Auditory localisation of conventional and electric cars: Laboratory results and implications for cycling safety

•We studied auditory localisation of electric and conventional cars in three age groups.•Participants were worse at indicating the location of electric car sounds.•Older age and low car speeds were associated with lower localisation accuracy.•Higher ambient sound was associated with lower localisati...

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Veröffentlicht in:	Transportation research. Part F, Traffic psychology and behaviour Traffic psychology and behaviour, 2016-08, Vol.41, p.227-242
Hauptverfasser:	Stelling-Kończak, Agnieszka, Hagenzieker, Marjan, Commandeur, Jacques J.F., Agterberg, Martijn J.H., van Wee, Bert
Format:	Artikel
Sprache:	eng
Schlagworte:	Age Auditory perception Cars Cycles Cycling safety Cyclists Electric cars Electric vehicles Low speed Sound Traffic engineering Traffic flow Traffic safety Vehicle localisation
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container_title	Transportation research. Part F, Traffic psychology and behaviour
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creator	Stelling-Kończak, Agnieszka Hagenzieker, Marjan Commandeur, Jacques J.F. Agterberg, Martijn J.H. van Wee, Bert
description	•We studied auditory localisation of electric and conventional cars in three age groups.•Participants were worse at indicating the location of electric car sounds.•Older age and low car speeds were associated with lower localisation accuracy.•Higher ambient sound was associated with lower localisation accuracy.•Location of car sounds coming from directly behind the listener was least accurate. When driven at low speeds, cars operating in electric mode have been found to be quieter than conventional cars. As a result, the auditory cues which pedestrians and cyclists use to assess the presence, proximity and location oncoming traffic may be reduced, posing a safety hazard. This laboratory study examined auditory localisation of conventional and electric cars including vehicle motion paths relevant for cycling activity. Participants (N=65) in three age groups (16–18, 30–40 and 65–70year old) indicated the location and movement direction (approaching versus receding) of cars driven at 15, 30 and 50km/h in two ambient sound conditions (low and moderate). Results show that low speeds, higher ambient sound level and older age were associated with worse performance on the location and motion direction tasks. In addition, participants were less accurate at determining the location of electric and conventional car sounds emanating from directly behind the participant. Implications for cycling safety and proposals for adding extra artificial noise or warning sounds to quiet (electric) cars are discussed.
doi_str_mv	10.1016/j.trf.2015.09.004
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When driven at low speeds, cars operating in electric mode have been found to be quieter than conventional cars. As a result, the auditory cues which pedestrians and cyclists use to assess the presence, proximity and location oncoming traffic may be reduced, posing a safety hazard. This laboratory study examined auditory localisation of conventional and electric cars including vehicle motion paths relevant for cycling activity. Participants (N=65) in three age groups (16–18, 30–40 and 65–70year old) indicated the location and movement direction (approaching versus receding) of cars driven at 15, 30 and 50km/h in two ambient sound conditions (low and moderate). Results show that low speeds, higher ambient sound level and older age were associated with worse performance on the location and motion direction tasks. In addition, participants were less accurate at determining the location of electric and conventional car sounds emanating from directly behind the participant. 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source	Elsevier ScienceDirect Journals Complete - AutoHoldings
subjects	Age Auditory perception Cars Cycles Cycling safety Cyclists Electric cars Electric vehicles Low speed Sound Traffic engineering Traffic flow Traffic safety Vehicle localisation
title	Auditory localisation of conventional and electric cars: Laboratory results and implications for cycling safety
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