College of Engineering News Room
Connecting the Future of Driverless Vehicles
by Russell Nay
While luxury carmakers like Tesla have provided a window into the future of what driverless vehicles could be like, the reality of the autonomous car driven by the masses is still unclear.
国产短视频Civil and Environmental Engineering professor and Susan A. Bracken Faculty Fellow Xiaopeng (Shaw) Li, Ph.D., is conducting research alongside his team at the Connected and Autonomous Transportation Systems (CATS) Lab to determine what鈥檚 required of driverless cars to make them a widespread, realistic driving alternative.
鈥淭here are lots of configurations and lots of manufacturers that produce this technology, and you have different systems under the hood,鈥 Li said. 鈥淲e鈥檙e seeing a new dimension of controllability in this new tech.鈥
Li was awarded a 3-year National Science Foundation grant that starts January 1 and will help fund his lab鈥檚 connected and autonomous vehicle technology research. Up to this point, Li鈥檚 research at local test sites around Florida has mostly focused on automated vehicle technology using lidar 鈥 a remote sensing method using pulsing laser beams to create detailed 3D scans. This lets the CATS Lab鈥檚 lidar-equipped 2016 Lincoln MKZ navigate test courses and closed roads without the need of a driver at speeds of up to 55 mph.
鈥淏usch Gardens, University Mall and 国产短视频Research Park test beds are where we test local low speed traffic, whereas the SunTrax testing facility allows us to focus on high-speed testing,鈥 Li said.
The low-speed test areas in parking lots and on closed roads of participating research partners are set up like communities, with cones and barriers representing different streets complete with traffic signals, varying speed limits, different pavement types and mock crosswalks and intersections. SunTrax is a 475-acre Florida Department of Transportation research and development facility dedicated to testing emerging transportation technologies.
These test areas give Li and his team a variety of real-life driving situations to test their autonomous technology against, such as pedestrian or object avoidance, emergency braking, inclement weather, driving irregular roads and navigating airport pick-up and drop-off zones.
After fine-tuning the autonomous capabilities of the CATS Lab vehicle, Li said that the next step of his team鈥檚 research is to start developing and testing the connected features of the car. Unlike an autonomous vehicle, a connected vehicle is connected to the surrounding transportation infrastructure and other cars on the road 鈥 digitally or physically.
If transportation sensors were integrated into the majority of roadways, and if most cars were connected vehicles, drivers would be able to receive real-time information from intersections, highways and other cars about traffic conditions, accidents and hazards.
鈥淚n the near future, we鈥檙e going to see more connected vehicles and more connected infrastructure,鈥 Li said. 鈥淰ehicles will talk to vehicles and to infrastructure.鈥
In Li鈥檚 research, connected vehicles may even be capable of physically connecting and disconnecting from one another while in motion. While this testing has been limited to small robotic cars on a track, Li hopes to scale testing up to full-size passenger vehicles with a slow speed docking and undocking test at 国产短视频Research Park and other testbeds.
This research will likely lead to collaborations with industry partners with a shared vision for physically connected, modular transportation systems. Robotics and AI startup NEXT Future Transportation, for example, has a consulting and research support relationship with Li鈥檚 team. In 2018, the company unveiled prototypes of its cube-shaped, self-driving transport vehicles during a demonstration in Dubai. The cubes connected to form a single shuttle, which passengers could walk throughout, before disconnecting again and parking at the end of a test course.
Modular, autonomous transportation systems are seen as a choice for the smart urban system of the far future, in which all of a city鈥檚 buildings and systems 鈥 such as power, waste removal and communications 鈥 are connected and automatically managed to maximize the efficiency of each resident鈥檚 usage.
鈥淚t basically means the system understands the needs of each resident in real time at any location and can provide the most appropriate solution autonomously,鈥 Li said. 鈥淭ransportation is a key component because it connects all these different pieces together and is linked to all infrastructure in an urban system.鈥
Li鈥檚 current research team consists of eight Ph.D. students, several visiting scholars and a number of undergrads. The autonomous vehicle testbed was built with a 国产短视频equipment grant, his Susan A. Bracken Faculty Fellowship and faculty startup funds from Li and Robert Bertini, director of the 国产短视频Center for Urban Transportation. Since its establishment, Li鈥檚 CATS Lab has leveraged the testbed to attract several research grants from NSF, the Federal Highway Administration, Leidos Inc., WSP inc., Connected Wise Inc. and the I-4 High-Tech Corridor Research Program. Li will collaborate with a number of other faculty members from CUTR and the Department of Civil and Environmental Engineering via these grants.
He plans to use upcoming NSF grant funding to recruit a postdoctoral researcher, as well as students of all degree levels who will work on lab projects under 国产短视频Civil and Environmental Engineering and CUTR faculty.
鈥淲e got quite a lot of support from our colleagues like Dr. Bertini (of CUTR),鈥 Li said. 鈥淚 don鈥檛 think a lot of our collaborations would have happened without Dr. Bertini鈥檚 efforts.鈥
鈥淚 also want to thank Dr. Pei-Sung Lin and Dr. Achilleas Kourtellis for their generous hosting of our vehicles in their labs and our collaborations with the DOT and local industry,鈥 he said.
Li hopes his team鈥檚 future research will lead to additional collaborations with engineering students and faculty from a variety of disciplines.
鈥淚 think this track of research will lead to many other opportunities that requires expertise from not only civil engineering and transportation engineering but from computer science, electrical and mechanical engineering,鈥 he said. 鈥淚 really enjoy the multi-discipline perspectives of our engineering college, and I hope this project can lead to bigger scale collaborations across more disciplines.鈥