Hieronder vindt u de lijst met referenties die in deze factsheet zijn gebruikt. Op ons kennisportaal vindt u meer literatuur over dit onderwerp.
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[11]. VeiligheidNL (2017). Fietsongevallen in Nederland. SEH-behandelingen 2016. VeiligheidNL, Amsterdam.
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[23]. Bowden, V.K., Loft, S., Wilson, M.D., Howard, J., et al. (2019). The long road home from distraction: Investigating the time-course of distraction recovery in driving. In: Accident Analysis & Prevention, vol. 124, p. 23-32.
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[31]. Simmons, S.M., Caird, J.K. & Steel, P. (2017). A meta-analysis of in-vehicle and nomadic voice-recognition system interaction and driving performance. In: Accident Analysis & Prevention, vol. 106, p. 31-43.
[32]. Strayer, D.L., Cooper, J.M., Turrill, J., Coleman, J.R., et al. (2017). The smartphone and the driver's cognitive workload: A comparison of Apple, Google, and Microsoft's intelligent personal assistants. In: Canadian journal of experimental psychology, vol. 71, nr. 2, p. 93-110.
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[34]. Ramnath, R., Kinnear, N., Chowdhury, S. & Hyatt, T. (2020). Interacting with Android Auto and Apple CarPlay when driving: a simulator study. Published Project Report PPR 948. Transport Research Laboratory TRL, Crowthorne, Berkshire.
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[36]. Waard, D. de, Edlinger, K. & Brookhuis, K. (2011). Effects of listening to music, and of using a handheld and handsfree telephone on cycling behaviour. In: Transportation Research Part F: Traffic Psychology and Behaviour, vol. 14, nr. 6, p. 626-637.
[37]. Neider, M.B., McCarley, J.S., Crowell, J.A., Kaczmarski, H., et al. (2010). Pedestrians, vehicles, and cell phones. In: Accident Analysis and Prevention, vol. 42, nr. 2, p. 589-594.
[38]. Vonk, T., Rooijen, T., Hogema, J. van & Feenstra, P. (2007). Do navigation systems improve traffic safety? TNO, Soesterberg.
[39]. Strayer, D.L., Cooper, J.M., Goethe, R.M., McCarty, M.M., et al. (2017). Visual and cognitive demands of using in-vehicle infotainment systems. American Automobile Association AAA Foundation for Traffic Safety, Washington D.C.
[40]. Oei, H.L. (2002). Mogelijke veiligheidseffecten van navigatiesystemen; Een literatuurstudie, enkele eenvoudige effectberekeningen en resultaten van een enquête. R-2002-30. SWOV, Leidschendam.
[41]. Knapper, A., Nes, N. van, Christoph, M., Hagenzieker, M., et al. (2016). The use of navigation systems in naturalistic driving. In: Traffic injury prevention, vol. 17, nr. 3, p. 264-270.
[42]. Megías, A., Maldonado, A., Catena, A., Di Stasi, L.L., et al. (2011). Modulation of attention and urgent decisions by affect-laden roadside advertisement in risky driving scenarios. In: Safety Science, vol. 49, nr. 10, p. 1388-1393.
[43]. Chattington, M., Reed, N., Basacik, D., Flint, A., et al. (2009). Investigating driver distraction: the effects of video and static advertising. Client Project Report; CPR 208. Transport Research Laboratory, London.
[44]. Edquist, J., Horberry, T., Hosking, S. & Johnston, I. (2011). Effects of advertising billboards during simulated driving. In: Applied Ergonomics, vol. 42, nr. 4, p. 619-626.
[45]. Vlakveld, W.P. & Helman, S. (2018). The safety effects of (digital) roadside advertising: an overview of the literature. Deliverable 1.1a of the CEDR project ADVERTS.
[46]. Gitelman, V., Zaidel, D. & Doveh, E. (2012). Influence of billboards on driving behavior and road safety. In: 5th International Conference on Traffic and Transport Psychology ICTTP. 29-31 August, Groningen, The Netherlands.
[47]. Izadpanah, P., Omrani, R., Koo, S. & Hadayeghi, A. (2014). Effect of static electronic advertising signs on road safety: an experimental case study. In: Journal of Orthopaedic Trauma, vol. 28, nr. Supplement 1, p. S33-S36.
[48]. CROW (2017). Reclame langs wegen. CROW Kennisplatform, Ede.
[49]. Stelling-Konczak, A., Wee, G.P. van, Commandeur, J.J.F. & Hagenzieker, M. (2017). Mobile phone conversations, listening to music and quiet (electric) cars: Are traffic sounds important for safe cycling? In: Accident Analysis & Prevention, vol. 106, p. 10-22.
[50]. Groot-Mesken, J. de, Vissers, L. & Duivenvoorden, C.W.A.E. (2015). Gebruikers van het fietspad in de stad. Aantallen, kenmerken, gedrag en conflicten. R-2015-21. SWOV, Den Haag.
[51]. Broeks, J. & Zengerink, L. (2016). Eenmeting apparatuurgebruik fietsers. [Interne notitie, niet openbaar]. Rijkswaterstaat, Utrecht
[52]. Broeks, J. & Zengerink, L. (2017). Vervolgmeting apparatuurgebruik fietsers. Rijkswaterstaat.
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[55]. DEKRA (2016). DEKRA Road safety report 2016 - passenger transportation: accident prevention strategies on Europe’s roads. DEKRA Automobil GmbH, Stuttgart.
[56]. Ahlstrom, C., Kircher, K., Thorslund, B. & Adell, E. (2016). Bicyclists’ visual strategies when conducting self-paced vs. system-paced smartphone tasks in traffic. In: Transportation Research Part F: Traffic Psychology and Behaviour, vol. 41, Part B, p. 204-216.
[57]. Terzano, K. (2013). Bicycling safety and distracted behavior in The Hague, the Netherlands. In: Accident Analysis & Prevention, vol. 57, p. 87-90.
[58]. Schwebel, D.C., Stavrinos, D., Byington, K.W., Davis, T., et al. (2012). Distraction and pedestrian safety: How talking on the phone, texting, and listening to music impact crossing the street. In: Accident Analysis & Prevention, vol. 45, nr. 0, p. 266-271.
[59]. Thompson, L.L., Rivara, F.P., Ayyagari, R.C. & Ebel, B.E. (2013). Impact of social and technological distraction on pedestrian crossing behaviour: an observational study. In: Injury Prevention, vol. 19, nr. 4, p. 232-237.
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[65]. Creaser, J.I., Edwards, C.J., Morris, N.L. & Donath, M. (2015). Are cellular phone blocking applications effective for novice teen drivers? In: Journal of Safety Research, vol. 54, p. 75.e29-78.
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