Myounghoon Jeon
Maryam FakhrHosseini
ABSTRACT
Vehicle automation is becoming more widespread. As automation increases, new opportunities and challenges have emerged. Given that vision is heavily taxed in driving, much research has been conducted on an auditory channel. To identify new design spaces and solutions, we have organized successive workshops and tutorial at International Conference on Auditory Display (ICAD) and AutoUI Conference for several years. In this report, we address novel opportunities and directions of auditory interactions in automated vehicles that we have discussed in the workshop and tutorial to design better driver user experience and secure road safety.
- Hammerschmidt, J., & Hermann, T. 2017. EcoSonic: Auditory peripheral monitoring of fuel consumption for fuel-efficient driving. Displays, 47, 40--50.Google Scholar
Cross Ref
- Retrieved July 11, 2017 from https://www.nhtsa.gov/sites/nhtsa.dot.gov/files/documents/quietcar_finalrule_11142016.pdf.Google Scholar
- Japan Automobile Standards Internationalization Center. 2009. A study on approach warning systems for hybrid vehicle in motor mode." (No. GRB-49-10). Retrieved July 11, 2017 from https://www.unece.org/fileadmin/DAM/trans/doc/2009/wp29grb/ECE-TRANS-WP29-GRB-49-inf10e.pdfGoogle Scholar
- Jeon et al. 2015. Report on the in-vehicle auditory interactions workshop: Taxonomy, challenges, and approaches. In Adjunct Proceedings of the Workshop on Practical Experiences in Measuring and Modeling Drivers and Driver-Vehicle Interactions at the 7th AutomotiveUI'15.Google Scholar
- Jeon, M., FakhrHosseini, S. M., Landry, S., & Sterkenburg, J. 2016. Tutorial on "in-vehicle auditory interactions: Design and application of auditory displays, speech, sonification, & music". In Proceedings of the 8th AutomotiveUI'16. Google ScholarDigital Library
- Kim, D. S., Emerson, R. W., Naghshineh, K., Pliskow, J., & Myers, K. 2012. Impact of adding artificially generated alert sound to hybrid electric vehicles on their detectability by pedestrians who are blind. Journal of Rehabilitation Research and Development, 49(3), 381--394.Google ScholarCross Ref
- Meschtscherjakov, A., Wilfinger, D., Scherndl, T., & Tscheligi, M. 2009. Acceptance of future persuasive in-car interfaces towards a more economic driving behavior. In Proceedings of the 1st AutomotiveUI Conference. ACM. Google ScholarDigital Library
- National Highway Traffic Safety Administration. 2013. Preliminary statement of policy concerning automated vehicles. Washington, DC, 1--14.Google Scholar
- Nees, A. M. 2017. Exchanges of authority in automated vehicles: Display needs for handover and takeover requests. In Adjunct proceedings of the workshop on new opportunities for auditory interactions in highly automated vehicles at ICAD2017.Google Scholar
- Rogers, Y., Sharp, H., & Preece, J. 2011. Interaction design: beyond human-computer interaction. John Wiley & Sons. Google ScholarDigital Library
- Wang, C., Terken, J., Hu, J., & Rauterberg, M. 2016. Likes and dislikes on the road: A social feedback system for improving driving behavior. In Proceedings of the 8th AutomotiveUI Conference. ACM. Google ScholarDigital Library
- Wickens, C.D., 2002. Multiple resources and performance prediction. Theoretical Issues in Ergonomics Science 3 (2), 159--177.Google ScholarCross Ref
Index Terms
Blueprint of the Auditory Interactions in Automated Vehicles: Report on the Workshop and Tutorial
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