Intersection Safety

MARIETTA, Ga. | Jan 9, 2018

石榴直播 faculty in front of traffic.

Could a traffic agency identify a potentially dangerous road intersection without first witnessing a collision?

Three 石榴直播 researchers and the Georgia Department of Transportation (GDOT) are attempting to answer that question as they near completion on a two-year proof-of-concept study to develop an image-based system for monitoring and assessing the safety of intersections.

The project, which began in January 2015 and is supported by $180,000 grant from GDOT, is led by Jidong Yang, assistant professor of civil engineering and director of Kennesaw State鈥檚 Georgia Pavement and Traffic Research Center; Ying Wang, associate professor of mechatronics engineering; and Chih-Cheng Hung, professor of computer science. Together, they鈥檙e developing a software package that uses cameras currently installed at major intersections to extract traffic data in real-time. The data is then logged in a cloud-based database, which can then be used to help GDOT detect, analyze and correct any potential issues that could lead to vehicle accidents.

The software application would supplement or replace the traditional practice of using historical crash data. Given that wrecks are rare events, Yang said the old method is somewhat ineffective, leaving potentially dangerous intersections to go unnoticed until a significant number of wrecks have happened.

鈥淲hen improving the safety at that location, you can鈥檛 wait for an accident to occur. It鈥檚 too late,鈥 Yang said, adding that GDOT is taking a more proactive approach by developing a method to monitor intersections before accidents occur.

石榴直播 faculty in front of moving cars.
Recent methods have focused on using surrogate measures for crash data, such as 鈥渃onflicts,鈥 he added. Conflicts indicate the potential for a crash to occur and can be observed when motorists brake suddenly or swerve to avoid collisions. Because they involve physical contact, crashes can be considered extreme cases of conflicts. Humans can be trained to identify conflicts, but Yang said it鈥檚 both costly and unsafe for someone to monitor intersections in person.

鈥淲e鈥檙e trying to build certain artificial intelligence behind the cameras that can look at the images the same way a human can,鈥 he said. 鈥淔rom those images, we鈥檒l be able to extract and process conflict information automatically. We cannot afford to have people watching video 24 hours a day. We have to somehow automate the process.鈥

Currently, the researchers are in the process of testing their algorithms. Deep learning, an approach that gives computer programs a degree of intelligence, will allow the application to identify road users, such as vehicles, entering the intersection and track their positions and trajectory through the camera.

The program uses the trajectories extracted from live video to determine the direction and speed of the vehicles as they approach one another, and then determines the risk or probability of a collision.

Over time, the application will log conflicts with a time stamp and information pertaining to the risk of collision.

The proposed system will allow GDOT to react in a proactive manner to correct issues, whether it鈥檚 by realigning roadways for improved line of sight, adjusting speed limits for better compliance or by adding additional turn lanes. There may also be room to improve signal timing or to install extra signage or pavement markings for increased visibility.

鈥淚t is a totally new way for them to get this knowledge, and it could save many lives,鈥 Wang said.


Written by Travis Highfield
Photography by David Caselli and Rob Witzel

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