BirdS. The risk of tripping accidents on public footways. Proceedings of the Institution of Civil Engineers – Municipal Engineer2008; 161: 129–136.
4.
FotiosSChealC. Using obstacle detection to identify appropriate illuminances for lighting in residential roads. Lighting Research and Technology2013; 45: 362–376.
5.
FotiosSAChealC. Obstacle detection: a pilot study investigating the effects of lamp type, illuminance and age. Lighting Research and Technology2009; 41: 321–342.
6.
UttleyJFotiosSChealC. Effect of illuminance and spectrum on peripheral obstacle detection by pedestrians. Lighting Research and Technology2017; 49: 211–227.
7.
ChengT-JYangBHollowayCTylerN. Effect of environmental factors on how older pedestrians detect an upcoming step. Lighting Research and Technology2018; 50: 405–415.
8.
CaminadaJFvan BommelWJM. New lighting criteria for residential areas. Journal of the Illuminating Engineering Society1984; 13: 350–358.
9.
HaslamRASlip, trip and fall accidents. In: KarwowskiW (eds). International Encyclopedia of Ergonomics and Human Factors, Volume III, New York: Taylor and Francis, 2001, pp. 1591–1593.
10.
LeschMFChangWRChangCC. Visually based perceptions of slipperiness: underlying cues, consistency and relationship to coefficient of friction. Ergonomics2008; 51: 1973–1983.
11.
LiKWZhaoCPengLLiuA-Q. Subjective assessments of floor slipperiness before and after walk under two lighting conditions. International Journal of Occupational Safety and Ergonomics2018; 24: 294–302.
