hollands, J.G., Banbury, S., Parasuraman, R.: Engineering Psychology & Human Performance. Psychology Press, Hove (2015)
Ivergard, T., Hunt, B. (eds.): Handbook of Control Room Design and Ergonomics: A Perspective for the Future. CRC Press, Boca Raton (2008)
Walker, G.H., Stanton, N.A., Young, M.S.: Where is computing driving cars? Int. J. Hum.-Comput. Interact. 13(2), 203–229 (2001)
Bladfält, S.L., Grane, C., Friström, J.: Field study investigating gear shifter usability in car rental scenario. In: NES2016 - Ergonomics in Theory and Practice: Proceedings of 48th Annual Conference of Nordic Ergonomics and Human Factors Society, vol. 48, pp. 201–205 (2016)
Grane, C., Bladfält, S.L., Bengtsson, P.: Usability of gear shifter concepts – a screening study comparing effects of shape, pattern and haptic feedback. Unpublished manuscript (2019)
Norman, D.A.: The Design of Everyday Things: Revised and Expanded Edition. Basic Books (AZ), New York (2013)
Norman, D.A.: The Psychology of Everyday Things. Basic Books, New York (1988)
Bladfält, S.L., Grane, C., Bengtsson, P.: Comparison of usability between gear shifters with varied visual and haptic pattern and complexity. Unpublished manuscript (2019)
Bladfält, S.L., Grane, C., Bengtsson, P.: Usability evaluation of fragmented functions in monostable gear shifters. Unpublished manuscript (2019)
DaimlerChrystler AG, Research and Technology (2004). Lane change test – user guide 1.2. http://apps.usd.edu/coglab/schieber/pdf/LCT-UserGuide.pdf
Mattes, S.: The lane-change-task as a tool for driver distraction evaluation. In: Quality of Work and Products in Enterprises of the Future, p. 57 (2003)
Davis, F.D.: User acceptance of information technology: system characteristics, user perceptions and behavioural impacts. Int. J. Man Mach. Stud. 38(3), 475–487 (1993)
Chuttur, M.Y.: Overview of the technology acceptance model: origins, developments and future directions. In: Working Papers on Information Systems, vol. 9, no. 37, pp. 9–37 (2009)
Albert, W., Tullis, T.: Measuring the User Experience: Collecting, Analyzing, and Presenting Usability Metrics. Newnes, Oxford (2013)
Braun, V., Clarke, V.: Using thematic analysis in psychology. Qual. Res. Psychol. 3(2), 77–101 (2006)
Wierwille, W.W.: Demands on driver resources associated with introducing advanced technology into the vehicle. Transp. Res. Part C Emerg. Technol. 1(2), 133–142 (1993)
Acknowledgements
We would like to thank Jon Friström, the team from Kongsberg Automotive: Henrik Nilsson, Andreas Persson and Nicolas Preisig, and Per-Arne Malm and Cecilia Holtelius from Volvo Car Corporation, as well as Vinnova, for making this project possible. This presentation is part of a thesis work by Sanna Lohilahti Bladfält, Luleå University of Technology.
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Bladfält, S.L., Grane, C., Bengtsson, P. (2020). Gear Shifter Design – Lack of Dedicated Positions and the Contribution to Cognitive Load and Inattention. In: Stanton, N. (eds) Advances in Human Factors of Transportation. AHFE 2019. Advances in Intelligent Systems and Computing, vol 964. Springer, Cham. https://doi.org/10.1007/978-3-030-20503-4_44
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DOI: https://doi.org/10.1007/978-3-030-20503-4_44
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