Abstract
Walking is a mode of travel used by billions of people daily. Facilities that promote walking such as crosswalks often involve sharing space with conflicting vehicular traffic. These areas are not immune to receiving pedestrians that either do not obey or do not understand today’s pedestrian signals, which are used to communicate periods of safe crossing. Therefore, improving comprehension would subsequently improve safety and crash rates. The Traditional Pedestrian Signal in the United States displays an illuminated man and a hand to indicate a cautionary-crossing period, a transition period, and a crossing-prohibited period. This signal type was evaluated and compared to a relatively new Experimental Pedestrian Signal. The Experimental Pedestrian Signal presented in this paper utilized the figure of a walking man changing only by the colors green, yellow, and red. Both signals were analyzed to identify the phases that best communicated the intended action. Video files depicting a Traditional and Experimental Signal were administered with a questionnaire to test the comprehension of rural and suburban participants. The results indicated that the Experimental Pedestrian Signal was not better understood than the current Traditional Signal, although a vast majority of participants preferred the Experimental Signal. The lowest comprehension occurred during the transition phase for both pedestrian signal types. The results also suggest that the interpretation of the yellow color varies by location and may invoke mixed responses if incorporated in pedestrian signals. A more appropriate solution may be to combine both symbolic and color cues into future pedestrian signals.
Highlights
Walkable connected neighborhoods and communities continue to be at the forefront of transportation and government officials’ plans
The phases in a Traditional Pedestrian Signal used in the United States are Walk (W), Flashing Don’t Walk (FDW) and Don’t Walk (DW)
Because participants’ previous experience with pedestrian signals could bias results, general statistics related to the studied population and their exposure to pedestrian signals were gathered for analysis
Summary
Walkable connected neighborhoods and communities continue to be at the forefront of transportation and government officials’ plans. (Schroeder et al, 2009) and (Virkler, 1998) studied the behavior of pedestrians at crosswalks near intersections and midblock They found high noncompliance rates and attributed it to many factors, namely the impatience of pedestrians desiring to cross. In 2012, approximately 80,743 pedestrians were either killed or injured in a traffic crash (NHTSA’s National Center for Statistics and Analysis, 2014) This equated to a traffic related pedestrian injury every 7 minutes in the U.S While over three-fourths of pedestrian fatalities occur at non-intersection locations, those pedestrian fatalities that do occur at intersections happen within the crosswalk at a high rate. The research in this paper focuses on the latter to determine how well the displayed pedestrian signal messages are understood by potential users
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