2022
DOI: 10.3390/drones6020043
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Drone Control in AR: An Intuitive System for Single-Handed Gesture Control, Drone Tracking, and Contextualized Camera Feed Visualization in Augmented Reality

Abstract: Traditional drone handheld remote controllers, although well-established and widely used, are not a particularly intuitive control method. At the same time, drone pilots normally watch the drone video feed on a smartphone or another small screen attached to the remote. This forces them to constantly shift their visual focus from the drone to the screen and vice-versa. This can be an eye-and-mind-tiring and stressful experience, as the eyes constantly change focus and the mind struggles to merge two different p… Show more

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Cited by 17 publications
(1 citation statement)
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“…During control, obstacle information on the UAV's heading can be conveyed to the user through vibration feedback, enhancing safety. Konstantoudakis Konstantinos et al [70] developed an AR-based single-hand control system for UAVs, addressing the issue of visual fatigue caused by prolonged focus on joysticks and control screens. Moreover, for highly dynamic underwater UAV environments, Yu Jiang et al [71] proposed a gesture interaction system for underwater autonomous underwater vehicles (AUVs) that employed fuzzy control to overcome challenges such as fluctuation interference and light attenuation.…”
Section: Improved Traditional Control Modementioning
confidence: 99%
“…During control, obstacle information on the UAV's heading can be conveyed to the user through vibration feedback, enhancing safety. Konstantoudakis Konstantinos et al [70] developed an AR-based single-hand control system for UAVs, addressing the issue of visual fatigue caused by prolonged focus on joysticks and control screens. Moreover, for highly dynamic underwater UAV environments, Yu Jiang et al [71] proposed a gesture interaction system for underwater autonomous underwater vehicles (AUVs) that employed fuzzy control to overcome challenges such as fluctuation interference and light attenuation.…”
Section: Improved Traditional Control Modementioning
confidence: 99%