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Multi-camera platform calibration using multi-linear constraints

Nyman, Patrik ; Heyden, Anders LU orcid and Åström, Kalle LU orcid (2010) 2010 20th International Conference on Pattern Recognition, ICPR 2010 p.53-56
Abstract

We present a novel calibration method for multi-camera platforms, based on multi-linear constraints. The calibration method can recover the relative orientation between the different cameras on the platform, even when there are no corresponding feature points between the cameras, i.e. there are no overlaps between the cameras. It is shown that two translational motions in different directions are sufficient to linearly recover the rotational part of the relative orientation. Then two general motions, including both translation and rotation, are sufficient to linearly recover the translational part of the relative orientation. However, as a consequence of the speed-scale ambiguity the absolute scale of the translational part can not be... (More)

We present a novel calibration method for multi-camera platforms, based on multi-linear constraints. The calibration method can recover the relative orientation between the different cameras on the platform, even when there are no corresponding feature points between the cameras, i.e. there are no overlaps between the cameras. It is shown that two translational motions in different directions are sufficient to linearly recover the rotational part of the relative orientation. Then two general motions, including both translation and rotation, are sufficient to linearly recover the translational part of the relative orientation. However, as a consequence of the speed-scale ambiguity the absolute scale of the translational part can not be determined if no prior information about the motions are known, e.g. from dead reckoning. It is shown that in case of planar motion, the vertical component of the translational part can not be determined. However, if at least one feature point can be seen in two different cameras, this vertical component can also be estimated. Finally, the performance of the proposed method is shown in simulated experiments.

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author
; and
organization
publishing date
type
Chapter in Book/Report/Conference proceeding
publication status
published
subject
host publication
Proceedings - 2010 20th International Conference on Pattern Recognition, ICPR 2010
article number
5597656
pages
4 pages
publisher
IEEE - Institute of Electrical and Electronics Engineers Inc.
conference name
2010 20th International Conference on Pattern Recognition, ICPR 2010
conference location
Istanbul, Turkey
conference dates
2010-08-23 - 2010-08-26
external identifiers
  • scopus:78149488394
ISBN
9781424475414
9781424475421
DOI
10.1109/ICPR.2010.22
language
English
LU publication?
yes
id
70214609-f459-456c-84b2-c630e57c14b7
date added to LUP
2020-11-02 08:51:15
date last changed
2025-01-10 22:01:02
@inproceedings{70214609-f459-456c-84b2-c630e57c14b7,
  abstract     = {{<p>We present a novel calibration method for multi-camera platforms, based on multi-linear constraints. The calibration method can recover the relative orientation between the different cameras on the platform, even when there are no corresponding feature points between the cameras, i.e. there are no overlaps between the cameras. It is shown that two translational motions in different directions are sufficient to linearly recover the rotational part of the relative orientation. Then two general motions, including both translation and rotation, are sufficient to linearly recover the translational part of the relative orientation. However, as a consequence of the speed-scale ambiguity the absolute scale of the translational part can not be determined if no prior information about the motions are known, e.g. from dead reckoning. It is shown that in case of planar motion, the vertical component of the translational part can not be determined. However, if at least one feature point can be seen in two different cameras, this vertical component can also be estimated. Finally, the performance of the proposed method is shown in simulated experiments.</p>}},
  author       = {{Nyman, Patrik and Heyden, Anders and Åström, Kalle}},
  booktitle    = {{Proceedings - 2010 20th International Conference on Pattern Recognition, ICPR 2010}},
  isbn         = {{9781424475414}},
  language     = {{eng}},
  pages        = {{53--56}},
  publisher    = {{IEEE - Institute of Electrical and Electronics Engineers Inc.}},
  title        = {{Multi-camera platform calibration using multi-linear constraints}},
  url          = {{http://dx.doi.org/10.1109/ICPR.2010.22}},
  doi          = {{10.1109/ICPR.2010.22}},
  year         = {{2010}},
}