Design and Evaluation of a Workload-Adaptive Haptic Shared Control Framework for Semi-Autonomous Driving

Haptic shared control of an autonomy-enabled vehicle is used to manage the control authority allocation between a human and autonomy smoothly. Existing haptic shared control schemes, however, do not take the workload condition of human into account. To fill this research gap, this study develops a n...

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Bibliographic Details
Main Authors: Weng, Yifan, Luo, Ruikun, Jayakumar, Paramsothy, Brudnak, Mark J., Paul, Victor, Desaraju, Vishnu R., Stein, Jeffrey L., Yang, X. Jessie, Ersal, Tulga
Format: Conference Proceeding
Language:English
Subjects:
Cost function
Haptic interfaces
Impedance
Measurement
Task analysis
Torque
Wheels
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Summary:Haptic shared control of an autonomy-enabled vehicle is used to manage the control authority allocation between a human and autonomy smoothly. Existing haptic shared control schemes, however, do not take the workload condition of human into account. To fill this research gap, this study develops a novel haptic shared control scheme that adapts to a human operator's workload in a semi-autonomous driving scenario. Human-in-the-loop experiments with 8 participants are reported to evaluate the new scheme. In the experiment, a human operator and an autonomous navigation module shared the steering control of a simulated teleoperated vehicle in a path tracking task while the speed of the vehicle is controlled by autonomy. High and low screen refresh rates were used to create moderate and high workload cases, respectively. Results indicate that adaptive haptic control leads to less driver control effort without sacrificing the path tracking performance when compared with the non-adaptive case.
ISSN:2378-5861
DOI:10.23919/ACC45564.2020.9147482