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IIHS study finds reflective clothing may impede pedestrian avoidance tech

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The clothing that makes pedestrians stand out to human drivers may make them invisible to automated crash prevention systems, according to a new Insurance Institute for Highway Safety (IIHS) study.

“These results suggest that some automakers need to tweak their pedestrian automatic emergency braking systems,” said IIHS President David Harkey, in a press release. “It’s untenable that the clothes that pedestrians, cyclists, and roadway workers wear to be safe may make them harder for crash avoidance technology to recognize.”

IIHS notes in the release that its previous research shows pedestrian automatic emergency braking (AEB) systems, in general, reduce the rate of pedestrian-involved crashes of all severities by 27%. However, on dark roads, the effect of pedestrian AEB on crash risk is negligible, IIHS said.

“That’s a serious problem, as most fatal pedestrian crashes happen at night,” IIHS said in the release. “Automakers are already working to address the issue in response to IIHS ratings that now emphasize nighttime performance but in the real world, a host of factors come into play.”

IIHS researched the effects of conspicuous clothing and increased roadway lighting on the performance of the pedestrian AEB systems installed in three 2023 models — a Honda CR-V, Mazda CX-5, and Subaru Forester.

Before 2024, IIHS assigned separate ratings for daytime and nighttime pedestrian front crash prevention. In the nighttime evaluation, the Forester earned the highest rating of superior and the CR-V earned an advanced rating. The CX-5 was not evaluated.

In the standard IIHS test, the child and adult pedestrian dummies wear black shirts and blue pants.

For the current study, researchers conducted multiple trials with an adult-sized dummy clothed fully in white, fully in black, black with retroreflective strips, and black pants with a highly retroreflective jacket. Retroreflective strips were added to the black sweatshirt and sweatpants at the dummy’s limbs and joints.

The tests were run at 25 mph with no roadway lighting and with 10 lux of illumination in the crosswalk, or with the federally recommended 20 lux of illumination in the crosswalk. The dummy crossed the track perpendicular to the vehicle’s path in all scenarios.

The CR-V and CX-5 hit the dummy in 84% and 88% of the test runs, respectively, while the Forester avoided a collision in all but one trial. Neither the CR-V nor CX-5 slowed at all when the dummy was wearing clothing with reflective strips at its limbs. Otherwise, the performance of the Honda and Mazda crash avoidance systems varied.

When the dummy was dressed in black, both vehicles slowed substantially when using their high beams and no roadway illumination. Using their low beams in those same conditions, the CR-V failed to slow and the CX-5 reduced its speed by less than a third. Both vehicles did much better with 20 lux of additional light.

For all the other types of clothing, the vehicles were only tested using their low beams.

When the dummy was dressed in the reflective jacket, the CR-V didn’t slow in any of the trials, regardless of additional roadway lighting.

In contrast, with no roadway illumination and with 10 lux of added light, the CX-5 slowed much more than it did when the dummy was wearing black. With 20 lux of added light, it performed worse with the dummy in the reflective jacket than when it was wearing the black outfit.

When the dummy was dressed in white, the CR-V didn’t slow with no added roadway illumination but notched up its best performances with 10 and 20 lux of added light. However, it did better with 10 lux of illumination than with 20 lux.

The CX-5 performed better than it did with the dummy in black but not as well as with the dummy wearing the reflective jacket. It also slowed less with increased roadway illumination when the dummy was wearing white.

The Subaru came to a complete stop without hitting the pedestrian dummy in every trial except one run in which the dummy was wearing clothing with reflective strips, and the roadway was illuminated to 10 lux. However, it still slowed by more than 80%.

“The placement and motion of reflective strips on the joints and limbs of pants and jackets allows drivers to quickly recognize the pattern of movement as a person,” said study author David Kidd, a senior research scientist at IIHS, in the release. “Unfortunately, the moving strips didn’t have the same effect for the pedestrian AEB systems we tested and probably confounded their sensors.”

It’s not clear why the Honda and Mazda systems struggled with the reflective strips or how many other systems might have trouble identifying pedestrians wearing this type of clothing, IIHS said.

“However, the lapse is a concern, considering the number of roadway workers and emergency personnel who use similar garments to mitigate risk when they’re working on the road,” the release says. “Further research is needed to determine how crash avoidance systems respond to the specific safety equipment used by such workers.”

Harkey called it a “worrisome blind spot.”

“To make good on their potential, pedestrian detection systems have to work with the other commonly used safety measures,” he said.

Images

Featured image shows pedestrian AEB testing conducted by IIHS. (Provided by IIHS)

A pedestrian mannequin dressed in white clothing (upper left), black clothing (upper right), black clothing with retroreflective strips (lower left), and black pants with a highly retroreflective jacket (lower right) are pictured. (Provided by IIHS)

Chart provided by IIHS

More information

NHTSA makes changes to AEB rule despite automaker policy group pushback against ‘disastrous decision’

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