Sarah Widrow scite author profile

Sarah Widrow

2Publications

2Citation Statements Received

21Citation Statements Given

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University of Massachusetts Amherst

Publications

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Users’ Perception Of Training Approaches For Advanced Driver Assistance Systems (Adas)

Pai

Hungund

Widrow

et al. 2021

Proceedings of the Human Factors and Ergonomics Society Annual

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Advanced Driver Assistance Systems (ADAS) provide safety and comfort while driving. However, to effectively use ADAS, it is necessary for users to have proper knowledge of the systems and to trust the system to operate safely. Providing knowledge about operational capabilities and limitations of a system may help improve drivers’ mental models and calibrate their trust resulting in proper use of ADAS. Traditionally system information is provided via the owner’s manual, which is known to be tedious and time-consuming and underscores the need for alternate training approaches. This study evaluates two training methods, Text-Based and System Visualization, to examine users’ perceptions of training and change in trust after training. Results show that although training did not affect users’ trust, a qualitative examination showed that users preferred the Text-Based method rather than the Visualization method.

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A Wizard-of-Oz experimental approach to study the human factors of automated vehicles: Platform and methods evaluation

Pai

Widrow

Radadiya

et al. 2020

Traffic Injury Prevention

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Objectives: Driving simulation is an important platform for studying vehicle automation. There are different approaches to using this platformwith most using scripting or programmatic tools to simulate vehicle automation. A less frequently used approach, the Wizard-of-Oz method, has potential for increased flexibility and efficiency in designing and conducting experiments. This study designed and evaluated an experimental setup to examine the feasibility of this approach as an alternative for conducting automation studies. Methods: Twenty-four participants experienced simulated vehicle automation in two platforms, one where the automation was controlled by algorithms, and the other where the automation was simulated by an external operator. Surveys were administered after each drive and the drivers' takeover performance after the automation disengaged was measured. Results: Results indicate that while the kinematic parameters of the driving differed significantly for the two platforms, there were no significant differences in the perceptions of participants and in their takeover performance between the two platforms. Conclusion: These results provide evidence for the use of alternative approaches for the conduct of human factors studies on vehicle automation, potentially lowering barriers to undertaking such experiments while increasing flexibility in designing more complex studies.

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Sarah Widrow

Users’ Perception Of Training Approaches For Advanced Driver Assistance Systems (Adas)

A Wizard-of-Oz experimental approach to study the human factors of automated vehicles: Platform and methods evaluation

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