This paper presents a folded surface detection and tracking method for augmented maps. First, we model a folded surface as two connected planes. Therefore, in order to detect a folded surface, the plane detection method is iteratively applied to the 2D correspondences between an input image and a reference plane. In order to compute the exact folding line from the detected planes for visualization purpose, the intersection line of the planes is computed from their positional relationship. After the detection is done, each plane is individually tracked by the frame-by-frame descriptor update method. We overlay virtual geographic data on each detected plane. As scenario of use, some interactions on the folded surface are introduced. Experimental results show the accuracy and performance of folded surface detection for evaluating the effectiveness of our approach.
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Sandy MARTEDI, Hideaki UCHIYAMA, Guillermo ENRIQUEZ, Hideo SAITO, Tsutomu MIYASHITA, Takenori HARA, "Foldable Augmented Maps" in IEICE TRANSACTIONS on Information,
vol. E95-D, no. 1, pp. 256-266, January 2012, doi: 10.1587/transinf.E95.D.256.
Abstract: This paper presents a folded surface detection and tracking method for augmented maps. First, we model a folded surface as two connected planes. Therefore, in order to detect a folded surface, the plane detection method is iteratively applied to the 2D correspondences between an input image and a reference plane. In order to compute the exact folding line from the detected planes for visualization purpose, the intersection line of the planes is computed from their positional relationship. After the detection is done, each plane is individually tracked by the frame-by-frame descriptor update method. We overlay virtual geographic data on each detected plane. As scenario of use, some interactions on the folded surface are introduced. Experimental results show the accuracy and performance of folded surface detection for evaluating the effectiveness of our approach.
URL: https://global.ieice.org/en_transactions/information/10.1587/transinf.E95.D.256/_p
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@ARTICLE{e95-d_1_256,
author={Sandy MARTEDI, Hideaki UCHIYAMA, Guillermo ENRIQUEZ, Hideo SAITO, Tsutomu MIYASHITA, Takenori HARA, },
journal={IEICE TRANSACTIONS on Information},
title={Foldable Augmented Maps},
year={2012},
volume={E95-D},
number={1},
pages={256-266},
abstract={This paper presents a folded surface detection and tracking method for augmented maps. First, we model a folded surface as two connected planes. Therefore, in order to detect a folded surface, the plane detection method is iteratively applied to the 2D correspondences between an input image and a reference plane. In order to compute the exact folding line from the detected planes for visualization purpose, the intersection line of the planes is computed from their positional relationship. After the detection is done, each plane is individually tracked by the frame-by-frame descriptor update method. We overlay virtual geographic data on each detected plane. As scenario of use, some interactions on the folded surface are introduced. Experimental results show the accuracy and performance of folded surface detection for evaluating the effectiveness of our approach.},
keywords={},
doi={10.1587/transinf.E95.D.256},
ISSN={1745-1361},
month={January},}
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TY - JOUR
TI - Foldable Augmented Maps
T2 - IEICE TRANSACTIONS on Information
SP - 256
EP - 266
AU - Sandy MARTEDI
AU - Hideaki UCHIYAMA
AU - Guillermo ENRIQUEZ
AU - Hideo SAITO
AU - Tsutomu MIYASHITA
AU - Takenori HARA
PY - 2012
DO - 10.1587/transinf.E95.D.256
JO - IEICE TRANSACTIONS on Information
SN - 1745-1361
VL - E95-D
IS - 1
JA - IEICE TRANSACTIONS on Information
Y1 - January 2012
AB - This paper presents a folded surface detection and tracking method for augmented maps. First, we model a folded surface as two connected planes. Therefore, in order to detect a folded surface, the plane detection method is iteratively applied to the 2D correspondences between an input image and a reference plane. In order to compute the exact folding line from the detected planes for visualization purpose, the intersection line of the planes is computed from their positional relationship. After the detection is done, each plane is individually tracked by the frame-by-frame descriptor update method. We overlay virtual geographic data on each detected plane. As scenario of use, some interactions on the folded surface are introduced. Experimental results show the accuracy and performance of folded surface detection for evaluating the effectiveness of our approach.
ER -