Ever wonder how much fuel you can save by avoiding stop-and-go traffic, closing your window, not using air conditioning or coasting toward stops?
Research at the Univ. of California, Riverside’s College of Engineering Center for Environmental Research and Technology (CE-CERT) can give you the answers.
The research field is called eco-driving, which refers to providing drivers with advice and feedback to minimize fuel consumption when driving.
Eco-driving, which has been practiced for years in Europe, and is part of the driver education curricula there, is now receiving a lot of attention in the United States because of calls to increase fuel economy standards and reduce carbon dioxide emissions.
“This is a really big deal,” said Matthew Barth, the director of CE-CERT and the Yeager Families Professor of Electrical Engineering. “Automobile manufacturers are doing anything possible to make cars more fuel efficient.”
Much of the eco-driving research at UC Riverside and other Univ. of California campuses, including UC Berkeley, focuses on using an on-board eco-driving device, similar to a GPS unit, which provides instantaneous fuel economy feedback under real-world driving conditions.
In a study last year, 20 drivers in the Riverside area used the eco-driving device, known as Eco-Way, for their daily commute for two weeks. Researchers found it improved fuel economy by 6% on city streets and 1% on highways.
Eco-driving studies in Europe, most of them conducted in pre-planned driving courses, have found fuel economy improvements between 5% and 15%.
A survey provided to the Riverside area drivers found that most are willing to adopt eco-driving practices in the near future. On a one to 10 scale, with 10 being the most likely to adopt, the average score from drivers was 7.4. The survey also found 95% of drivers would adopt eco-driving strategies if gasoline reaches $4.40 per gallon.
The study was performed by Kanok Boriboonsomin, an assistant research engineer at CE-CERT; Alexander Vu, a junior development engineer at CE-CERT; and Barth.
Those same engineers are now working with researchers at UC Berkeley and UC Davis on a follow-up study in the Bay area, which is funded by the Univ. of California’s Institute of Transportation Studies (ITS) Multi-Campus Research Program and Initiative on Sustainable Transportation and ITS Davis’ Honda Endowment for New Mobility Studies.
During the study, participants will use 10 eco-driving devices for two months at a time, said Susan Shaheen, the principal director of the study and co-director of the Transportation Sustainability Research Center at UC Berkeley.
Subjects will take a pre-survey at the beginning of their participation and a post-survey at the end. The study will last eight months and collect data on about 30 participants.
Meanwhile, UC researchers are hoping to obtain funding from federal agencies to conduct a larger-scale eco-driving study, which would likely involve hundreds of vehicles, Barth said.
The study in the Bay area is a public-private partnership that includes UC Berkeley, UC Riverside, UC Davis and Earthrise Technology, a division of Digisec Group. Earthrise, based in Redwood City, specializes in hardware and software components of eco-driving technology; it subsidized the cost of the devices for the study and programmed them according to the needs of the project.
Earthrise also worked with researchers at CE-CERT at UC Riverside on the study completed last year.
On the suggestion UC Berkeley researchers, in Dec. 2009, Earthrise President Jim Disanto approached the researchers at CE-CERT. Disanto, who had studied about a dozen eco-driving and eco-routing systems developed throughout the world, was impressed by what he saw at UC Riverside.
“They were the only ones with a comprehensive and robust system that actually worked,” Disanto said. “They captured all the relative inputs and developed a robust algorithm which effectively modeled and predicted vehicle fuel consumption and emissions across a wide range of operating conditions.”
The partnership between Earthrise and the Univ. of California employs the most up-to-date technology to advise motorists on how specific driving behaviors impact fuel consumption and emissions. In addition, it interprets the more than 3,000 trouble codes in modern vehicles to provide specific and relevant information to drivers on the health of their vehicle, including, for example, low tire pressure, which can reduce gas mileage.
Disanto said this will help drivers understand today’s complex vehicles in ways that promote eco-driving. He noted that eco-driving technology is already in vehicles like the Toyota Prius and Honda Insight. But, unlike those products, his device isn’t tied to the years-long automobile manufacturing cycle because it is a mobile, after-market unit that can be reprogrammed remotely and adjusted to the latest technological developments.