Abstract
The envisioned introduction of autonomous Small Unmanned Aircraft Systems (sUAS) into low-altitude urban airspace necessitates high levels of system safety. Despite increased system autonomy, humans will most likely remain an essential component in assuring safety. This paper derives, applies, and evaluates a display design concept that aims to support safety risk monitoring of multiple sUAS by a human operator. The concept comprises of five design principles. The core idea of the concept is to limit display complexity despite increasing the number of sUAS monitored by primarily visualizing highly abstracted information while hiding detailed information of lower abstraction, unless specifically requested by the human operator. States of highly abstracted functions are visualized by function-specific icons that change hue in accordance to specified system states. Simultaneously, the design concept aims to support the human operator in identifying off-nominal situations by implementing design properties that guide visual attention. The display was evaluated in a study with seven subject matter experts. Although preliminary, the results clearly favor the proposed display design concept. The advantages of the proposed design concept are demonstrated, and the next steps for further exploring the proposed display design concept are outlined.
Highlights
In recent years, numerous research papers have been published that envision the operation of highly automated or even autonomous Unmanned Aircraft Systems (UAS) in low-altitude urban airspace [1,2]
This paper introduces a display design concept that intends to enable an operator to deal with the unique safety challenges that arise from operating multiple autonomous Small Unmanned Aircraft Systems (sUAS)
This paper describes the further development of the design approach based on findings of the scientific literature and derives and demonstrates a display design concept based on specific design principles
Summary
Numerous research papers have been published that envision the operation of highly automated or even autonomous Unmanned Aircraft Systems (UAS) in low-altitude urban airspace [1,2]. Humans will continue to be an important part of future, highly automated aviation systems and be responsible for the successful execution of safety critical system functions. In highly automated systems the automation takes over the complete execution of functions [6,7,8], leaving the human operator in charge of monitoring the safe execution of system functions, referred to as supervisory control [9]. The successful design of the HMI for supervisory control of highly automated or autonomous UAS is critical for the overall system safety
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