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Data Driven Urban Traffic Prediction for Winter Performance Measurements

Project Details
STATUS

Completed

PROJECT NUMBER

2013-03, 2015-03, 13-485, 16-156

START DATE

08/01/14

END DATE

04/30/17

SPONSORS

Iowa Department of Transportation
Midwest Transportation Center
USDOT/OST-R

Researchers
Principal Investigator
Zhengyuan Zhu
Co-Principal Investigator
Mark Kaiser

About the research

Prediction of traffic speed drop under severe weather in an urban setting is important in measuring the performance of winter highway maintenance programs in the city. This work is built on our previous and current work on point level modeling and prediction of traffic speed drops during weather for performance evaluation in rural areas.

INRIX and Wavetronix traffic data and limited weather information were used to develop models for detecting abnormal traffic patterns and predicting traffic speed and volume at any location on a network. Multivariate quantiles were estimated for the INRIX observations, and the INRIX data were compared with the estimated quantiles to identify abnormal traffic patterns in both space and time.

An online interactive app was developed to visualize the results and inform decisions about winter maintenance. A dynamic Bayesian model was implemented at two Wavetronix sensor locations where weather information was available, with the corresponding median curve as the baseline.

The fitting results were satisfactory. The INRIX data’s spatial structure was explored, and curve Kriging was used to predict traffic speed and volume at any location. The prediction method worked well.


Funding Sources:
Iowa Department of Transportation ($117,457.00)
Midwest Transportation Center
USDOT/OST-R ($75,039.00)
Total: $192,496.00

Contract Number: DTRT13-G-UTC37

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