Distracted Driving and Risk of Road Crashes among Novice and Experienced Drivers

Klauer, Sheila G.; Guo, Feng; Simons-Morton, Bruce G.; Ouimet, Marie Claude; Lee, Suzanne E.; Dingus, Thomas A.

doi:10.1056/nejmsa1204142

Cited by 686 publications

(372 citation statements)

References 15 publications

Supporting

Mentioning

354

Contrasting

Unclassified

Order By: Relevance

“…The drivers were recruited from six data collection sites across the United States and included drivers aged 16-98, approximately equally divided by gender (5). Although all age groups of drivers were represented, drivers under age 25 and over age 65 were purposefully oversampled relative to the general US driver population because these groups have an elevated crash risk (8,12).…”

Section: Resultsmentioning

confidence: 99%

“…However, previous NDSs captured a relatively small number of crashes (2,8). To obtain a statistically valid sample of crash factors in earlier NDSs, surrogate measures (e.g., near-crash events) were integrated into analyses.…”

mentioning

confidence: 99%

“…During this study, a case-cohort approach was used to evaluate the risk associated with each contributing factor of a crash (8,10). This approach assesses time-variant risk factors for crashes and controls by contrasting exposure information derived from short time windows-typically those that are seconds long-to maintain relative homogeneous exposure within the window.…”

mentioning

confidence: 99%

See 2 more Smart Citations

Driver crash risk factors and prevalence evaluation using naturalistic driving data

Dingus

Guo

Lee

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

Self Cite

785

380

View full text Add to dashboard Cite

The accurate evaluation of crash causal factors can provide fundamental information for effective transportation policy, vehicle design, and driver education. Naturalistic driving (ND) data collected with multiple onboard video cameras and sensors provide a unique opportunity to evaluate risk factors during the seconds leading up to a crash. This paper uses a National Academy of Sciences-sponsored ND dataset comprising 905 injurious and property damage crash events, the magnitude of which allows the first direct analysis (to our knowledge) of causal factors using crashes only. The results show that crash causation has shifted dramatically in recent years, with driver-related factors (i.e., error, impairment, fatigue, and distraction) present in almost 90% of crashes. The results also definitively show that distraction is detrimental to driver safety, with handheld electronic devices having high use rates and risk.D uring recent years, the percentage of crashes involving some type of driver error or impairment before the crash was thought to be as high as 94% (1). Factors such as vehicle failures, roadway design or condition, or environment composed lower crash percentages. Naturalistic driving studies (NDSs) offer a unique opportunity to study driver performance and behavior experienced in the real world with actual consequences and risks (2-4). The NDS research method developed at the Virginia Tech Transportation Institute (VTTI) involves equipping volunteer participants' vehicles with advanced, unobtrusive instrumentation (e.g., cameras, sensors, radar) that automatically and continuously collects driving parameters-including speed, time to collision, global positioning system (GPS) location, acceleration, and eye glance behavior-from key-on to key-off (2, 5). The recently completed Second Strategic Highway Research Program Naturalistic Driving Study (SHRP 2 NDS), sponsored by the Transportation Research Board (TRB) of the National Academy of Sciences (NAS), is the largest NDS of its kind, capturing more than 35 million miles of continuous naturalistic driving data and 2 petabytes (PB) of video, kinematic, and audio data from more than 3,500 participants (5).NDSs provide insight into the factors that cause crashes, giving researchers the opportunity to observe actual driver behavior and to accurately understand drivers' performance during the minutes or seconds leading up to a crash (6, 7). However, previous NDSs captured a relatively small number of crashes (2,8). To obtain a statistically valid sample of crash factors in earlier NDSs, surrogate measures (e.g., near-crash events) were integrated into analyses. Near-crashes are operationally defined as having the observable factors that could lead to a crash, with one difference present: the performance of a successful evasive maneuver. Although previous studies used near-crashes as a surrogate for estimating crash risk, the accuracy and validity of combining crashes and near-crashes to estimate driver risk are just beginning to be understood (9). With the com...

show abstract

Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

See 1 more Smart Citation

Driver crash risk factors and prevalence evaluation using naturalistic driving data

Dingus

Guo

Lee

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

Self Cite

785

380

View full text Add to dashboard Cite

show abstract

“…Given that driving is generally agreed to have a large visual component [10], this concern is especially pronounced for tasks classified as having heavy visual/manual components, that is, where the driver needs to look away from the traffic and manipulate dials or screens. At the same time, contemporary naturalistic studies show that the act of talking on the phone was not associated with an increased crash risk when separated from dialling and reaching for the phone [11,12].…”

Section: Spoken Language Interfaces In Drivingmentioning

confidence: 96%

Can User-Paced, Menu-free Spoken Language Interfaces Improve Dual Task Handling While Driving?

Eriksson

Lindström

Seward

et al. 2014

Human-Computer Interaction. Advanced Interaction Modalities and Techniques

View full text Add to dashboard Cite

Abstract. The use of speech-based interaction over traditional means of interaction in secondary tasks may increase safety in demanding environments with high requirements on operator attention. Speech interfaces have suffered from issues similar to those of visual displays, as they often rely on a complex menu structure that corresponds to that of visual systems. Recent advances in speech technology allow the use of natural language, eliminating the need for menu structures and offering a tighter coupling between the intention to act and the completion of the action. Modern speech technology may not only make already existing types of interaction safer, but also opens up for new applications, which may enhance safety. One such application is a speech-based hazard reporting system. A small fixed-base simulator study showed that drivers adapt the timing of the hazard reports to the situation at hand, such that an increase in reported workload was avoided.

show abstract

“…Relative to experienced adult drivers, young drivers are more willing to engage in cell phone use while driving (Young andLenne 2010, Tison, Chaudhary et al 2011). Secondary tasks that take the driver's eyes off the forward roadway, including phone answering and dialing, texting, and emailing, increase crash risk (Klauer, Guo et al 2014). …”

Section: Introductionmentioning

confidence: 99%

Teenage Drivers Portable Electronic Device Use While Driving

Ehsani

Simons‐Morton

2015

Proceedings of the 8th International Driving Symposium on Human Factors in Driver Assessment, Training, and Vehicle Design: Dri

View full text Add to dashboard Cite

Summary: Young drivers' crash risk increases when they engage in certain secondary tasks while driving. Using a sample of participants from the NEXT Generation Health Study who reported having an independent driving license and driving at least one day in the last 30 days (n = 1,243), the prevalence of portable electronic device use while driving was estimated. Two measures of prevalence were calculated: (1) engaging in the behavior at least once in the last 30 days; (2) percentage of days engaged in the behavior, relative to the number of days driven in the last 30 days. A total of 82.84% reported engaging in electronic device use while driving at least once in the last 30 days. Specifically, 71.13% made or answered a phone call, 64.84% read or sent a text message, 20.29% read or sent an email, 29.11% checked a website, 71.64% changed music, 12.80% used a tablet or computer, and 52.64% looked at directions or a map. Young drivers reported using electronic devices while driving on 19.06% of the days they drove. Males were more likely to use tablet or computer while driving, teens from moderate and high affluence households were more likely to check websites, and rural participants were less likely to look at directions or a map than urban participants. The number of days participants reported driving in the last 30 days, but not self-reported miles driven, was associated with a higher likelihood of using an electronic device while driving.

show abstract

Distracted Driving and Risk of Road Crashes among Novice and Experienced Drivers

Cited by 686 publications

References 15 publications

Driver crash risk factors and prevalence evaluation using naturalistic driving data

Driver crash risk factors and prevalence evaluation using naturalistic driving data

Can User-Paced, Menu-free Spoken Language Interfaces Improve Dual Task Handling While Driving?

Teenage Drivers Portable Electronic Device Use While Driving

Contact Info

Product

Resources

About