Publication detail
Contribution of the Temperature of the Objects to the Problem of Thermal Imaging Focusing
ESPINOSA-DURÓ, V. FAÚNDEZ ZANUY, M. MEKYSKA, J.
Original Title
Contribution of the Temperature of the Objects to the Problem of Thermal Imaging Focusing
English Title
Contribution of the Temperature of the Objects to the Problem of Thermal Imaging Focusing
Type
conference paper
Language
en
Original Abstract
When focusing an image, depth of field, aperture and distance from the camera to the object, must be taking into account, both, in visible and in infrared spectrum. Our experiments reveal that in addition, the focusing problem in thermal spectrum is also hardly dependent of the temperature of the object itself (and/or the scene).
English abstract
When focusing an image, depth of field, aperture and distance from the camera to the object, must be taking into account, both, in visible and in infrared spectrum. Our experiments reveal that in addition, the focusing problem in thermal spectrum is also hardly dependent of the temperature of the object itself (and/or the scene).
Keywords
Thermal image, focus, temperature
RIV year
2012
Released
15.10.2012
ISBN
978-1-4577-0901-2
Book
Proceedings of 46th IEEE International Carnahan Conference on Security Technology ICCST 2012
Pages from
363
Pages to
366
Pages count
4
Documents
BibTex
@inproceedings{BUT95272,
author="Virginia {Espinosa-Duró} and Marcos {Faúndez Zanuy} and Jiří {Mekyska}",
title="Contribution of the Temperature of the Objects to the Problem of Thermal Imaging Focusing",
annote="When focusing an image, depth of field, aperture and distance from the camera to the object, must be taking into account, both, in visible and in infrared spectrum. Our experiments reveal that in addition, the focusing problem in thermal spectrum is also hardly dependent of the temperature of the object itself (and/or the scene).",
booktitle="Proceedings of 46th IEEE International Carnahan Conference on Security Technology ICCST 2012",
chapter="95272",
howpublished="electronic, physical medium",
year="2012",
month="october",
pages="363--366",
type="conference paper"
}