Investigating how multiple traffic data sources can be integrated in a consistent manner, and how they may be best used for arterial performance measurement.

Developing a smartphone-based travel behavior data collection platform that recruits participants by rewarding users with real-time parking information.

Extending the work that was completed for year one funding related to “Developing Highway Safety Performance Metrics in an Advanced Connected Vehicle Environment Utilizing Near-Crash Events from the SHRP 2 Naturalistic Driving Study.”

The project proposes a deep learning model to predict the best recharging recommendation including best recharging time and location for eTaxi drivers.

Developing a predictive statistical framework to efficiently estimate the ability of a bike-sharing system to serve incoming bike requests.

Developing the tools needed to process immense amounts of data, develop new performance metrics based on the data collected, and propose methods to enhance performance.

Exploring historical incident and traffic data to revolutionize response strategies.

Designing a transportation data-warehouse prototype for the Buffalo-Niagara region and demonstrating its usefulness through a specific application.

Creating a mobile computer application for documenting and sharing data regarding vehicular accidents.

Creating a quality-aware crowdsourced road sensing system that integrates sensory data from multiple vehicles while placing more weight on the vehicles that provide high quality data to significantly improve integration accuracy.