Field Comparison of Two Types of Accessible Pedestrian Signals
Abstract
The effects of two types of accessible pedestrian signals on the street-crossing behaviors of 24 totally blind participants were directly compared in this research. One accessible pedestrian signal (APS) used a sound generator and vibrating hardware, which were integrated into the pedestrian push button (the Polara device). These sounds were heard from the near vicinity of the push button, and a different message or repetition rate was used to indicate the “Walk” interval. The second APS used pulsing light-emitting diodes to illuminate the message in the pedestrian signal head to transmit a message to a handheld receiver carried by the blind traveler (the Relume device). The handheld receiver provided a “Walk” or “Wait” message, designated by variable tones, which was audible only to the user. A control condition consisted of crossing without any APS device. Data were collected on crossing speed, the latency from the start of the walk and entering the crosswalk, the number of cycles missed, and the accuracy of the crossing. The results indicated that the time to cross the street was significantly shorter when participants used the handheld device than when they used the audible push-button device or crossed without any APS. There was no significant difference in crossing times between participants who used the audible push-button device and those who crossed without an APS under the control condition. The latency to start crossing was significantly faster when the participants used the handheld device than when they used the audible push button or crossed without an APS under the control condition. The number of missed cycles was significantly lower when the participant used either APS device than when the participant crossed without an APS device, and there was no difference in the number of missed cycles between the two APS devices.
Get full access to this article
View all access and purchase options for this article.
References
1. Crews J. E. Measuring Rehabilitation Outcomes and the Public Policies of Aging and Blindness. In Vision and Aging: Issues on Social Work Practice (Weber N. D., ed.), Hawthorn, New York, 1991.
2. Pope A. M., and Tarlov A. R. Disability in America: Toward a National Agenda for Prevention. National Academy Press, Washington, D.C., 1991.
3. Manton K. G., Corder L. S., and Stallard E. Estimates of Change in Chronic Disability and Institutional Incidence and Prevalence Rates in the U.S. Elderly Population from the 1982, 1984, and 1989 National Long Term Care Survey. Journal of Gerontology: Social Sciences, Vol. 48, 1993, pp. S153–S166.
4. Blasch B., Wiener W., and Welsh R., eds. Foundations of Orientation and Mobility, 2nd ed. American Foundation for the Blind Press, Inc., New York, 1997.
5. Resolution 91-25: Development of Appropriate Sound Emitting Equipment for Electrically Powered Vehicles. American Council of the Blind, Tampa, Fla., 1991.
6. Peck A., and Uslan M. The Use of Audible Traffic Signals in the US. Journal of Visual Impairment and Blindness, Vol. 84, 1990, pp. 547–551.
7. Bentzen B. L., and Tabor L. S. Accessible Pedestrian Signals. U.S. Access Board, 1999.
8. Stevens A. A Comparative Study of the Ability of Totally Blind Adults to Align and Cross the Street at an Offset Intersection Using an Alternating Versus a Non-Alternating Audible Traffic Signal. M. Ed. thesis. University of Sherbrooke, 1993.
9. Bentzen B. L., Crandall W. F., Chigier B., Warden G. F., and Carosella L. Comprehensive Wayfinding System for Transportation Services: Talking Signs® and Speak2Directions. Proc., Orientation and Navigation Systems for Blind Persons. University of Hertfordshire, Hatfield, England, Feb. 1–2, 1995.
10. Crandall W., Brabyn J., Bentzen B. L., and Myers L. Remote Infrared Signage Evaluation for Transit Stations and Intersections. Journal of Rehabilitation Research and Development, Vol. 36, 1999, pp. 341–355.
11. Crandall W. F., Bentzen B. L., Myers L., and Mitchell P. A. Transit Accessibility Improvement Through Talking Signs® Remote Infrared Signage: Administration and Evaluation. Final report. Smith Kettlewell Eye Research Institute, San Francisco, Calif., 1995.
12. Hall G., Rabelle A., and Zibihaylo C. Audible Traffic Signals: A New Definition. Montreal Association for the Blind, Montreal, Quebec, Canada, 1994.
13. Hulscher F. R. Traffic Signal Facilities for Blind Pedestrians. In Australian Road Research Board Proceedings, Z 8, 1976, pp. 13–26.
14. Blasch B. Effectiveness of Accessible Pedestrian Signals. Final report. Veterans Affairs Medical Center, Atlanta, Ga., 1999.
Cite article
Cite article
Cite article
OR
Download to reference manager
If you have citation software installed, you can download article citation data to the citation manager of your choice
Information, rights and permissions
Information
Published In
Article first published: January 2005
Issue published: January 2005
Authors
Metrics and citations
Metrics
Journals metrics
This article was published in Transportation Research Record: Journal of the Transportation Research Board.
VIEW ALL JOURNAL METRICSArticle usage*
Total views and downloads: 39
*Article usage tracking started in December 2016
Altmetric
See the impact this article is making through the number of times it’s been read, and the Altmetric Score.
Learn more about the Altmetric Scores
Articles citing this one
Receive email alerts when this article is cited
Web of Science: 0
Crossref: 3
- Leading Pedestrian Intervals at Urban Crosswalks: Effects on Safety fo...
- Accessible Pedestrian Signals at Complex Intersections...
- Crossroads: Modern Interactive Intersections and Accessible Pedestrian...
Figures and tables
Figures & Media
Tables
View Options
Get access
Access options
If you have access to journal content via a personal subscription, university, library, employer or society, select from the options below:
loading institutional access options
Alternatively, view purchase options below:
Purchase 24 hour online access to view and download content.
Access journal content via a DeepDyve subscription or find out more about this option.
