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1. The physical-virtual table: exploring the effects of a virtual human's physical influence on social interaction

   https://doi.org/10.1145/3281505.3281533  

   Lee, Myungho; Norouzi, Nahal; Bruder, Gerd; Wisniewski, Pamela J.; Welch, Gregory F. (January 2018, 24th ACM Symposium on Virtual Reality Software and Technology)

   In this paper, we investigate the effects of the physical influence of a virtual human (VH) in the context of face-to-face interaction in augmented reality (AR). In our study, participants played a tabletop game with a VH, in which each player takes a turn and moves their own token along the designated spots on the shared table. We compared two conditions as follows: the VH in the virtual condition moves a virtual token that can only be seen through AR glasses, while the VH in the physical condition moves a physical token as the participants do; therefore the VH’s token can be seen even in the periphery of the AR glasses. For the physical condition, we designed an actuator system underneath the table. The actuator moves a magnet under the table which then moves the VH’s physical token over the surface of the table. Our results indicate that participants felt higher co-presence with the VH in the physical condition, and participants assessed the VH as a more physical entity compared to the VH in the virtual condition. We further observed transference effects when participants attributed the VH’s ability to move physical objects to other elements in the real world. Also, the VH’s physical influence improved participants’ overall experience with the VH. We discuss potential explanations for the findings and implications for future shared AR tabletop setups. 

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2. System Usability and Technology Acceptance of a Geriatric Embodied Virtual Human Simulation in Augmented Reality

   Ahmmed, A; Butts, E; Naeiji, K; Thiamwong, L; Daher, S (October 2024, IEEE)

   With the rise of the aging population, the demand of care increases yet the turnover rate of caregivers for geriatric patients has increased over the past few decades. While many factors contribute to the caregivers’ turnover rate, inadequate training and lack of communication skills and relationship-building skills are vital issues. Technology can help in providing training for soft skills. Embodied Virtual Human (VH) assistants and Augmented Reality (AR) can be a key method to train caregivers and to improve their experience in interacting with older adults, and their perception of the interaction. We designed and developed an immersive simulation in AR where caregivers interact with an embodied VH in two different conditions, i.e., first with an unaware VH and then with a VH having simulated awareness achieved through human-in-the-loop. We conducted a study with caregivers of older adults to evaluate the usability and technology acceptance of our system. The findings suggest that the majority of the participants found the system acceptable, and rated the system as user-friendly and easy to use. 

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3. Simulation of an Aware Geriatric Virtual Human in Mixed Reality

   https://doi.org/10.1109/VRW62533.2024.00375  

   Ahmmed, Asif; Butts, Erica; Naeiji, Kimia; Thiamwong, Ladda; Daher, Salam (March 2024, IEEE)

   We present an Augmented Reality (AR) experience, enabling user interaction with a Virtual Human (VH) of an older adult. We demonstrate the feasibility of the technology to foster communication and social connection between caregivers (users) and older adults (the VH). We developed a 3D model of an embodied virtual geriatric patient that demonstrates awareness of its environment and conversations, and implemented a networking protocol for remote response control with a human in the loop. 

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4. Give Me a Hand: Exploring Bidirectional Mutual Embodied Tangible Interaction in Virtual Reality

   Bozgeyikli, L. (January 2021, IEEE International Conference on Consumer Electronics)

   null (Ed.)

   Virtual reality (VR) systems have been increasingly used in recent years in various domains, such as education and training. Presence, which can be described as ‘the sense of being there’ is one of the most important user experience aspects in VR. There are several components, which may affect the level of presence, such as interaction, visual fidelity, and auditory cues. In recent years, a significant effort has been put into increasing the sense of presence in VR. This study focuses on improving user experience in VR by increasing presence through increased interaction fidelity and enhanced illusions. Interaction in real life includes mutual and bidirectional encounters between two or more individuals through shared tangible objects. However, the majority of VR interaction to date has been unidirectional. This research aims to bridge this gap by enabling bidirectional mutual tangible embodied interactions between human users and virtual characters in world-fixed VR through real-virtual shared objects that extend from virtual world into the real world. I hypothesize that the proposed novel interaction will shrink the boundary between the real and virtual worlds (through virtual characters that affect the physical world), increase the seamlessness of the VR system (enhance the illusion) and the fidelity of interaction, and increase the level of presence and social presence, enjoyment and engagement. This paper includes the motivation, design and development details of the proposed novel world-fixed VR system along with future directions. 

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5. Force-Aware Interface via Electromyography for Natural VR/AR Interaction

   https://doi.org/10.1145/3550454.3555461  

   Zhang, Yunxiang; Liang, Benjamin; Chen, Boyuan; Torrens, Paul M.; Atashzar, S. Farokh; Lin, Dahua; Sun, Qi (December 2022, ACM Transactions on Graphics)

   While tremendous advances in visual and auditory realism have been made for virtual and augmented reality (VR/AR), introducing a plausible sense of physicality into the virtual world remains challenging. Closing the gap between real-world physicality and immersive virtual experience requires a closed interaction loop: applying user-exerted physical forces to the virtual environment and generating haptic sensations back to the users. However, existing VR/AR solutions either completely ignore the force inputs from the users or rely on obtrusive sensing devices that compromise user experience. By identifying users' muscle activation patterns while engaging in VR/AR, we design a learning-based neural interface for natural and intuitive force inputs. Specifically, we show that lightweight electromyography sensors, resting non-invasively on users' forearm skin, inform and establish a robust understanding of their complex hand activities. Fuelled by a neural-network-based model, our interface can decode finger-wise forces in real-time with 3.3% mean error, and generalize to new users with little calibration. Through an interactive psychophysical study, we show that human perception of virtual objects' physical properties, such as stiffness, can be significantly enhanced by our interface. We further demonstrate that our interface enables ubiquitous control via finger tapping. Ultimately, we envision our findings to push forward research towards more realistic physicality in future VR/AR. 

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