Leaning-Based 360° Interfaces: Investigating Virtual Reality Navigation Interfaces with Leaning-Based-Translation and Full-Rotation

Hashemian, Abraham M.; Riecke, Bernhard E.

doi:10.1007/978-3-319-57987-0_2

Cited by 23 publications

(8 citation statements)

References 28 publications

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“…In [30], Bozgeyikli et al address the needs of VR users with autism disorder by comparatively evaluating three VR locomotion techniques: Flying, Flapping, and Trackball. The works of Kitson et al [20] and Hashemian and Riecke [31] focus on comparing leaning-based motion cueing interfaces for VR locomotion, introducing and evaluating chair-based techniques, such as MuvMan and NaviChair. Sarupuri et al [32] evaluate and compare game-controller-based VR locomotion techniques, focusing on their newly constructed Trigger-Walking technique.…”

Section: Introductionmentioning

confidence: 99%

VR Locomotion in the New Era of Virtual Reality: An Empirical Comparison of Prevalent Techniques

Boletsis

Cedergren

2019

Advances in Human-Computer Interaction

129

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The latest technical and interaction advancements within the virtual reality (VR) field have marked a new era, not only for VR, but also for VR locomotion. In this era, well-established, prevalent VR locomotion techniques are mostly used as points of comparison for benchmarking of new VR locomotion designs. At the same time, there is the need for more exploratory, comparative studies of contemporary VR locomotion techniques, so that their distinguished interaction aspects can be documented and guide the design process of new techniques. This article presents a comparative, empirical evaluation study of contemporary and prevalent VR locomotion techniques, examining the user experience (UX) they offer. First, the prevalent VR locomotion techniques are identified based on literature, i.e., walking-in-place, controller/joystick, and teleportation. Twenty-six adults are enrolled in the study and perform a game-like task using the techniques. The study follows a mixed methods approach, utilising the System Usability Scale survey, the Game Experience Questionnaire, and a semistructured interview to assess user experiences. Results indicate that the walking-in-place technique offers the highest immersion but also presents high levels of psychophysical discomfort. Controller/joystick VR locomotion is perceived as easy-to-use due to the users’ familiarity with controllers, whereas teleportation is considered to be effective due to its fast navigation, although its visual ‘jumps’ do break the users’ sense of immersion. Based on the interviews, the users focused on the following interaction dimensions to describe their VR locomotion experiences: (i) immersion and flow, (ii) ease-of-use and mastering, (iii) competence and sense of effectiveness, and (iv) psychophysical discomfort. The study implications for VR locomotion are discussed, along with the study limitations and the future direction for research.

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Section: Introductionmentioning

confidence: 99%

VR Locomotion in the New Era of Virtual Reality: An Empirical Comparison of Prevalent Techniques

Boletsis

Cedergren

2019

Advances in Human-Computer Interaction

129

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“…However, the literature indicates mixed results for partial body-based sensory information. Some ground-based locomotion studies reported no significant difference in motion sickness between leaning-based interfaces and hand-held controllers Marchal et al (2011), Hashemian and Riecke (2017a), while others reported significant reductions of motion sickness with a leaning-based interface Nguyen-Vo et al (2019). Further, as far as the authors know, the literature does not provide a definitive answer on whether the benefits of such implementation translate to flying locomotion.…”

Section: Rq2: Does Headjoystick Help To Reduce Motion Sickness In 3d Navigation?mentioning

confidence: 96%

“…Exponential implementation creates a smooth transition. It has been successfully implemented in other 2D interfaces Hashemian and Riecke (2017a)…”

Section: Motion Control Modelmentioning

confidence: 99%

Lean to Fly: Leaning-Based Embodied Flying can Improve Performance and User Experience in 3D Navigation

Adhikari

Hashemian

Nguyen-Vo

et al. 2021

Front. Virtual Real.

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When users in virtual reality cannot physically walk and self-motions are instead only visually simulated, spatial updating is often impaired. In this paper, we report on a study that investigated if HeadJoystick, an embodied leaning-based flying interface, could improve performance in a 3D navigational search task that relies on maintaining situational awareness and spatial updating in VR. We compared it to Gamepad, a standard flying interface. For both interfaces, participants were seated on a swivel chair and controlled simulated rotations by physically rotating. They either leaned (forward/backward, right/left, up/down) or used the Gamepad thumbsticks for simulated translation. In a gamified 3D navigational search task, participants had to find eight balls within 5 min. Those balls were hidden amongst 16 randomly positioned boxes in a dark environment devoid of any landmarks. Compared to the Gamepad, participants collected more balls using the HeadJoystick. It also minimized the distance travelled, motion sickness, and mental task demand. Moreover, the HeadJoystick was rated better in terms of ease of use, controllability, learnability, overall usability, and self-motion perception. However, participants rated HeadJoystick could be more physically fatiguing after a long use. Overall, participants felt more engaged with HeadJoystick, enjoyed it more, and preferred it. Together, this provides evidence that leaning-based interfaces like HeadJoystick can provide an affordable and effective alternative for flying in VR and potentially telepresence drones.

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“…User is guided [13,25,33], interview with experts Situational information display depending on work activity.…”

Section: Controllabilitymentioning

confidence: 99%

“…Depth cues [13,14,19,20,24,28,30,33,35], interview with experts Giving depth cues in a task-oriented manner.…”

Section: Controllabilitymentioning

confidence: 99%

User Interface Pattern for AR in Industrial Applications

Koreng

Krömker

2021

Information

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The background of the paper is that there are currently no specifications or guidelines for the design of a user interface for an augmented reality system in an industrial context. In this area, special requirements apply for the perception and recognition of content, which are given by the framework conditions of the industrial environment, the human–technology interaction, and the work task. This paper addresses the software-technical design of augmented reality surfaces in the industrial environment. The aim is to give first design examples for software tasks by means of sample solutions. For a user-oriented implementation, the methods of personas and an empirical investigation were used. Personas are a stereotypical representation of end users that reflect their characteristics and requirements. For the subsequent development of the pattern catalog, different prototypes with layout and interaction variants were tested in an empirical study with 50 participants. By observing the current realizations, these can be examined more closely in terms of their specific use in an industrial environment. The result is a pattern catalog with 26 solutions for layout and interaction variants. For the layout variants, no direct favorite of the testers could be ascertained; the existing solutions already offer a wide spectrum, which are chosen according to personal preferences. For interaction, on the other hand, it is important to enable fast input. During the study, gesture control revealed weaknesses in this regard. This can be supportive in the development of an industrial augmented reality system regarding a user-oriented representation of the interface.

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Leaning-Based 360° Interfaces: Investigating Virtual Reality Navigation Interfaces with Leaning-Based-Translation and Full-Rotation

Cited by 23 publications

References 28 publications

VR Locomotion in the New Era of Virtual Reality: An Empirical Comparison of Prevalent Techniques

VR Locomotion in the New Era of Virtual Reality: An Empirical Comparison of Prevalent Techniques

Lean to Fly: Leaning-Based Embodied Flying can Improve Performance and User Experience in 3D Navigation

User Interface Pattern for AR in Industrial Applications

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