A Method for Measuring the Perceived Location of Virtual Content in Optical See-Through Augmented Reality
Farzana Alam Khan, Veera Venkata Ram Murali Krishna Rao Muvva, Dennis Wu, Mohammed Safayet Arefin, Nate Phillips, and J. Edward Swan II. A Method for Measuring the Perceived Location of Virtual Content in Optical See-Through Augmented Reality. In IEEE Conference on Virtual Reality and 3D User Interfaces Abstracts and Workshops (VRW 2021), pp. 657–658, IEEE Computer Society, March 2021. DOI: 10.1109/VRW52623.2021.00211.
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Abstract
For optical, see-through augmented reality (AR), a new method for measuring the perceived three-dimensional location of a small virtual object is presented, where participants verbally report the virtual object's location relative to both a horizontal and vertical grid. The method is tested with a Microsoft HoloLens AR display, and examines two different virtual object designs, whether turning in a circle between reported object locations disrupts HoloLens tracking, and whether accuracy errors found with a HoloLens display might be due to systematic errors that are restricted to that particular display. Turning in a circle did not disrupt HoloLens tracking, and a second HoloLens did not suggest systematic errors restricted to a specific display. The proposed method could measure the perceived location of a virtual object to a precision of 1 mm.
BibTeX
@InProceedings{IEEEVR21-pl, author = {Farzana Alam Khan and Veera Venkata Ram Murali Krishna Rao Muvva and Dennis Wu and Mohammed Safayet Arefin and Nate Phillips and J. Edward {Swan~II}}, title = {A Method for Measuring the Perceived Location of Virtual Content in Optical See-Through Augmented Reality}, booktitle = {IEEE Conference on Virtual Reality and 3D User Interfaces Abstracts and Workshops (VRW 2021)}, year = 2021, location = {Lisbon, Portugal}, publisher = {IEEE Computer Society}, date = {March 27--April 3}, month = {March}, pages = {657--658}, note = {DOI: <a target="_blank" href="https://doi.org/10.1109/VRW52623.2021.00211"> 10.1109/VRW52623.2021.00211</a>.}, abstract = { For optical, see-through augmented reality (AR), a new method for measuring the perceived three-dimensional location of a small virtual object is presented, where participants verbally report the virtual object's location relative to both a horizontal and vertical grid. The method is tested with a Microsoft HoloLens AR display, and examines two different virtual object designs, whether turning in a circle between reported object locations disrupts HoloLens tracking, and whether accuracy errors found with a HoloLens display might be due to systematic errors that are restricted to that particular display. Turning in a circle did not disrupt HoloLens tracking, and a second HoloLens did not suggest systematic errors restricted to a specific display. The proposed method could measure the perceived location of a virtual object to a precision of 1 mm. }, }