Catching Jellies in Immersive Virtual Reality: A Comparative Teleoperation Study of ROVs in Underwater Capture Tasks

Aviv Elor, Tiffany Thang, B. Hughes, A. Crosby, Amy Phung, Everardo Gonzalez, K. Katija, S. Haddock, E. Martin, B. Erwin, L. Takayama
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引用次数: 4

Abstract

Remotely Operated Vehicles (ROVs) are essential to human-operated underwater expeditions in the deep sea. However, piloting an ROV to safely interact with live ecosystems is an expensive and cognitively demanding task, requiring extensive maneuvering and situational awareness. Immersive Virtual Reality (VR) Head-Mounted Displays (HMDs) could address some of these challenges. This paper investigates how VR HMDs influence operator performance through a novel telepresence system for piloting ROVs in real-time. We present an empirical user study [N=12] that examines common midwater creature capture tasks, comparing Stereoscopic-VR, Monoscopic-VR, and Desktop teleoperation conditions. Our findings indicate that Stereoscopic-VR can outperform Monoscopic-VR and Desktop ROV capture tasks, effectively doubling the efficacy of operators. We also found significant differences in presence, task load, usability, intrinsic motivation, and cybersickness. Our research points to new opportunities towards VR with ROVs.
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沉浸式虚拟现实捕捉水母:水下捕获任务中rov远程操作的比较研究
遥控航行器(rov)是人类深海水下探险的关键。然而,驾驶ROV安全地与实时生态系统交互是一项昂贵且对认知要求很高的任务,需要广泛的机动和态势感知。沉浸式虚拟现实(VR)头戴式显示器(hmd)可以解决其中的一些挑战。本文通过一种新颖的遥控机器人远程呈现系统,研究了VR头戴式显示器对操作员性能的影响。我们提出了一项经验用户研究[N=12],研究了常见的中水生物捕获任务,比较了立体vr、单视vr和桌面远程操作条件。我们的研究结果表明,立体vr可以优于单镜vr和桌面ROV捕获任务,有效地提高了操作人员的效率。我们还发现在存在感、任务负荷、可用性、内在动机和晕机方面存在显著差异。我们的研究指出了利用rov实现VR的新机遇。
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