The Impact of Internal Distraction on Driver Visual Behavior
Authors: Harbluk, J. L., Noy, Y. I. (Transport Canada, Ottawa, ON, Canada), & Eizenman, M. (University of Toronto, Toronto, ON, Canada).
The Influence of the Use of Mobile Phones on Driver Situation Awareness
Authors: Parkes, A. (Transport Research Laboratory, Crowthorne, England) & Hooijmeijer, V. (Verkeersadviesburo Diepens en Okkema, Eindhoven, The Netherlands).
Issues in the Evaluation of Driver Distraction Associated with In-Vehicle Information and Telecommunications Systems
Authors: Tijerina, L. (Transportation Research Center Inc.).
Individual Differences and In-Vehicle Distraction While Driving: A Test Track Study and Psychometric Evaluation
Authors: Tijerina, L., Parmer, E. B. (Transportation Research Center Inc.), & Goodman, M. J. (National Highway Traffic Safety Administration).
Association Between Cellular-Telephone Calls and Motor Vehicle Collisions
Authors: Redelmeier, D. A. & Tibshirani, R. J..
Measuring Driver Visual Distraction with a Peripheral Detection Task
Authors: Olsson, S. & Burns, P. C. (Department of Education & Psychology, Linkoping University, Sweden; Volvo Technological Development Corporation, Gothenburg, Sweden).
A Technical Platform for Driver Inattention Research
Authors: Victor, T. (Volvo Technological Development Corporation, Human Systems Integration, Göteborg, Sweden.) & The Graduate School for Human Machine Interaction, (Division of Industrial Ergonomics Dept of Mechanical Engineering Linköping Institute of Technology, Sweden).
The Development of a Design Evaluation Tool and Model of Attention Demand
Authors: Hankey, J. M., Dingus, T. A., Hanowski, R. J., Wierwille, W. W. (Virginia Tech Transportation Institute), Monk, C. A. (Science Applications Internationl Corporation), & Moyer, M. J. (Federal Highway Administration).
Divided Attention Ability of Young and Older Drivers
Authors: Mourant, R. R., Tsai, F., Al-Shihabi, T., & Jaeger, B. K. (Virtual Environments Laboratory, Department of Mechanical, Industrial and Manufacturing Engineering, Northeastern University).
Driver Workload Assessment of Route Guidance System Destination Entry While Driving: A Test Track Study
Authors: Tijerina, L., Parmer, E. B. (Transportation Research Center Inc., East Liberty, OH), & Goodman, M. J. (National Highway Traffic Safety Administration, NHTSA, Washington, D.C.).
Speech-based Interaction with In-vehicle Computers: The Effect of Speech-based E-mail on Drivers’ Attention to the Roadway
Authors: Lee, J. D., Caven, B., Haake, S., & Brown, T. L. (Cognitive Systems Laboratory, University of Iowa, Department of Industrial Engineering, Iowa City, Iowa).
Integration of Driver In-Vehicle ITS Information
Authors: Kantowitz, B. H. (Battelle Human Factors Transportation Center, Seattle, Washington) & Moyer, M. J. (Federal Highway Administration, Turner Fairbank Highway Research Center, McLean, Virginia).
E-Distraction: The Challenges for Safe and Usable Internet Services in Vehicles
Authors: Burns, P.C. (Volvo Technological Development Corporation, Gothenburg, Sweden) & Lansdown, T.C. (Transportation Research Laboratory, Crowthorne, Berkshire, U.K.).
Development of Safety Principles for In-Vehicle Information and Communication Systems
Authors: Stevens, A. (Transportation Research Laboratory, Crowthrone Berkshire, U.K.) & Rai, G. (Department of Environment, Transport and the Regions, London, U.K.).
This paper describes the development of safety principles for in-vehicle information and communication systems. From the early 1990s, the UK Department of Transport (DOT) recognised that the development of internationally agreed tests to limit the distraction potential of in-vehicle systems would take many years. They therefore initiated the development of recommendations that could be applied in the interim. The UK work resulted in a "Code" which was also taken up by the European Conference of Ministers of Transport (ECMT). Subsequently the European Commission (EC) sponsored the development of a set of principles that cover many of the same issues. Meanwhile, although some progress in research and international standards has taken place, there remains the issue of how to assess in-vehicle safety or even the extent to which a specific in-vehicle information system supports the safety and effectiveness principles of the EC. One approach to assessment, using a Checklist, is described in this paper. It allows experts to make a rapid and structured assessment of the key features of an in-vehicle system and highlights where specific driver distraction studies would be most beneficial.
Can Collision Warning Systems Mitigate Distraction Due to In-Vehicle Devices?
Authors: John D. Lee, Michelle L. Ries, Daniel V. McGehee, and Timothy L. Brown (Cognitive Systems Laboratory, Department of Industrial Engineering, University of Iowa) and Michael Perel (National Highway Traffic Safety Administration)
Proposed Driver Workload Metrics and Methods Project
Authors: Crash Avoidance Metrics Partnership (CAMP)
In-Vehicle Communication and Driving: An Attempt to Overcome their Interference
Authors: Mark Vollrath and Ingo Totzke (Center for Traffic Sciences, IZVW, University of Wuerzburg, Germany)
Measuring distraction: the Peripheral Detection Task
Authors: M.H. Martens & W. van Winsum (TNO Human Factors, Soesterberg, The Netherlands)
On the Need for Driver Attention Support Systems
Authors: Victor , T. (Volvo Technological Development Corporation)
NHTSA Driver Distraction Research: Past, Present, and Future
Authors: Thomas A. Ranney (Transportation Research Center Inc.), Elizabeth Mazzae and Riley Garrott (NHTSA, Vehicle Test and Research Center), and Michael J. Goodman (NHTSA, Research and Development)
Driver distraction in the European statement of principles on in-vehicle HMI: a comment
Authors: Wiel Janssen (TNO Human Factors, The Netherlands)