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@InProceedings{ISMAR18-hc,
author = {Nate Phillips and Kristen Massey and Mohammed Safayet Arefin
and J. Edward {Swan~II}},
title = {Design and Calibration of an Augmented Reality Haploscope},
booktitle = {IEEE International Symposium on Mixed and Augmented Reality
Adjunct (ISMAR-Adjunct 2018)},
year = 2018,
location = {Munich, Germany},
publisher = {IEEE Computer Society},
date = {October 16--20},
month = {October},
pages = {75--76},
note = {DOI:
10.1109/ISMAR-Adjunct.2018.00037.}
abstract = {
Most augmented reality (AR) research is performed with
commercially-available displays. However, these displays have
unadjustable mechanical and optical properties, which limit the
experimental questions that can be asked. In order to ask certain
questions, it becomes necessary to build a custom display, using
off-the-shelf optical components. In the field of visual perception,
such devices are often developed, and are called haploscopes. In this
paper, we describe the mechanical design of an AR haploscope, which
can present virtual objects seen in augmented reality. In order to
make accurate measurements, the haploscope must be carefully
calibrated, but this calibration is quite difficult. Therefore, this
abstract contributes a description of an AR haploscope, and outlines
calibration procedures.
},
}