论文信息 - Effectiveness of a Commercially Available Automated Pedestrian Counting Device in Urban Environments: Comparison with Manual Counts

Effectiveness of a Commercially Available Automated Pedestrian Counting Device in Urban Environments: Comparison with Manual Counts

High-quality continuous counts of pedestrian volume are necessary to evaluate the effects of pedestrian infrastructure investments and to improve pedestrian volume modeling. Automated pedestrian counting devices can meet the need for continuous counts of pedestrian volume and reduce the labor cost associated with manual pedestrian counting and data entry. However, most existing automated pedestrian devices are not well suited to the task of counting pedestrians in outdoor environments, and little is known about their effectiveness and accuracy. This study addresses the lack of performance information on automated counting devices by providing a review of commercially available devices and by testing the accuracy of a promising device in an outdoor urban context. It finds that a dual sensor passive infrared device is capable of producing reasonably accurate pedestrian volume counts in the outdoor urban context. It also finds a high degree of inter-reliability between counts collected by field observers and through video recordings.

[1] David A Noyce,et al. Development of Bicycle and Pedestrian Detection and Classification Algorithm for Active-Infrared Overhead Vehicle Imaging Sensors , 2006 .

[2] David R. Ragland,et al. Effects of Weather Variables on Pedestrian Volumes in Alameda County, California , 2010 .

[3] Craig S. Fleisher,et al. A balanced scorecard approach to public relations management assessment , 1997 .

[4] Mara Chagas Diogenes,et al. Pedestrian Counting Methods at Intersections , 2007 .

[5] J. Stewart,et al. Safety Effects of Marked versus Unmarked Crosswalks at Uncontrolled Locations: Final Report and Recommended Guidelines , 2005 .

[6] C. Porter,et al. Bicycle and pedestrian data : sources, needs, & gaps , 2000 .

[7] D A Noyce,et al. AN EVALUATION OF TECHNOLOGIES FOR AUTOMATED DETECTION AND CLASSIFICATION OF PEDESTRIANS AND BICYCLISTS , 2002 .

[8] Mara Chagas Diogenes,et al. Estimating Pedestrian Accident Exposure: Automated Pedestrian Counting Devices Report , 2007 .

[9] Robert J. Schneider,et al. Pedestrian and bicycle data collection in United States communities: quantifying use, surveying users, and documenting facility extent , 2005 .

[10] Ching-Yao Chan,et al. Experimental Vehicle Platform for Pedestrian Detection , 2006 .

[11] C. Dora,et al. Transport, environment and health , 2001 .