3 research outputs found
Evaluating consumer interaction interfaces for 3D sketching in virtual reality
Since its introduction, 3D mid-air sketching in immersive Virtual Reality (VR) proved to be a very powerful tool for many creative applications. However, common VR sketching suites rely on the standard hand controllers bundled with home VR systems, which are non-optimal for this kind of tasks. To deal with this issue, some research works proposed to use dedicated pen-shaped interfaces tracked with external motion-capture systems. Regrettably, these solutions are generally rather expensive, cumbersome and unsuitable for many potential end- users. Hence, lots of challenges regarding interfaces for 3D sketching in VR still exist. In this paper, a newly proposed sketching-oriented input device (namely, a VR stylus) compatible with the tracking technology of a consumer-grade VR system is compared with a standard hand con- troller from the same system. In particular, the paper reports the results of a user study whose aim was to evaluate, in both objective and subjective terms, aspects like, among others, sketching accuracy, ease of use, efficiency, comfort, control and naturalness
Computer-supported movement guidance: investigating visual/visuotactile guidance and informing the design of vibrotactile body-worn interfaces
This dissertation explores the use of interactive systems to support
movement guidance, with applications in various fields such as sports,
dance, physiotherapy, and immersive sketching. The research focuses
on visual, haptic, and visuohaptic approaches and aims to overcome
the limitations of traditional guidance methods, such as dependence
on an expert and high costs for the novice. The main contributions of
the thesis are (1) an evaluation of the suitability of various types of
displays and visualizations of the human body for posture guidance,
(2) an investigation into the influence of different viewpoints/perspectives,
the addition of haptic feedback, and various movement
properties on movement guidance in virtual environments, (3) an
investigation into the effectiveness of visuotactile guidance for hand
movements in a virtual environment, (4) two in-depth studies of haptic
perception on the body to inform the design of wearable and handheld
interfaces that leverage tactile output technologies, and (5) an
investigation into new interaction techniques for tactile guidance of
arm movements. The results of this research advance the state of the
art in the field, provide design and implementation insights, and pave
the way for new investigations in computer-supported movement
guidance