Revamping EPA tests could lead manufacturers to design more fuel-efficient self-driving cars

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Mar 22, 2016, 09:00 ET

PITTSBURGH, March 22, 2016 /PRNewswire/ -- Researchers in the College of Engineering at Carnegie Mellon University discovered that fuel efficiency for self-driving cars could improve by up to 10% if fuel economy and emissions standards tests were revamped to account for the early autonomous vehicle (AV) technologies likely to be offered in the coming years. Further, without changes to the current tests to include AV technologies, the research found fuel economy could degrade by 3%, depending on how manufacturers program AVs.

Research conducted by Assistant Professor of Civil & Environmental Engineering Constantine Samaras and Ph.D. student Avi Chaim Mersky reveals that current Environmental Protection Agency (EPA) standardized tests do not take into account how current AV technologies, like adaptive cruise control, and future AV technologies will impact vehicle fuel use. As AV technologies are gradually adopted, more aspects of driving will shift from human drivers to the car. Connected self-driving cars will have the capacity to predict how other cars will behave on the road. These predictive capabilities will govern how smoothly self-driving cars accelerate and decelerate when following other cars, which significantly affects fuel use.

"Because existing standardized tests don't consider AV technologies, there are limited incentives for car manufacturers to design cars for optimum fuel efficiency. The EPA can use our research as a starting point in redesigning fuel economy testing for autonomous vehicles," says Samaras.

In the study, researchers developed simulations to incorporate AV technologies within the bounds of current fuel economy testing, and they simulated a range of AV testing scenarios to estimate changes in fuel economy. They examined how driverless cars will perform when sharing the road with primarily conventional vehicles, and they looked at connected vehicle scenarios in which information about a lead car's travel behavior was communicated to an AV following this lead car. The study found that more advanced connectivity could enhance a vehicle's performance by providing the vehicle with more time to plan future actions. The longer the vehicle plans into the future, the greater the fuel economy benefits.

"What we have quantified is that fuel economy testing will need to account for AV technologies in the not-so-distant future," says Mersky. To start these discussions, the study provided suggestions on how current EPA fuel economy tests could be modified to address AV technologies.

The study, "Fuel economy testing of autonomous vehicles," was published in Transportation Research Part C: Emerging Technologies.

About the College of Engineering: The College of Engineering at Carnegie Mellon University is a top-ranked engineering college that is known for our intentional focus on cross-disciplinary collaboration in research. The College is well-known for working on problems of both scientific and practical importance. Our acclaimed faculty have a focus on innovation management and engineering to yield transformative results that will drive the intellectual and economic vitality of our community, nation and world.

The College offers graduate and undergraduate degree programs in biomedical engineering, chemical engineering, civil and environmental engineering, electrical and computer engineering, engineering and public policy, information networking, materials science and engineering and mechanical engineering. Our "maker" culture is ingrained in all that we do, leading to novel approaches and transformative results.

About Carnegie Mellon University: Carnegie Mellon (www.cmu.edu) is a private, internationally ranked university with programs in areas ranging from science, technology and business to public policy, the humanities and the arts. More than 13,000 students in the university's seven schools and colleges benefit from a small faculty-to-student ratio and an education characterized by its focus on creating and implementing solutions for real world problems, interdisciplinary collaboration and innovation.

Media contact: Brianne O'Donnell, 212-715-1571, [email protected]

SOURCE Carnegie Mellon University