NTL Record

Title Older-Driver Foot Movements
Record ID 62104
Personal Name
Creator
Lococo, Kathy H.; Staplin, Loren; Mastromatto, Tia; Brooks, Johnell O.; Srinivasan, Raghavan; Sifrit, Kathy J.
Corporate Creator TransAnalytics, LLC; Clemson University. International Center for Automotive Research; University of North Carolina at Chapel Hill. Highway Safety Research Center
Corporate
Contributor
United States. Department of Transportation. National Highway Traffic Safety Administration. Office of Behavioral Safety Research
Publisher United States. Department of Transportation. National Highway Traffic Safety Administration
Publication Date 20170701
Language English
Abstract This study explored how drivers 60 and older control the accelerator and brake while driving and parking. It built upon the findings of a study documenting the prevalence and characteristics associated with pedal misapplication crashes (Lococo, Staplin, Martell, & Sifrit, 2012). Researchers measured functional ability, and used an instrumented vehicle on a test route in actual traffic to obtain measures of foot movement and positioning that could be expected to affect the likelihood of a pedal error. Participants included two medical status groups: (1) a medical conditions group comprised of six drivers with peripheral neuropathy of the feet and two drivers with a recent right hip replacement, and (2) a group of 18 normally aging drivers. Researchers also documented participants’ height, and femur and tibia length to determine whether these factors were related to pedal control. An additional objective was to learn how older drivers positioned their seat in relation to the brake, and whether poor vehicle fit was associated with stature, tibia or femur length, leg functional reach, and/or driver sex. Anthropometry, rather than medical status group, accounted for the majority of significant differences in foot movements; differences by sex were also observed. Short stature and shorter tibia and/or femur length were related to lifting the foot during the transfer from accelerator to brake (rather than pivoting), more efficient foot movements, longer foot hover time, and foot placement on the brake closer to the center of the pedal. Females were more likely to lift the foot, while males pivoted. Females had faster transfer time and foot placement closer to the center of the brake. Normally aging participants pressed the brake slightly harder than those in a medical conditions group. There were no differences between groups in on-road performance. However, drivers with medical conditions scored significantly poorer than the normally aging drivers while parking. A logistic regression found that leg functional reach (but not sex, height, or any other individual lower limb measure), was significantly related to goodness of fit; as leg functional reach decreased, the probability of good fit decreased. Pedal extenders may be a solution for drivers who must fully extend their legs to reach their pedals to maintain a safe distance from the airbag. Power adjustable pedals as standard equipment would permit better fit for all drivers, without the inconvenience of acquiring and installing pedal extenders, especially for multiple-operator vehicles. Education to reinforce safe seat positioning for every trip is also recommended.
Rosap ID dot:2101
Rosap URL https://rosap.ntl.bts.gov/view/dot/2101
ResearchHub ID 10776
TRT Terms Aged drivers; Brakes; Cameras; Cognitive impairment; Countermeasures; Crashes; Drivers; Injuries; Pedals
General Subjects Pedal application errors; pedal misapplication; unintended acceleration; safety; older drivers; driver performance; functional abilities; human factors; medical conditions; peripheral neuropathy; mild cognitive impairment; orthopedic surgery; Research Hub
Geographical
Coverage
United States
TRIS Online
Accession No
1642468
Contract Number DTNH22-11-D-00223, Task Order No. 02
Report Number DOT HS 812 431
Availability NHTSA - Behavioral Safety Research
Resource type Tech Report
URL https://ntlrepository.blob.core.windows.net/lib/62000/62100/62104/812431-older-driver-foot-movement.pdf
Format PDF
Database NTL Digital Repository