The Dimensions of Driver Performance during Secondary Manual Tasks

Young, Richard A.; Angell, Linda

doi:10.17077/drivingassessment.1103

Cited by 14 publications

(29 citation statements)

References 1 publication

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“…It accomplished this result despite the near collinearity of several of the variables (see Young & Angell, 2003), contrary to conventional statistical wisdom. We believe this result is because the variables selected for the MLR model were based on extensive analysis, and expertise from experienced applied statistical analysts.…”

Section: Model Methods Comparisonmentioning

confidence: 83%

“…Ten driver performance variables were measured for the static and dynamic tests (Table 1, see also Angell, et al 2002;Young & Angell, 2003). There were two trials for each task for each participant for tasks in sets 1 and 2.…”

Section: Variables Data Collection and Preliminary Data Analysismentioning

confidence: 99%

“…The multiple variables on the dynamic side as well as the static side can be reduced into a few components that are more robust than any single variable (Young & Angell, 2003). Advanced statistical methods can then be used to optimize the prediction from the lab to road components, rather than the individual variables.…”

Section: Future Workmentioning

confidence: 99%

“…Advanced statistical methods can then be used to optimize the prediction from the lab to road components, rather than the individual variables. At least three components must be used both statically and dynamically, because on-road driver demand is known to require at least three separate dimensions to specify it fully, at least under these test conditions (Young & Angell, 2003).…”

Section: Future Workmentioning

confidence: 99%

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Road-to-Lab: Validation of the Static Load Test for Predicting On-Road Driving Performance While Using Advanced In-Vehicle Information and Communication Devices

Young

Aryal

Muresan

et al. 2005

Driving Assessment 2005 : Proceedings of the 3rd International Driving Symposium on Human Factors in Driver Assessment, Trainin

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Summary: Information, communication, and navigation devices need to be evaluated for ease-of-use and safety while driving. Lab tests, if validated, can evaluate prototype designs faster, more economically, and earlier than on-road tests. The Static Load Test was evaluated for its ability to predict on-road driver performance while using in-vehicle devices. In this test, participants perform various in-vehicle tasks in a lab while viewing a videotaped road scene on a monitor, tapping a brake pedal when a central or peripheral light is observed. For the on-road comparison test, the device, tasks, and lights are the same, but the participants also drive the vehicle while performing the tasks and responding to the lights. In both the lab and road tests, ten driver performance variables were measured. Our goal was to produce a linear model to predict an on-road variable from the lab data with low residual error, high percent variance explained, and few errors in classifying tasks as meeting or not meeting on-road driver performance criteria. Separate test data from a replicated Static Load Test at an independent lab were used to further validate the models. The results indicate a simple, inexpensive, and low-fidelity Static Load Test can accurately predict a number of on-road driver performance variables suitable for assessing the safety and ease-of-use of advanced in-vehicle devices while driving.

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Section: Model Methods Comparisonmentioning

confidence: 83%

Section: Variables Data Collection and Preliminary Data Analysismentioning

confidence: 99%

Section: Future Workmentioning

confidence: 99%

Section: Future Workmentioning

confidence: 99%

See 2 more Smart Citations

Road-to-Lab: Validation of the Static Load Test for Predicting On-Road Driving Performance While Using Advanced In-Vehicle Information and Communication Devices

Young

Aryal

Muresan

et al. 2005

Driving Assessment 2005 : Proceedings of the 3rd International Driving Symposium on Human Factors in Driver Assessment, Trainin

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“…Yet conventional driver workload variables had high lab-to-road correlations for the identical tasks (r > 0.9), suggesting something unusual about event detection variables that warranted further investigation. Young and Angell (2003) did a principal component analysis of a large set of driver performance variable means, for a wide range of visual-manual tasks, using event lights on the hood and side mirror while driving on a closed road. They showed that across tasks, event detection on the road is positively correlated with driver workload variables on the first dimension, but negatively on the second.…”

Section: Static Load Test (Slt)mentioning

confidence: 99%

Validation of the Static Load Test for Event Detection During Hands-Free Conversation

Young

Angell

Sullivan

et al. 2009

Proceedings of the 5th International Driving Symposium on Human Factors in Driver Assessment, Training, and Vehicle Design : Dr

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Summary:Objective. To see if visual event reaction times (RTs) during handsfree conversation conditions in the Enhanced Static Load Test (ESLT) can predict RTs in similar conditions in on-road driving. Methods. Brake reaction times to random center and side light events were measured while watching a driving video, attempting to keep a marker in the center of the lane with a steering wheel, answering the phone by pressing a button, and carrying on neutral or angry handsfree conversations in covert (silent) or overt mode on a hands-free phone device. Open-road tests were conducted in traffic for subjects with similar side and front light events, with foot reaction times measured while engaged in the same secondary tasks and conditions. Results. Mean RTs for the task segments in the lab were predictive of the mean RTs for the corresponding task segments in the on-road test (r = 0.90, df = 16, p < 0.000001). Conclusion. This study validates the Enhanced Static Load Test as predictive of visual event RTs during open-road driving for the range of experimental conditions and tasks considered.

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Intelligent intersection support for powered two-wheeled riders: a human factors perspective

Huth

Lot

Biral

et al. 2012

IET Intell. Transp. Syst.

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Given that intersections represent particularly hazardous situations for riders of powered two wheelers, an intelligent intersection support system has been developed. This system provides a warning whenever the rider approaches an intersection at an unsafe speed. This study reports the results of a pilot evaluation of the system from a human factors perspective. In a motorcycle simulator, the system was tested with two alternative rider interfaces: a force feedback throttle and a haptic glove. Riding with the system versions was compared with riding without support. Although the number of potentially critical situations did not decrease when using the system, the results confirm that the warnings by both system versions led to a significantly reduced approach speed to the intersection, at least in a rural scenario. The riders perceived more benefits from riding with the intersection support when the warning was transmitted by the haptic glove than when they received the alert by the force feedback throttle. Accordingly, the acceptance of the latter system version was much lower. Relevant factors for the safety potential of the intersection support system are discussed and further research needs are deduced from the limitations of the stud

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The Dimensions of Driver Performance during Secondary Manual Tasks

Cited by 14 publications

References 1 publication

Road-to-Lab: Validation of the Static Load Test for Predicting On-Road Driving Performance While Using Advanced In-Vehicle Information and Communication Devices

Road-to-Lab: Validation of the Static Load Test for Predicting On-Road Driving Performance While Using Advanced In-Vehicle Information and Communication Devices

Validation of the Static Load Test for Event Detection During Hands-Free Conversation

Intelligent intersection support for powered two-wheeled riders: a human factors perspective

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