An ambitious effort to explore solutions for safe, clean and efficient transportation and to establish a "Living Lab" in the northern ΒιΆΉΣ³» communities of Reno, Sparks and Carson City is under way. Intelligent Mobility builds on the expertise of ΒιΆΉΣ³» researchers in advanced-autonomous systems, computer sciences, synchronized mobility, robotics and civil engineering. Public transportation is the initial, primary focus.
The Living Lab will use Regional Transportation Commission of Washoe County's state-of-the-art electric buses manufactured by Proterra, a California-based leader in the design and manufacture of zero-emission, battery-electric buses. The driver-operated buses are being fully instrumented with a number of systems to sense, gather and integrate a range of data. These complex systems - already being tested on vehicles in the Reno-Sparks-Carson area - will collect data that will contribute to new ideas, technologies and systems.
Building on Track-Record in Autonomous Vehicles and Systems
ΒιΆΉΣ³» researchers have long been at the leading edge of research in autonomous systems and vehicles. Consider the example of Professor Raul Rojas in the University's College of Science, who is internationally known for his work in autonomous vehicles and, in 2015, drove 1,500 miles without hands from the U.S. border at Nogales to Mexico City. It was the .
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The initial research conducted through Intelligent Mobility will explore how vehicles sense their environment and communicate with other vehicles, infrastructure such as traffic signals and systems, and individual people through their mobile devices. This work builds primarily on the expertise and research track-record of three researchers in the University's College of Engineering:
- Kostas Alexis, assistant professor, joined the University in 2015 from the world-renowned Autonomous Systems Lab of ETH Zurich in Switzerland, where he contributed to ground-breaking discoveries related to autonomous systems. Much of his research focuses on integrating perception and intelligent systems into robotic vehicles.
- Richard Kelley, chief engineer with the University's ΒιΆΉΣ³» Advanced Autonomous Systems Innovation Center, was selected to be part of the on-going NASA Ames Unmanned Aerial Systems Traffic Management project to find solutions in low-altitude airspace where autonomous aerial vehicles and other aircraft operate. His research focuses on intelligent robotics and advanced autonomous systems.
- Hao Xu, assistant professor, focuses his research on intelligent transportation systems, traffic operation and control, evacuation transportation planning, and management and development of applications for transportation engineering.
Coalition of Partners Demonstrates Support
Joining the RTC and Proterra as project partners are the Governor's Office for Economic Development; City of Reno; City of Sparks; Carson City; ΒιΆΉΣ³» Department of Transportation; ΒιΆΉΣ³» Department of Motor Vehicles; Center for Alternative Fuels, Engines and Emissions based at West Virginia University; and Fraunhofer Institute for Transportation and Infrastructure Systems IVI in Germany, part of the Fraunhofer Organization, Europe's largest application-oriented research organization. Fraunhofer connects Intelligent Mobility to Living Lab developments being explored in Germany.
"This kind of collaboration is transformative," Mridul Gautam, the University's vice president of research and innovation, said of the broad-based coalition of partners. "Things are getting done in ΒιΆΉΣ³», and it's because organizations join together around a common goal."
"This marks another important initiative in ΒιΆΉΣ³»'s advanced mobility effort," Steve Hill, director of the Governor's Office of Economic Development, said. "The State of ΒιΆΉΣ³», through our research institutions, industry and startups, has been building an effort to operate Living Labs in ΒιΆΉΣ³»'s metro areas. The Living Lab Northern ΒιΆΉΣ³» will be led by the ΒιΆΉΣ³» and the Living Lab Southern ΒιΆΉΣ³» will be led by the University of ΒιΆΉΣ³», Las Vegas - making this effort an important statewide initiative for our research universities and the State's Knowledge Fund."
"As a result of collaboration with Fraunhofer, this takes on global importance and elevates the work we are doing to an international stage while injecting a layer of experience that will greatly benefit applied research organizations in ΒιΆΉΣ³»," Hill said.
The University's - also supported by - serves as the single point of contact for Intelligent Mobility. Launched in 2016 to advance the incubation and growth of business in ΒιΆΉΣ³», NCAR makes the University's labs, equipment and expertise available to industry and entrepreneurs.
A Future View
Through Intelligent Mobility, researchers are working toward safe, synchronized, zero-emission mobility systems. And, by involving students in this work, they are contributing to the preparedness of the future workforce.
Alexis envisions the initiative resulting in advancements to improve driver performance, such as improved sensors to eliminate blind spots, improved support in degraded situations such as night-time driving or bad weather, and improved break-time response. And, he added, "They must be consistently reliable technologies you can bet your life on."
Gautam's view is that future technologies in transportation and mobility have the potential to be the most disruptive advancements of our lifetimes. Self-driving vehicles, electrified vehicles, automated transportation systems, on-demand transportation and real-time adaptive traffic controls systems are among the technologies already disrupting and transforming the automotive and transportation industry.