https://arstechnica.com/cars/2024/01/higher-vehicle-hoods-significantly-increase-pedestrian-deaths-study-finds/ Skip to main content * Biz & IT * Tech * Science * Policy * Cars * Gaming & Culture * Store * Forums Subscribe [ ] Close Navigate * Store * Subscribe * Videos * Features * Reviews * RSS Feeds * Mobile Site * About Ars * Staff Directory * Contact Us * Advertise with Ars * Reprints Filter by topic * Biz & IT * Tech * Science * Policy * Cars * Gaming & Culture * Store * Forums Settings Front page layout Grid List Site theme light dark Sign in go low, go slow -- Higher vehicle hoods significantly increase pedestrian deaths, study finds Single-vehicle, single-pedestrian crash data for 2016-2021 finds hoods a problem. Jonathan M. Gitlin - Jan 23, 2024 3:55 pm UTC Big red SUV Enlarge / It actually feels intimidating standing next to a vehicle like this GMC Yukon Denali when the hood is level with your shoulder. Jonathan Gitlin reader comments 353 It's hard to escape the fact that American trucks and SUVs have been on a steroid-infused diet for the last few years. The trend was all too apparent at the last auto show we went to--at Chicago in 2020, I felt physically threatened just standing next to some of the products on display by GMC and its competitors. Intuitively, the supersized hood heights on these pickups seem more dangerous to vulnerable road users, but now there's hard data to support that. It hasn't been a great few years to be a pedestrian in the United States. These most vulnerable road users started being killed by drivers more frequently in 2020, and while some states were able to reverse that trend, others went the other way, making 2022--the last year for which there is full data--the most deadly year on record for US pedestrians. The problem has multiple causes. For decades, urban planners have prioritized car traffic above everything else, and our built environment favors speeding vehicles at the cost of people trying to cross roads or cycle. But it's not all just the fault of those planners, as the vehicles we drive play a large role, too. Some of that is the switch from sedans to crossovers, SUVs, and pickup trucks. Data from the 1990s found that a pedestrian hit by a light truck was two to three times more likely to be killed, with another study finding that light trucks were twice as likely to injure a pedestrian than a car, especially at low speed. Now, a new study published in the journal Economics of Transportation has analyzed the National Highway Traffic Safety Administration's crash data from 2016-2021, looking at crashes involving one vehicle and one pedestrian. The author, Justin Tyndall at the University of Hawai'i, matched NHTSA's crash reporting sampling system data for those years to vehicle specifications where the vehicle's VIN was included in the CRSS data. Advertisement Tyndall's data set started with 13,783 single-vehicle, single-pedestrian crashes, then filtered out those instances where there was no VIN recorded, except if the report included make and model. He also removed entries that did not record other important variables, such as vehicle speed, leaving a sample size of 3,375 crashes. To make sure the smaller data set was still representative, Tyndall looked at the full data set as well as the final sample. He found "that average crash characteristics are similar across the two samples, suggesting that the reduced sample is broadly representative of the original data set," although he notes that 6.7 percent of crashes in the large set resulted in a pedestrian death, while 9.1 percent of crashes in the smaller, final sample were fatal for the pedestrian. Pickups and SUVs are more dangerous to pedestrians There were 1,779 unique vehicles (as determined by make, model, and model year) in the data set. Pickups and full-size SUVs had significantly taller hoods than the average car, at 28 percent and 27 percent, respectively. Minivans weren't much better, at 24 percent taller than the hood on an average sedan. Even compact SUVs--also known as crossovers--were 19 percent taller. Pickups and full-size SUVs were also much heavier than the average vehicle: 55 percent for SUVs and 51 percent for pickup trucks. Tyndall also notes that while the data set only spans six years, over that time, "the median front-end height increased by 5 percent," while weight increased slightly less (3 percent), and the chance that the vehicle was a light truck rather than a car went up by 11 percent. Of the 3,375 crashes, 308 saw the vehicle kill the pedestrian. When examined by vehicle type, vans proved to be the least dangerous to pedestrians, with a 6.6 percent chance of death. Cars were a bit worse--8.5 percent of pedestrians hit by a sedan or hatchback were killed. Compact SUVs were roughly the same as cars at 8.8 percent. Page: 1 2 Next - reader comments 353 Jonathan M. Gitlin Jonathan is the Automotive Editor at Ars Technica. He has a BSc and PhD in Pharmacology. In 2014 he decided to indulge his lifelong passion for the car by leaving the National Human Genome Research Institute and launching Ars Technica's automotive coverage. He lives in Washington, DC. Advertisement Promoted Comments [337983] Defenestrar Thank you for linking to an open paper. I wondered about the mechanism of impact with respect to vehicle height and the paper indeed got into this. Pedestrians may be particularly vulnerable to changing vehicle heights as the high front-ends of large vehicles mean the point of first contact in a collision with a pedestrian is more likely to be in the torso or head, rather than the legs. Vehicles with higher front-ends are also more likely to push the pedestrian under the vehicle rather than deflecting them onto the hood. Which followed by a summary of simulations done by other researchers with respect to injury. January 23, 2024 at 4:16 pm [845135] DovePig Since some people still don't seem to get that a tall, blunt front obviously results in very unfavourable crash kinematics for the struck pedestrian and worse and more numerous torso injuries, a little infographic from a similar IIHS study, fig. "Comparative risk of pedestrian fatality by hood leading edge height and shape": pedestr.png (colours edited to better show the point) January 23, 2024 at 7:44 pm Channel Ars Technica - Previous story Next story - Related Stories Today on Ars * Store * Subscribe * About Us * RSS Feeds * View Mobile Site * Contact Us * Staff * Advertise with us * Reprints Newsletter Signup Join the Ars Orbital Transmission mailing list to get weekly updates delivered to your inbox. Sign me up - CNMN Collection WIRED Media Group (c) 2024 Conde Nast. All rights reserved. Use of and/or registration on any portion of this site constitutes acceptance of our User Agreement (updated 1/1/20) and Privacy Policy and Cookie Statement (updated 1/1 /20) and Ars Technica Addendum (effective 8/21/2018). Ars may earn compensation on sales from links on this site. Read our affiliate link policy. 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