Towards Euclidean auto-calibration of stereo camera arrays

Roopak R. Tamboli; Kiran K. Vupparaboina; M. Shanmukh Reddy; Peter A. Kara; Aron Cserkaszky; Maria G. Martini; Ashutosh Richhariya; Soumya Jana

doi:10.1117/12.2320569

Towards Euclidean auto-calibration of stereo camera arrays

Roopak R. Tamboli
, Kiran K. Vupparaboina
, M. Shanmukh Reddy
, Peter A. Kara
, Aron Cserkaszky
, Maria G. Martini
, Ashutosh Richhariya
, Soumya Jana

Research output: Contribution to conference › Paper › peer-review

2 Downloads (Pure)

Abstract

Multi-camera networks are becoming ubiquitous in a variety of applications related to medical imaging, education, entertainment, autonomous vehicles, civil security, defense etc. The foremost task in deploying a multi-camera network is camera calibration, which usually involves introducing an object with known geometry into the scene. However, most of the aforementioned applications necessitate non-intrusive automatic camera calibration. To this end, a class of camera auto-calibration methods imposes constraints on the camera network rather than on the scene. In particular, the inclusion of stereo cameras in a multi-camera network is known to improve calibration accuracy and preserve scale. Yet most of the methods relying on stereo cameras use custom-made stereo pairs, and such stereo pairs can definitely be considered imperfect; while the baseline distance can be fixed, one cannot guarantee the optical axes of two cameras to be parallel in such cases. In this paper, we propose a characterization of the imperfections in those stereo pairs with the assumption that such imperfections are within a considerably small, reasonable deviation range from the ideal values. Once the imperfections are quantified, we use an auto-calibration method to calibrate a set of stereo cameras. We provide a comparison of these results with those obtained under parallel optical axes assumption. The paper also reports results obtained from the utilization of synthetic visual data.

Original language	English
DOIs	https://doi.org/10.1117/12.2320569
Publication status	Published - Aug 2018
Event	SPIE Optical Engineering + Applications 2018 - San Diego, California, U.S. Duration: 19 Aug 2018 → 23 Aug 2018

Conference

Conference	SPIE Optical Engineering + Applications 2018
Period	19/08/18 → 23/08/18

Bibliographical note

Note: Published in: José Sasián and Richard N. Youngworth, (eds.) (2018) Optical System Alignment, Tolerancing, and Verification XII. 107470I. (Proceedings of SPIE Volume 10747) ISSN 0277-786X

This work was supported by the Indian Institute of Technology Hyderabad and the European Union's Horizon 2020 research and innovation program under the Marie Sklodowska-Curie grant agreements No 676401, European Training Network on Full Parallax Imaging and No 643072, Network QoE-Net.

Organising Body: The International Society of Optics and Photonics

Keywords

Computer science and informatics

Access to Document

10.1117/12.2320569

Kara-P-44435-AAMAccepted author manuscript, 2.93 MBLicence: Unspecified

https://doi.org/10.1117/12.2320569

Towards Euclidean auto-calibration of stereo camera arrays
Tamboli, R. R., Vupparaboina, K. K., Shanmukh Reddy, M., Kara, P. A., Cserkaszky, A., Martini, M. G., Richhariya, A. & Jana, S., Aug 2018, Published in: José Sasián and Richard N. Youngworth, (eds.) (2018) Optical System Alignment, Tolerancing, and Verification XII. 107470I. (Proceedings of SPIE Volume 10747) ISSN 0277-786X This work was supported by the Indian Institute of Technology Hyderabad and the European Union's Horizon 2020 research and innovation program under the Marie Sklodowska-Curie grant agreements No 676401, European Training Network on Full Parallax Imaging and No 643072, Network QoE-Net. Organising Body: The International Society of Optics and Photonics Organising Body: The International Society of Optics and Photonics.
Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Open Access
File
4 Downloads (Pure)

Cite this

@conference{45807dc048df4e01a10ec9ba25363921,

title = "Towards Euclidean auto-calibration of stereo camera arrays",

abstract = "Multi-camera networks are becoming ubiquitous in a variety of applications related to medical imaging, education, entertainment, autonomous vehicles, civil security, defense etc. The foremost task in deploying a multi-camera network is camera calibration, which usually involves introducing an object with known geometry into the scene. However, most of the aforementioned applications necessitate non-intrusive automatic camera calibration. To this end, a class of camera auto-calibration methods imposes constraints on the camera network rather than on the scene. In particular, the inclusion of stereo cameras in a multi-camera network is known to improve calibration accuracy and preserve scale. Yet most of the methods relying on stereo cameras use custom-made stereo pairs, and such stereo pairs can definitely be considered imperfect; while the baseline distance can be fixed, one cannot guarantee the optical axes of two cameras to be parallel in such cases. In this paper, we propose a characterization of the imperfections in those stereo pairs with the assumption that such imperfections are within a considerably small, reasonable deviation range from the ideal values. Once the imperfections are quantified, we use an auto-calibration method to calibrate a set of stereo cameras. We provide a comparison of these results with those obtained under parallel optical axes assumption. The paper also reports results obtained from the utilization of synthetic visual data.",

keywords = "Computer science and informatics",

author = "Tamboli, \{Roopak R.\} and Vupparaboina, \{Kiran K.\} and \{Shanmukh Reddy\}, M. and Kara, \{Peter A.\} and Aron Cserkaszky and Martini, \{Maria G.\} and Ashutosh Richhariya and Soumya Jana",

note = "Note: Published in: Jos{\'e} Sasi{\'a}n and Richard N. Youngworth, (eds.) (2018) Optical System Alignment, Tolerancing, and Verification XII. 107470I. (Proceedings of SPIE Volume 10747) ISSN 0277-786X This work was supported by the Indian Institute of Technology Hyderabad and the European Union's Horizon 2020 research and innovation program under the Marie Sklodowska-Curie grant agreements No 676401, European Training Network on Full Parallax Imaging and No 643072, Network QoE-Net. Organising Body: The International Society of Optics and Photonics; SPIE Optical Engineering + Applications 2018 ; Conference date: 19-08-2018 Through 23-08-2018",

year = "2018",

month = aug,

doi = "10.1117/12.2320569",

language = "English",

}

TY - CONF

T1 - Towards Euclidean auto-calibration of stereo camera arrays

AU - Tamboli, Roopak R.

AU - Vupparaboina, Kiran K.

AU - Shanmukh Reddy, M.

AU - Kara, Peter A.

AU - Cserkaszky, Aron

AU - Martini, Maria G.

AU - Richhariya, Ashutosh

AU - Jana, Soumya

N1 - Note: Published in: José Sasián and Richard N. Youngworth, (eds.) (2018) Optical System Alignment, Tolerancing, and Verification XII. 107470I. (Proceedings of SPIE Volume 10747) ISSN 0277-786X This work was supported by the Indian Institute of Technology Hyderabad and the European Union's Horizon 2020 research and innovation program under the Marie Sklodowska-Curie grant agreements No 676401, European Training Network on Full Parallax Imaging and No 643072, Network QoE-Net. Organising Body: The International Society of Optics and Photonics

PY - 2018/8

Y1 - 2018/8

N2 - Multi-camera networks are becoming ubiquitous in a variety of applications related to medical imaging, education, entertainment, autonomous vehicles, civil security, defense etc. The foremost task in deploying a multi-camera network is camera calibration, which usually involves introducing an object with known geometry into the scene. However, most of the aforementioned applications necessitate non-intrusive automatic camera calibration. To this end, a class of camera auto-calibration methods imposes constraints on the camera network rather than on the scene. In particular, the inclusion of stereo cameras in a multi-camera network is known to improve calibration accuracy and preserve scale. Yet most of the methods relying on stereo cameras use custom-made stereo pairs, and such stereo pairs can definitely be considered imperfect; while the baseline distance can be fixed, one cannot guarantee the optical axes of two cameras to be parallel in such cases. In this paper, we propose a characterization of the imperfections in those stereo pairs with the assumption that such imperfections are within a considerably small, reasonable deviation range from the ideal values. Once the imperfections are quantified, we use an auto-calibration method to calibrate a set of stereo cameras. We provide a comparison of these results with those obtained under parallel optical axes assumption. The paper also reports results obtained from the utilization of synthetic visual data.

AB - Multi-camera networks are becoming ubiquitous in a variety of applications related to medical imaging, education, entertainment, autonomous vehicles, civil security, defense etc. The foremost task in deploying a multi-camera network is camera calibration, which usually involves introducing an object with known geometry into the scene. However, most of the aforementioned applications necessitate non-intrusive automatic camera calibration. To this end, a class of camera auto-calibration methods imposes constraints on the camera network rather than on the scene. In particular, the inclusion of stereo cameras in a multi-camera network is known to improve calibration accuracy and preserve scale. Yet most of the methods relying on stereo cameras use custom-made stereo pairs, and such stereo pairs can definitely be considered imperfect; while the baseline distance can be fixed, one cannot guarantee the optical axes of two cameras to be parallel in such cases. In this paper, we propose a characterization of the imperfections in those stereo pairs with the assumption that such imperfections are within a considerably small, reasonable deviation range from the ideal values. Once the imperfections are quantified, we use an auto-calibration method to calibrate a set of stereo cameras. We provide a comparison of these results with those obtained under parallel optical axes assumption. The paper also reports results obtained from the utilization of synthetic visual data.

KW - Computer science and informatics

U2 - 10.1117/12.2320569

DO - 10.1117/12.2320569

M3 - Paper

T2 - SPIE Optical Engineering + Applications 2018

Y2 - 19 August 2018 through 23 August 2018

ER -

Towards Euclidean auto-calibration of stereo camera arrays

Abstract

Conference

Bibliographical note

Keywords

Access to Document

Fingerprint

Research output

Towards Euclidean auto-calibration of stereo camera arrays

Cite this