TY - JOUR
T1 - Gap acceptance at stop-controlled T-intersections in a simulated rural environment
AU - Beanland, Vanessa
AU - Lenné, Michael G.
AU - Candappa, Nimmi
AU - Corben, Bruce
PY - 2013
Y1 - 2013
N2 - A high proportion of road crashes occur at intersections: in Victoria, Australia, 15% of fatal crashes and 25% of serious injury crashes occur at T-intersections, with similar proportions occurring at cross intersections. Many of these crashes can be attributed to drivers' inappropriate gap selection. The current study used a driving simulator to examine the influence of both the driver's intended manoeuvre and the gap duration on gap acceptance behaviour at stop-controlled T-intersections. Drivers completed 18 gap acceptance trials, with manoeuvre (turning across traffic, merging with traffic) and gap duration (3-11 s) manipulated within-subjects. There was a trend whereby drivers accepted shorter gaps when turning across traffic compared to merging with traffic, which was significant at longer gaps (≥9 s) but not at shorter, safety-critical gaps (≤8 s). In addition, accepted lag times varied with manoeuvre. When merging with traffic drivers demonstrated longer accepted lag times, suggesting that turn strategies differ depending on traffic direction and intended manoeuvre. Overall the results suggest that the drivers' intended manoeuvre influences gap acceptance, although gap duration remains the most influential factor. Implications of these findings for the development and design of intersection decision support systems are discussed.
AB - A high proportion of road crashes occur at intersections: in Victoria, Australia, 15% of fatal crashes and 25% of serious injury crashes occur at T-intersections, with similar proportions occurring at cross intersections. Many of these crashes can be attributed to drivers' inappropriate gap selection. The current study used a driving simulator to examine the influence of both the driver's intended manoeuvre and the gap duration on gap acceptance behaviour at stop-controlled T-intersections. Drivers completed 18 gap acceptance trials, with manoeuvre (turning across traffic, merging with traffic) and gap duration (3-11 s) manipulated within-subjects. There was a trend whereby drivers accepted shorter gaps when turning across traffic compared to merging with traffic, which was significant at longer gaps (≥9 s) but not at shorter, safety-critical gaps (≤8 s). In addition, accepted lag times varied with manoeuvre. When merging with traffic drivers demonstrated longer accepted lag times, suggesting that turn strategies differ depending on traffic direction and intended manoeuvre. Overall the results suggest that the drivers' intended manoeuvre influences gap acceptance, although gap duration remains the most influential factor. Implications of these findings for the development and design of intersection decision support systems are discussed.
KW - Gap acceptance
KW - Intersections
KW - Junctions
KW - T-intersections
UR - http://www.scopus.com/inward/record.url?scp=84880077335&partnerID=8YFLogxK
U2 - 10.1016/j.trf.2013.05.006
DO - 10.1016/j.trf.2013.05.006
M3 - Article
SN - 1369-8478
VL - 20
SP - 80
EP - 89
JO - Transportation Research Part F: Traffic Psychology and Behaviour
JF - Transportation Research Part F: Traffic Psychology and Behaviour
ER -