Abstract
While partially automated vehicles can provide a range of benefits, they also bring about new Human Machine Interface (HMI) challenges around ensuring the driver remains alert and is able to take control of the vehicle when required. While humans are poor monitors of automated processes, specifically during `steady state' operation, presenting the appropriate information to the driver can help. But to date, interfaces of partially automated vehicles have shown evidence of causing cognitive overload. Adaptive HMIs that automatically change the information presented (for example, based on workload, time or physiologically), have been previously proposed as a solution, but little is known about how information should adapt during steady-state driving. This study aimed to classify information usage based on driver experience to inform the design of a future adaptive HMI in partially automated vehicles. The unique feature of this study over existing literature is that each participant attended for five consecutive days; enabling a first look at how information usage changes with increasing familiarity and providing a methodological contribution to future HMI user trial study design. Seventeen participants experienced a steady-state automated driving simulation for twenty-six minutes per day in a driving simulator, replicating a regularly driven route, such as a work commute. Nine information icons, representative of future partially automated vehicle HMIs, were displayed on a tablet and eye tracking was used to record the information that the participants fixated on. The results found that information usage did change with increased exposure, with significant differences in what information participants looked at between the first and last trial days. With increasing experience, participants tended to view information as confirming technical competence rather than the future state of the vehicle. On this basis, interface design recommendations are made, particularly around the design of adaptive interfaces for future partially automated vehicles.
Highlights
Automated vehicles (SAE Level 2-3) have the potential to provide a wide range of benefits for users, such as increased safety and a better user experience compared to current vehicles [1]
VI CONCLUSION This study aimed to classify the information usage for drivers of partially automated vehicles and understand how these requirements changed over time with increased exposure to the system during steady-state driving; to inform the design of an adaptive interface
This paper is one of the first to explore the change in information usage in partially automated vehicles over multiple exposures
Summary
Automated vehicles (SAE Level 2-3) have the potential to provide a wide range of benefits for users, such as increased safety and a better user experience compared to current vehicles [1]. They introduce new challenges for the Human Machine Interface (HMI) in the vehicle, namely around ensuring the driver remains in-theloop and ready to take over control from the system when notified [2].
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