AAA finds serious limitations of Automatic Emergency Braking

Sept. 29, 2022
In testing the latest latest generation of AEB, AAA found it struggled with higher speeds and failed to detect moving vehicles in its path at intersections.

Touted as lifesaving, crash-preventing tech, Automatic Emergency Braking (AEB) is standard equipment in most new cars sold in the United States. Over the years, AEB has successfully stemmed rear-end crashes, which often result in injuries, property damage, and even fatalities, but American Automobile Association (AAA) wanted to know if the latest generation of AEB can handle higher speeds and detect moving vehicles in its path at intersections. It struggled with the former and failed with the latter.

“Automatic Emergency Braking does well at tackling the limited task it was designed to do," said Greg Brannon, director of AAA’s automotive engineering and industry relations. "Unfortunately, that task was drawn up years ago, and regulators' slow-speed crash standards haven’t evolved. Testing requirements for this technology, or any vehicle safety system for that matter, must be updated to handle faster, more realistic speeds, and scenarios with the greatest safety benefit for drivers.”

The issue

AEB uses forward-facing cameras and other sensors to automatically tell the car to apply the brakes when a crash is imminent. It has reduced rear-end crashes at slower speeds, and the technology has been refined over the years with upgraded hardware and software, but two of the most common deadly crashes at intersections are T-bones and left turns in front of oncoming vehicles. From 2016 to 2020, these two types accounted for 39.2 percent of total fatalities in crashes involving two passenger vehicles during which the striking vehicle did not lose traction or leave the roadway before the collision.

What AAA tested

AEB rear-end crash performance when encountering a stationary vehicle at speeds of 30 and 40 mph (currently mandated testing speeds are 12 and 25 mph)

  • AEB performance when encountering moving vehicles in collision scenarios involving an intersection – T-bone and unprotected left turn (test vehicle turning left in front of an oncoming car).

The result

  • At 30 mph, AEB prevented a rear-end collision for 17 of 20 test runs, or 85 percent. For the test runs that resulted in a crash, the impact speed was reduced by 86 percent.
  • At 40 mph, AEB only prevented a rear-end crash in six of 20 test runs, or 30 percent. For test runs that resulted in a crash, the impact speed was reduced by 62 percent.
  • In both the T-bone and left-turn in front of oncoming vehicle tests, crashes occurred 100 percent of the time. AEB failed to alert the driver, slow the vehicle’s speed, and avoid the crash.

AEB is common in vehicles, regardless of price. Starting on Sept. 1, 20 automakers representing more than 99 percent of the U.S. market pledged to make AEB standard equipment on all their new vehicles.

What's next?

AAA strongly urges automakers and regulatory agencies to focus on system design and test protocols to better handle the types of crashes when injuries and fatalities commonly occur.

Automakers must improve AEB systems to assist drivers in intersection-based crash scenarios. Automakers should include AEB systems as standard equipment on all their makes and models.

Drivers must recognize an AEB system’s limitations and remain engaged when behind the wheel.

Methodology

AAA selected four vehicles for testing, choosing two of each driver monitoring design type, camera-equipped and input from the steering wheel. AAA does not rate vehicle performance. The vehicles were as follows:

  • 2022 Chevrolet Equinox LT with “Chevy Safety Assist”
  • 2022 Ford Explorer XLT with “Pre-Collision Assist with Automatic Emergency Braking”
  • 2022 Honda CR-V Touring with “Honda Sensing”
  • 2022 Toyota RAV4 LE with “Toyota Sensing”

The vehicles were procured directly from the manufacturer or specialty rental fleets. To ensure the proper functioning of the AEB system, all vehicles were serviced at dealerships. Refer to the full report for methodology details, including specific testing equipment and test track characteristics.

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