I'm in VR!: using your own hands in a fully immersive MR system

This paper presents a novel fully immersive Mixed Reality system that we have recently developed where the user freely walks in a life-size virtual scenario wearing an HMD and can see and use her/his own body when interacting with objects. This form of natural interaction is made possible in our system because the user's hands are real-time captured by means of a RGBD camera on the HMD. This allow the system to have in real-time a texturized geometric mesh of the hands and body (as seen from her/his own perspective) that can be rendered like any other polygonal model in the scene. Our hypothesis is that by presenting to the users an egocentric view of the virtual environment "populated" by their own bodies, a very strong feeling of presence is developed as well.

[1]  Jing-Rong Li,et al.  Desktop virtual reality for maintenance training: an object oriented prototype system (V-REALISM) , 2003, Comput. Ind..

[2]  Gabriel Zachmann,et al.  Virtual reality as a tool for verification of assembly and maintenance processes , 1999, Comput. Graph..

[3]  Rudy J. Lapeer,et al.  An augmented reality based simulation of obstetric forceps delivery , 2004, Third IEEE and ACM International Symposium on Mixed and Augmented Reality.

[4]  David Waller,et al.  The HIVE: A huge immersive virtual environment for research in spatial cognition , 2007, Behavior research methods.

[5]  Klaus H. Hinrichs,et al.  Enhancing Presence in Head-Mounted Display Environments by Visual Body Feedback Using Head-Mounted Cameras , 2009, 2009 International Conference on CyberWorlds.

[6]  Ruth de Villiers,et al.  Virtual reality training applications for the mining industry , 2009, Afrigraph.

[7]  Derek R. Magee,et al.  An augmented reality simulator for ultrasound guided needle placement training , 2007, Medical & Biological Engineering & Computing.

[8]  G. Ahlberg,et al.  Does training in a virtual reality simulator improve surgical performance? , 2001, Surgical Endoscopy And Other Interventional Techniques.

[9]  Massimo Bergamasco,et al.  A Flexible Framework for WideSpectrum VR Development , 2010, PRESENCE: Teleoperators and Virtual Environments.

[10]  Mark Bolas,et al.  Sharing space in mixed and virtual reality environments using a low-cost depth sensor , 2011, 2011 IEEE International Symposium on VR Innovation.

[11]  Luiz Faillace Farret Using Virtual Reality Technology For Aircraft Visual Inspection Training: Presence and Comparison Studies. , 2012 .

[12]  R. Satava,et al.  Virtual Reality Training Improves Operating Room Performance: Results of a Randomized, Double-Blinded Study , 2002, Annals of surgery.

[13]  Steven K. Feiner,et al.  Exploring the Benefits of Augmented Reality Documentation for Maintenance and Repair , 2011, IEEE Transactions on Visualization and Computer Graphics.

[14]  Weidong Huang,et al.  3D helping hands: a gesture based MR system for remote collaboration , 2012, VRCAI '12.

[15]  Deborah Hix,et al.  An Augmented Reality System for Military Operations in Urban Terrain , 2002 .

[16]  Victoria Interrante,et al.  Towards Achieving Robust Video Self-avatars under Flexible Environment Conditions , 2014 .