Abstract. Telepresence refers to a set of techniques that creates the illusion of being present at a remote location to a person. Telepresence may also include the ability to interact with the remote environment, including communication with people physically present at the remote location. In this research, the introduction of a virtual body, which mirrors the user’s own movement in real-time, in a telepresence scenario and its effect on the illusion of presence is studied. Earlier research works have shown the effectiveness of having a virtual body in simulated environments, for example, games. In this study, the user embodies a virtual body that is present in a simulated environment, surrounded by a sphere where footage streamed from a 360-degree camera, mounted at a different spot, is being projected. This gives the user a sense of being present in a real location and having a body which they can control. The study is conducted on 20 participants, where the participants put on a Head-Mounted Display showing live footage from a 360-degree camera while having a real-time conversation with a confederate present near the camera. They are then surveyed about their experience, both with and without a virtual body to determine if having a virtual body yielded any improvement on the illusion of presence. Although 18 of the 20 participants preferred the experience with a body, it did not necessarily increase their sense of presence when compared with the scores given when there is no visible body. These results implicate a low sample size, not enough to draw any meaningful conclusions.


    Access

    Download


    Export, share and cite



    Title :

    Augmenting virtual reality telepresence experience using self-avatar


    Contributors:

    Publication date :

    2021-06-17


    Type of media :

    Theses


    Type of material :

    Electronic Resource


    Language :

    English


    Classification :

    DDC:    629



    Augmenting immersive telepresence experience with a virtual body

    Arora, N. (Nikunj) / Suomalainen, M. (Markku) / Pouke, M. (Matti) et al. | BASE | 2022

    Free access


    Augmenting Exercise Protocols with Interactive Virtual Reality Environments

    Keller, Nathan / McHenry, Neil / Duncan, Colton et al. | IEEE | 2021


    Virtual Telepresence Robot Using Raspberry Pi

    Reshma / Shilpa / Shubhashree et al. | BASE | 2020

    Free access

    Enhancing telepresence with mobile virtual proxies

    Hickey, S. (Seamus) | BASE | 2005

    Free access