A stereo photographic physical model for ocean wave measurement

Wang Ying-Xia; Jiang Wen-Zheng; Qiao Fang-Li; Chen Si-Yu

doi:10.7498/aps.66.059201

Abstract

Unlike the traditional models, a new stereo photographic model requiring no sea control points that are difficult to lay on a sea surface is developed in this paper. It is realized according to the order of camera intrinsic parameters calibration, relative orientation and absolute orientation based on average sea surface, and we give the governing equations and its algorithms. First of all, in the paper we present an imaging model that adopts non-measurement camera with considering only the radial distortion coefficients, and then give the method that calculates the camera intrinsic parameters by combining the co-planar equations and the distance equations to form a closed system of equations. For verifying the convergence of the governing equations, we lay four parallel sand ridges on a level ground in laboratory, measure seven lines of different heights and take a pair of the images by two cameras. The intrinsic parameters are successfully calculated by using the method, and further analysis shows that the results are highly precise. When observing the ocean waves in offshore sea, we need to recalculate the relative orientation parameters. At this time the governing equations are the co-planar equations, but the accuracy of the image matching is seriously related to the accuracy of the relative orientation parameters. However, as the mirror reflection of the sea surface, the matching accuracy of the sea image is often low, so we select 407 optimal matching points from among 1600 conjugate points and calculate the parameters. It needs a sequence of sea image pairs to obtain the absolute orientation parameters, 256 pairs in the paper. For each pair, we select firstly 300300 feature points on the left image approximately evenly, then find the conjugate points on the right image by image matching, calculate the coordinates of the corresponding sea surface points in the left camera coordinate system, and then fit the points into a plane; thus a plane sequence can be obtained. We establish a special object coordinate system on the average sea surface that is obtained by summing the plane sequence, and calculate the absolute orientation parameters by the geometric relationship between the two coordinate systems. And it is proved that the methods of relative orientation and absolute orientation proposed in this paper are feasible by reconstructing sea surface height field. The model greatly reduces the difficulty in calibrating the stereoscopic photography for ocean wave measurement, which is beneficial to its popularization and application.

Keywords:

Authors and contacts

1.
College of Oceanic and Atmospheric Sciences, Ocean University of China, Qingdao 266100, China;
2.
Ocean Environment and Numerical Simulation Laboratory, The First Institute of Oceanography, SOA; Laboratory of Marine Science and Numerical Model in SOA, Qingdao 266061, China;
3.
Laboratory for Regional Oceanography and Numerical Modeling, Qingdao National Laboratory for Marine Science and Technology, Qingdao 266237, China

Corresponding author: Qiao Fang-Li, qiaofl@fio.org.cn

Funds: Project supported by the NSFC-Shandong Joint Fund for Marine Science Research Centers, China (Grant No. U1406404), the National Natural Science Foundation of China (Grant No. 41506041), and the Basic Research Foundation of the First Institute of Oceanography, SOA, China (Grant No. GY02-2012T01).

References

[1]	Melville W K 1996Annu.Rev.Fluid Mech. 28 279
[2]	Thorpe S A 1995Prog.Oceanogr. 35 315
[3]	Qiao F L, Yuan Y L, Yang Y Z, Zheng Q A, Xia C S, Ma J 2004Geophys.Res.Lett. 31 293
[4]	Krogstad H E, Barstow S F 1999Proceedings of 9th International Offshore and Polar Engineering Conference Brest, France, May 30-June 4, 1999 p19
[5]	Fedele F, Benetazzo A, Gallego G, Shih P C, Yezzi A, Barbariol F, Ardhuin F 2013Ocean Mode. 70 103
[6]	Wanek J M, Wu C H 2006Ocean Eng. 33 723
[7]	Bechle A J, Wu C H 2011Coastal.Eng. 58 305
[8]	Benetazzo A 2006Coastal.Eng. 53 1013
[9]	Benetazzo A, Fedele F, Gallego G, Shih P C, Yezzi A 2012Coastal.Eng. 64 127
[10]	Benetazzo A, Barbariol F, Bergamasco F, Torsello A, Carniel S, Sclavo M 2016Coastal.Eng. 109 114
[11]	Vries S, Hill D F, Schipper M, Stive M 2011Coastal.Eng. 58 239
[12]	Vries S, Hill D, Schipper M, Stive M 2009J.Coastal.Res. 56 1484
[13]	Gallego G, Yezzi A, Fedele F, Benetazzo A 2011IEEE Trans.Geosci.Remote Sens. 49 4445
[14]	Kosnik M V, Dulov V A 2011Meas.Sci.Technol. 22 015504
[15]	Liu P C 2013Int.J.Geosci. 4 229
[16]	Banner M L, Barthelemy X, Fedele F, Allis M, Benetazzo A, Dias F, Peirson W L 2014Phys.Rev.Lett. 112 114502
[17]	Benetazzo A, Barbariol F, Bergamasco F, Torsello A, Carniel S, Sclavo M 2015J.Phys.Oceanogr. 45 2261
[18]	Leckler F, Ardhuin F, Peureux C, Benetazzo A, Bergamasco F, Vladimir D 2015J.Phys.Oceanogr. 45 2484
[19]	Mironov A S, Yurovskaya M V, Dulov V A, Hauser D, Gurin C A 2012J.Geophys.Res. 117 C00J35
[20]	Bergamasco F, Benetazzo A, Barbariol A, Carniel S, Sclavo M 2016Comput.Geosci. 95 105
[21]	Abdel-Aziz Y I, Karara H M 1971Proceedings of the ASP/UI Symposium:Close-Range Photogrammetry Urbana, USA, January 26-29, 1971 p1
[22]	Jiang W Z, Yuan Y L, Wang Y X 2012Acta Phys.Sin. 61 119101(in Chinese)[姜文正, 袁业立, 王英霞2012物理学报61 119101]
[23]	Wang Z Z 1997Principle of Photogrammetry(Wuhan:Wuhan University Press) p235(in Chinese)[王之卓1997摄影测量原理(武汉:武汉大学出版社)第235页]
[24]	Zhang Z X, Zhang Q J 1997Digital photogrammetry(Wuhan:Wuhan University Press) p103(in Chinese)[张祖勋, 张剑清1997数字摄影测量学(武汉:武汉大学出版社)第103页].
[25]	Wang Y X 2015Ph.D.Dissertation(Qingdao:Ocean University of China)(in Chinese)[王英霞2015博士学位论文(青岛:中国海洋大学)]

Cited By

[1]	Melville W K 1996Annu.Rev.Fluid Mech. 28 279
[2]	Thorpe S A 1995Prog.Oceanogr. 35 315
[3]	Qiao F L, Yuan Y L, Yang Y Z, Zheng Q A, Xia C S, Ma J 2004Geophys.Res.Lett. 31 293
[4]	Krogstad H E, Barstow S F 1999Proceedings of 9th International Offshore and Polar Engineering Conference Brest, France, May 30-June 4, 1999 p19
[5]	Fedele F, Benetazzo A, Gallego G, Shih P C, Yezzi A, Barbariol F, Ardhuin F 2013Ocean Mode. 70 103
[6]	Wanek J M, Wu C H 2006Ocean Eng. 33 723
[7]	Bechle A J, Wu C H 2011Coastal.Eng. 58 305
[8]	Benetazzo A 2006Coastal.Eng. 53 1013
[9]	Benetazzo A, Fedele F, Gallego G, Shih P C, Yezzi A 2012Coastal.Eng. 64 127
[10]	Benetazzo A, Barbariol F, Bergamasco F, Torsello A, Carniel S, Sclavo M 2016Coastal.Eng. 109 114
[11]	Vries S, Hill D F, Schipper M, Stive M 2011Coastal.Eng. 58 239
[12]	Vries S, Hill D, Schipper M, Stive M 2009J.Coastal.Res. 56 1484
[13]	Gallego G, Yezzi A, Fedele F, Benetazzo A 2011IEEE Trans.Geosci.Remote Sens. 49 4445
[14]	Kosnik M V, Dulov V A 2011Meas.Sci.Technol. 22 015504
[15]	Liu P C 2013Int.J.Geosci. 4 229
[16]	Banner M L, Barthelemy X, Fedele F, Allis M, Benetazzo A, Dias F, Peirson W L 2014Phys.Rev.Lett. 112 114502
[17]	Benetazzo A, Barbariol F, Bergamasco F, Torsello A, Carniel S, Sclavo M 2015J.Phys.Oceanogr. 45 2261
[18]	Leckler F, Ardhuin F, Peureux C, Benetazzo A, Bergamasco F, Vladimir D 2015J.Phys.Oceanogr. 45 2484
[19]	Mironov A S, Yurovskaya M V, Dulov V A, Hauser D, Gurin C A 2012J.Geophys.Res. 117 C00J35
[20]	Bergamasco F, Benetazzo A, Barbariol A, Carniel S, Sclavo M 2016Comput.Geosci. 95 105
[21]	Abdel-Aziz Y I, Karara H M 1971Proceedings of the ASP/UI Symposium:Close-Range Photogrammetry Urbana, USA, January 26-29, 1971 p1
[22]	Jiang W Z, Yuan Y L, Wang Y X 2012Acta Phys.Sin. 61 119101(in Chinese)[姜文正, 袁业立, 王英霞2012物理学报61 119101]
[23]	Wang Z Z 1997Principle of Photogrammetry(Wuhan:Wuhan University Press) p235(in Chinese)[王之卓1997摄影测量原理(武汉:武汉大学出版社)第235页]
[24]	Zhang Z X, Zhang Q J 1997Digital photogrammetry(Wuhan:Wuhan University Press) p103(in Chinese)[张祖勋, 张剑清1997数字摄影测量学(武汉:武汉大学出版社)第103页].
[25]	Wang Y X 2015Ph.D.Dissertation(Qingdao:Ocean University of China)(in Chinese)[王英霞2015博士学位论文(青岛:中国海洋大学)]

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Vol. 66, Issue 5 - 2017-03-05

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