Detail publikace
Fractal Marker Fields: No More Scale Limitations for Fiduciary Markers
HEROUT, A. ZACHARIÁŠ, M. JURÁNKOVÁ, M. HAVEL, J.
Originální název
Fractal Marker Fields: No More Scale Limitations for Fiduciary Markers
Anglický název
Fractal Marker Fields: No More Scale Limitations for Fiduciary Markers
Jazyk
en
Originální abstrakt
One limitation of existing fiduciary markers is that the camera motion is tightly limited: the marker (one of the markers) must be visible and it must be observed at a proper scale. This paper introduces a fractal structure of markers similar to matrix codes (such as QRcode or DataMatrix): the Fractal Marker Field. The FMF allows for embedding markers of a virtually unlimited number of scales. At the same time, for each of the scales it guarantees a constant density of markers at that scale over the whole marker field's surface. The Fractal Marker Field can provide unprecedented freedom of motion to camera-based augmented reality applications.
Anglický abstrakt
One limitation of existing fiduciary markers is that the camera motion is tightly limited: the marker (one of the markers) must be visible and it must be observed at a proper scale. This paper introduces a fractal structure of markers similar to matrix codes (such as QRcode or DataMatrix): the Fractal Marker Field. The FMF allows for embedding markers of a virtually unlimited number of scales. At the same time, for each of the scales it guarantees a constant density of markers at that scale over the whole marker field's surface. The Fractal Marker Field can provide unprecedented freedom of motion to camera-based augmented reality applications.
Dokumenty
BibTex
@inproceedings{BUT97027,
author="Adam {Herout} and Michal {Zachariáš} and Markéta {Juránková} and Jiří {Havel}",
title="Fractal Marker Fields: No More Scale Limitations for Fiduciary Markers",
annote="One limitation of existing fiduciary markers is that the camera motion is tightly
limited: the marker (one of the markers) must be visible and it must be observed
at a proper scale. This paper introduces a fractal structure of markers similar
to matrix codes (such as QRcode or DataMatrix): the Fractal Marker Field. The FMF
allows for embedding markers of a virtually unlimited number of scales. At the
same time, for each of the scales it guarantees a constant density of markers at
that scale over the whole marker field's surface. The Fractal Marker Field can
provide unprecedented freedom of motion to camera-based augmented reality
applications.",
address="Institute of Electrical and Electronics Engineers",
booktitle="Proceedings of the 2012 11th IEEE International Symposium on Mixed and Augmented Reality",
chapter="97027",
edition="NEUVEDEN",
howpublished="electronic, physical medium",
institution="Institute of Electrical and Electronics Engineers",
year="2012",
month="november",
pages="1--2",
publisher="Institute of Electrical and Electronics Engineers",
type="conference paper"
}