Beware of accuracy and privacy issues in using truck transponder data for developing real-time traveler information applications.
An Oregon Department of Transportation Experience
Findings from the study offer the following lessons learned:
Consider using truck transponder data to monitor various freight corridor performance measures. For freight corridors, promising freight performance measures that can be evaluated using the transponder-linked WIM data include: average travel time on key corridors; ton-miles on each corridor by various temporal considerations; overweight vehicles on corridors by temporal variation; empty vehicles; seasonal variability in loading, routes, and volumes; percent trucks with tags on each corridor; potentially estimating an origin-destination matrix; and average weight for various configurations.
Beware of limitations in using truck transponder data to develop any real-time traveler information application. Transponder tag matching at successive weigh stations can be used to estimate long-term freight corridor performance. However, caution should be used when developing applications for real-time traveler information systems. The following challenges were noted.
- The market penetration of transponder tags in freight vehicles is generally low and varies by location. The analysis indicated that on primary links there were enough trucks with tags (both numbers and frequency) to establish travel times between stations (assuming data issues can be resolved). However, on secondary links not enough trucks were available to generate real-time data.
- The distance between weigh stations (reader locations) was relatively long. The report suggested that sensor spacing of 100 miles or less is reasonable. However, shorter spacing may be required around typical areas of delay and places where routes diverge. Additional sensors to read transponders could be installed to improve the accuracy and decrease the latency of travel time estimates. The hardware and labor for additional transponder readers were estimated to cost $9,000 each, not including the cost of integrating these sensors with the current WIM system data.
- Trucks may stop for fuel, rest, and deliveries. More sophisticated algorithmic approaches could be applied to filter out trucks that made a stop between stations.
- Comparisons to passenger cars may be difficult since truck travel speeds are different.
- Recent advances in alternative traffic monitoring technologies such as cell phone, navigation devices, vehicle-to-vehicle, vehicle–to-infrastructure, and Media Access Control (MAC) address matching may be more suitable for providing real-time traveler information.
Performance measurement can help agencies achieve planned objectives in terms of improving mobility, reliability, safety, and reducing costs and environmental impacts. Overall, the findings of Oregon’s research indicate that truck transponder matching algorithms can support long-term monitoring of freight corridor performance. Applications for real-time traveler information, however, are limited when data quality is poor (e.g., incorrect time stamps). When data quality is good, the research indicates that average speeds and standard deviations can be calculated to detect corridor delays, especially weather-based.
Author: Christopher M. Monsere, Michael Wolfe, Heba Alawakiel, and Max Stephens
Published By: Oregon Department of Transportation
Source Date: August 2009URL: http://www.oregon.gov/ODOT/TD/TP_RES/docs/Reports/2009/Truck_Travel_Time.pdf
Average User Rating
Lesson of the Month for November, 2009 !
Major Initiatives > Integrated Corridor Management Systems
Major Initiatives > Electronic Freight Management
Other Program Activities > Commercial Vehicle Information Systems And Networks (CVISN)
Other Program Activities > Intelligent Grade Crossings
Other Program Activities > Transit Systems