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Author, Editor

Author(s):

Hullin, Matthias B.
Fuchs, Martin
Ihrke, Ivo
Seidel, Hans-Peter
Lensch, Hendrik P. A.

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Editor(s):





BibTeX cite key*:

HullinSIGGRAPH08

Title, Booktitle

Title*:

Fluorescent Immersion Range Scanning

Booktitle*:

ACM Transactions on Graphics (Proceedings of SIGGRAPH 2008)

Event, URLs

URL of the conference:

http://www.siggraph.org/s2008

URL for downloading the paper:

http://doi.acm.org/10.1145/1360612.1360686

Event Address*:

Los Angeles, USA

Language:

English

Event Date*
(no longer used):


Organization:

Association for Computing Machinery (ACM)

Event Start Date:

11 August 2008

Event End Date:

15 August 2008

Publisher

Name*:

ACM

URL:

http://www.acm.org/

Address*:

New York, USA

Type:


Vol, No, Year, pp.

Series:


Volume:

27

Number:

3

Month:

August

Pages:

87:1-87:10

Year*:

2008

VG Wort Pages:

38

ISBN/ISSN:

0730-0301

Sequence Number:


DOI:

10.1145/1360612.1360686



Note, Abstract, ©


(LaTeX) Abstract:

The quality of a 3D range scan should not depend on the surface properties of the object. Most active range scanning techniques, however, assume a diffuse reflector to allow for a robust detection of incident light patterns. In our approach we embed the object into a fluorescent liquid. By analyzing the light rays that become visible due to fluorescence rather than analyzing their reflections off the surface, we can detect the intersection points between the projected laser sheet and the object surface for a wide range of different materials. For transparent objects we can even directly depict a slice through the object in just one image by matching its refractive index to the one of the embedding liquid. This enables a direct sampling of the object geometry without the need for computational reconstruction. This way, a high-resolution 3D volume can be assembled simply by sweeping a laser plane through the object. We demonstrate the effectiveness of our light sheet range scanning approach on a set of objects manufactured from a variety of materials and material mixes, including dark, translucent and transparent objects.

HyperLinks / References / URLs:

http://www.mpi-inf.mpg.de/resources/FIRS/

Copyright Message:

© ACM, 2008. This is the author's version of the work. It is posted here by permission of ACM for your personal use. Not for redistribution. The definitive version was published in ACM Transactions on Graphics, Volume 27, Issue 3, Article 87 (August 2008)
DOI 10.1145/1360612.1360686


Download
Access Level:

Internal

Correlation

MPG Unit:

Max-Planck-Institut für Informatik



MPG Subunit:

Computer Graphics Group

Audience:

experts only

Appearance:

MPII WWW Server, MPII FTP Server, MPG publications list, university publications list, working group publication list, Fachbeirat, VG Wort



BibTeX Entry:

@INPROCEEDINGS{HullinSIGGRAPH08,
AUTHOR = {Hullin, Matthias B. and Fuchs, Martin and Ihrke, Ivo and Seidel, Hans-Peter and Lensch, Hendrik P. A.},
TITLE = {Fluorescent Immersion Range Scanning},
BOOKTITLE = {ACM Transactions on Graphics (Proceedings of SIGGRAPH 2008)},
PUBLISHER = {ACM},
YEAR = {2008},
ORGANIZATION = {Association for Computing Machinery (ACM)},
NUMBER = {3},
VOLUME = {27},
PAGES = {87:1--87:10},
ADDRESS = {Los Angeles, USA},
MONTH = {August},
ISBN = {0730-0301},
DOI = {10.1145/1360612.1360686},
}


Entry last modified by Matthias Hullin, 07/01/2009
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Editor(s)
Matthias Hullin
Created
10/02/2008 09:28:54 AM
Revision
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Editor
Matthias Hullin
Matthias Hullin


Edit Date
10/02/2008 05:06:56 PM
10/02/2008 09:28:55 AM