Design and Evaluation of Interaction Techniques Dedicated to Integrate Encountered-Type Haptic Displays in Virtual Environments

Mercado, Victor; Marchai, Maud; Lécuyer, Anatole

doi:10.1109/vr46266.2020.1581077413070

Cited by 2 publications

References 33 publications

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CoVR: A Large-Scale Force-Feedback Robotic Interface for Non-Deterministic Scenarios in VR

Bouzbib¹,

Bailly²,

Haliyo³

et al. 2020

Proceedings of the 33rd Annual ACM Symposium on User Interface Software and Technology

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Figure 1. CoVR is a physical column mounted on a 2D Cartesian ceiling robot to provide strong kinesthetic feedback (> 100N) in a room-scale VR arena. The column panels are interchangeable and its movements can safely reach any location in the VR arena thanks to XY displacements and trajectory generations avoiding collisions with the user. When CoVR is static, it can resist to body-scaled users' actions, such as (A) users pushing on a static tangible rigid wall with a high force or (B) leaning on it; When CoVR is dynamic, it can act on users. (C) CoVR can pull the users to provide large force-feedback or even (D) transport the users.

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CoVR: A Large-Scale Force-Feedback Robotic Interface for Non-Deterministic Scenarios in VR

Bouzbib¹,

Bailly²,

Haliyo³

et al. 2020

Proceedings of the 33rd Annual ACM Symposium on User Interface Software and Technology

View full text Add to dashboard Cite

show abstract

Visuo-Haptic Mixed Reality Simulation Using Unbound Handheld Tools

et al. 2020

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Visuo-haptic mixed reality (VHMR) adds virtual objects to a real scene and enables users to see and also touch them via a see-through display and a haptic device. Most studies with kinesthetic feedback use general-purpose haptic devices, which require the user to continuously hold an attached stylus. This approach constrains users to the mechanical limits of the device even when it is not needed. In this paper, we propose a novel VHMR concept with an encountered-type haptic display (ETHD), which consists of a precision hexapod positioner and a six-axis force/torque transducer. The main contribution is that the users work with unbound real-life tools with tracking markers. ETHD’s end-effector remains inside the virtual object and follows the tooltip to engage only during an interaction. We have developed a simulation setup and experimentally evaluated the relative accuracy and synchronization of the three major processes, namely tool tracking, haptic rendering, and visual rendering. The experiments successfully build-up to a simple simulation scenario where a tennis ball with a fixed center is deformed by the user.

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Design and Evaluation of Interaction Techniques Dedicated to Integrate Encountered-Type Haptic Displays in Virtual Environments

Cited by 2 publications

References 33 publications

CoVR: A Large-Scale Force-Feedback Robotic Interface for Non-Deterministic Scenarios in VR

CoVR: A Large-Scale Force-Feedback Robotic Interface for Non-Deterministic Scenarios in VR

Visuo-Haptic Mixed Reality Simulation Using Unbound Handheld Tools

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