Keeping alumni and friends connected to U-M

Autonomous vehicle with LiDAR sensors on top. Image credit: Ford
Autonomous vehicle with LiDAR sensors on top. Image credit: Ford

Autonomous cars in the snow

By Nicole Casal Moore
.

First of its kind

Typical autonomous vehicle sensors are useless on snow-covered roads, but researchers at U-M and the Ford Motor Co. are collaborating on a solution. In Michigan and on U-M’s 32-acre Mcity simulated urban environment, they have conducted what they believe are the industry’s first tests of autonomous vehicles in wintry conditions.

The U-M researchers leading the effort with Ford are Edwin Olson, an associate professor of computer science and engineering, and Ryan Eustice, an associate professor of naval architecture and marine engineering as well as electrical engineering and computer science.

“It’s one thing for a car to drive itself in perfect weather. It’s quite another to do the same thing when its sensors cannot sense the road through snow, or when visibility is limited by falling precipitation,” said Jim McBride, Ford’s technical leader for autonomous vehicles, in a statement from the automaker. “In Ford’s home state of Michigan, we know weather isn’t always perfect. That’s why we’re conducting testing – for the roughly 70 percent of U.S. residents who live in snowy regions.”

Sensory perception

One of the keys to safe autonomous driving is for a vehicle to know where it is, not just along a road but also within a driving lane. Even being off by a few inches can make a big difference, researchers say. Under sunny skies, Ford’s testbed autonomous Fusion Hybrid sedans rely on LiDAR sensors that can pinpoint lane location with centimeter accuracy. LiDAR emits short pulses of laser light to precisely allow the vehicle to create a real-time, high-definition 3D image of what’s around it.

However, LiDAR cannot see the road when snow obstructs it from view – like during inclement weather or in high-density traffic, according to a Ford statement. The same is true when snow, grime, or debris covers the sensor lens.

The solution Ford and U-M are working on involves high-resolution, 3D maps – complete with information about the road and what’s above it, including road markings, signs, geography, landmarks, and topography. U-M researchers have developed these maps and Ford’s test vehicles are equipped with them.

“Maps developed by other companies don’t always work in snow-covered landscapes. The ones developed by Ford and the University of Michigan do,” says Eustice. “The maps we create contain useful information about the 3D environment around the car, allowing it to localize even with a blanket of snow covering the ground.”

A LiDAR image of Ann Arbor in snow. Image credit: Ryan Eustice

A LiDAR image of Ann Arbor in snow. (Image credit: Ryan Wolcott and Ryan Eustice.)

The autonomous vehicles create the maps while driving the test environment in favorable weather. Technologies automatically annotate features like traffic signs, trees, and buildings later. Then, when the vehicles cannot see the ground, they detect above-ground landmarks to pinpoint themselves on the map, which they then use to drive successfully.

“The vehicle’s normal safety systems, like electronic stability control and traction control, which often are used on slippery winter roads, worked perfectly alongside the autonomous driving software,” says McBride. “We eventually want our autonomous vehicles to detect deteriorating conditions, decide whether it’s safe to keep driving, and if so, for how long.”

“It’s exciting to take these first steps toward autonomous cars that work in foul weather,” Olson says. “This achievement is a superb example of what U-M and Ford can achieve by working together.”

(Top image: Autonomous vehicle with LiDAR sensors on top. Image credit: Ford.)

Nicole Casal Moore

Nicole Casal Moore

NICOLE CASAL MOORE spent five years as a newspaper reporter covering natural resources, agriculture and environment, as well as state and county governments in California and Virginia. She worked as an online magazine editor and public affairs manager at the National Conference of State Legislatures in Denver for five years. She has been a science writer and public relations representative at Michigan News and the U-M College of Engineering since 2007. Follow her on Twitter: @UMengineering and @UMncmoore.

COMMENTS

  • Jessyca Riggleman

    Will it be able to detect potholes? Don’t need my future autonomous car giving itself flat tires.

    Reply

LEAVE A COMMENT: